Search Results

<< Back to podcast list Strategic Partner(s) Dr. Michael Feigin About Dr. Michael Feigin "Dr. Michael Feigin is an Associate Professor in the Department of Pharmacology and Therapeutics, and Director of Graduate Studies of Experimental Therapeutics at Roswell Park Comprehensive Cancer Center in Buffalo, NY. He earned his Ph.D. under Dr. Craig Malbon at SUNY Stony Brook studying the role of G-protein coupled receptors (GPCRs) and their regulators in the Wnt signaling pathway. Mike then joined the lab of Dr. Senthil Muthuswamy at Cold Spring Harbor Laboratory and probed the roles of polarity proteins (Feigin, et al., Cancer Research, 2014) and GPCRs (Feigin, et al., PNAS, 2014) in breast cancer pathogenesis, using mouse models, three-dimensional cell culture and computational approaches to drug target discovery. When Dr. Muthuswamy moved to the University of Toronto, Mike joined the laboratory of Dr. David Tuveson at CSHL where he participated in the development of an organoid system for the culture of normal and malignant pancreatic tissue, allowing advances in sequencing, target discovery and biomarker development. He also continued his interest in computational analysis of cancer drivers by co-developing GECCO, an algorithm for the identification of noncoding mutations driving gene expression in pancreatic cancer (Feigin and Garvin, et al., Nature Genetics, 2017). Mike's lab has two main areas of interest: 1) alternative polyadenylation as a targetable driver of pancreatic cancer, and 2) dysregulation of the pancreatic tumor microenvironment by commonly prescribed anti-anxiety drugs." Dr. Michael Feigin on the web Roswell Park Feigin Lab Google Scholar LinkedIn Twitter Dr. GPCR AI Summary AI-generated content may be inaccurate or misleading. Always check for accuracy. Quick recap Yamina and Mike engaged in a conversation about their scientific research experiences. Mike shared his journey from his Ph.D. struggles to his current role as a professor, emphasizing the importance of resilience and creativity. They also discussed his research on cell polarity and its role in cancer progression, his work on G-protein coupled receptors (GPCRs) in breast cancer, and his interest in pancreatic cancer. The discussion also covered the challenges they face in studying GPCRs due to their low expression levels and the difficulty of localizing these receptors in tissues. Next steps • Mike will consider using Twitter to post job positions in his lab. Summary Science Roles and Resilience Yamina and Mike had a conversation about their roles and experiences in the field of science. Yamina introduced herself and Mike shared his educational background and his journey to becoming a professor. Mike also spoke about his initial struggles during his Ph.D., such as a difficult model system and a lack of experimental results. He explained that he overcame these challenges by reading extensively and contemplating alternative plans. The conversation also highlighted the importance of resilience and creativity in scientific research. Science Journey and Postdoc Decision Mike discussed his journey into science and his decision to pursue a postdoc at Cold Spring Harbor. He shared that his interest in science originated from a young age and his desire to gain more knowledge about cancer biology led him to transition into using mouse models. Yamina asked about his move from in vitro to in vivo work, and Mike explained that he wanted to use better models to understand cancer signaling pathways. They also shared their personal experiences and interest in the field of biology. Towards the end, Mike mentioned that he stayed at Cold Spring Harbor even after his mentor left for Toronto. Mike's Research on Cell Polarity and GPCRs in Cancer Mike shared his research on cell polarity and its role in cancer progression, particularly focusing on the potential of disrupted cell polarity as a driver of tumorigenesis. He also discussed his work on G-protein coupled receptors (GPCRs) in breast cancer, identifying GPR161 as a potential drug target due to its high expression in triple negative breast cancer. Mike then transitioned to pancreatic cancer, questioning why genes are dysregulated in cancer, which led him to explore different aspects of gene regulation and its relation to cancer progression. Yamina acknowledged the difficulty in identifying GPCRs expressed in cancer cells but not in normal ones, and commended Mike's innovative approach to the question. Career Trajectory and Faculty Position Yamina and Mike discussed Mike's career trajectory and his decision to pursue a faculty position. Mike expressed his initial reluctance due to a lack of confidence and fear of not being ready. However, he decided to undertake another postdoc to gain more experience and confidence. He also highlighted the importance of publishing strong papers and having a clear vision for his lab. Yamina emphasized the importance of thorough preparation and planning before applying for faculty positions. They also discussed the challenges of the two-body problem, where both partners need to find suitable positions. Mike shared his strategy of developing preliminary projects and gathering data to strengthen his application. Teamwork and Flexibility in Scientific Research Mike shared about his recent promotion and the way he has managed his team, encouraging them to come up with their own ideas and then guiding them. Yamina congratulated Mike on his promotion and discussed the importance of flexibility in scientific research, even when starting with a clear plan. Mike also mentioned how his team collaborates closely, with weekly roundtable discussions where everyone shares their progress and issues. The conversation ended with Yamina expressing interest in learning more about Mike's two main research areas in his lab. GPCR Targeted Drugs and Gene Regulation in Cancer Cells Mike presented research on the effect of GPCR-targeted drugs on cancer-associated fibroblasts and discussed their work on gene regulation in fibroblasts. He highlighted their interest in non-coding mutations in promoters and the 3'UTR region important for gene regulation. Mike also shared about a drug that targets an enzyme involved in mRNA cleaving, which has been found to stop cancer cells from growing and invading. He also discussed the impact of disrupting histone processing on rapidly proliferating cells, such as cancer cells, and suggested a therapeutic index for a drug called JTE-6.7. Yamina asked about the typical role of the enzyme and the challenges in delivering a molecule to target this enzyme and only cancer cells. Cytokine Inhibition, Collaboration, and Anti-Anxiety Drug Research Mike discussed the ongoing research on a drug that inhibits cytokine synthesis, its potential in killing cancer cells, and the team's efforts to understand its resistance mechanisms. He also touched upon a collaboration with Todd Ricky's group at UPenn to explore the GPCR side of the lab, which led to the discovery of potential tumor suppressors and oncogenes in melanoma. Furthermore, Mike mentioned a qualifying exam where students proposed new projects, highlighting Abby Cornwell's project on the effects of anti-anxiety drugs on pancreatic cancer patients, and the team's research on the potential issues with certain anti-anxiety drugs. The team found that these drugs could interact with GPR68, which is highly expressed in cancer-associated fibroblasts and is crucial for their function, leading to complications in cancer patients. The team is now examining other anti-anxiety drugs and common patient medications in the context of pancreatic cancer. GPCRs and Cancer Immune Modulation Yamina and Mike had a discussion about their research on GPCRs, specifically focusing on GPR68 and its role in the tumor microenvironment. They also touched upon the potential of GPCR modulation in stimulating the immune system to fight cancer. Mike shared his team's current focus on alprazolam, an anti-anxiety medication that has unexpected effects in the tumor microenvironment. They also discussed the challenges they face in studying GPCRs due to their low expression levels and the difficulty of localizing these receptors in tissues. Mike expressed a need for better tools to study GPCR localization in tissues. Scientific Journey and Drug Discovery Challenges Mike shared significant moments in his scientific journey, including the discovery of RGS proteins and its impact on his research approach. He also discussed his experiments and discoveries about GPR161 in mammary epithelial cells, the effect of alprazolam on tumors, and the potential dangers of drug interactions. Yamina proposed further exploration of dosage and length of treatment in a mouse model and suggested using a biosensor-based assay to examine dose-response curves. The conversation highlighted the complexities and challenges of drug prescription and the potential for alternative treatments. Science Journeys and Career Advice Yamina and Mike discussed their experiences in the field of science. Mike advised junior scientists to focus on projects they are passionate about, emphasizing that ownership and full investment in a project can make dealing with challenges easier. Yamina shared her personal journey, describing how she took her project in a different direction and felt a sense of ownership. Mike reflected on his early years as a postdoc, admitting that he lacked focus and didn't see the direct impact of his work on patients. He highlighted the importance of re-evaluating one's work and its potential implications. Towards the end, Yamina asked about job opportunities in Mike's lab, to which Mike responded that potential candidates can find him on Twitter. Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Yao Lu (Jackie) About Yao Lu (Jackie) "Jackie is a Ph.D. student, at Monash University, Australia, investigating the role of functional selectivity in a novel class of potential antipsychotics for the treatment of schizophrenia. Her work involves the pharmacological and structural characterisation of novel putative antipsychotic small molecules. Her research aims to provide a molecular explanation of small molecules for their pre-clinical efficacy and to support the design of novel therapeutics. " Yao Lu (Jackie) on the web Monash University Georgina Sweet Fellowship Authorea Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Nicolas Gilles About Dr. Nicolas Gilles "Dr. Nicolas Gilles is an expert in the study of animal toxins. He is pioneering the investigation of animal toxins acting on GPCRs, the largest therapeutic target class. His strongest expertise lies in therapeutic target identification and all the steps from venom manipulations, to in vivo validation. When the pharmacological properties of these new ligands are deemed exceptional, a lead optimization is realized and its therapeutic development initiates through a dedicated start-up." Dr. Nicolas Gilles on the web Google Scholar LinkedIn Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Arthur Christopoulos About Dr. Arthur Christopoulos " Arthur Christopoulos is the Professor of Analytical Pharmacology and the Dean of the Faculty of Pharmacy & Pharmaceutical Sciences, Monash University, Australia. His research focuses on novel paradigms of drug action at GPCRs, particularly allosteric modulation and biased agonism, and incorporates computational and mathematical modelling, structural and chemical biology, molecular and cellular pharmacology, medicinal chemistry, and preclinical models of behaviour and disease. His work has been applied to studies encompassing neurological and psychiatric disorders, cardiovascular disease, obesity, diabetes, chronic pain and addiction. He has received substantial, long-term support from international and national competitive, charitable and commercial sources, as well as being academic co-founder of three GPCR-focussed biotechnology companies. Professor Christopoulos has over 360 publications, including in leading international journals such as Nature,Science and Cell, and has delivered over 180 invited presentations. He has served on the Editorial Board of 8 international journals and was a Councillor of the International Union of Basic and Clinical Pharmacology (IUPHAR). He has also been the recipient of multiple awards, including the John J. Abel Award and the Goodman and Gilman Award from the American Society for Pharmacology and Experimental Therapeutics; the Rand Medal from the Australasian Society of Clinical and Experimental Pharmacologists and Toxicologists; the British Pharmacological Society’s Gaddum Memorial Award; the IUPHAR Sir James Black Analytical Pharmacology Lecturer; the GSK Award for Research Excellence and a Doctor of Laws (Honoris Causa) from the University of Athens. Since 2014, Clarivate Analytics have annually named him a Highly Cited Researcher in ‘Pharmacology & Toxicology’, and in 2021 also named him a Highly Cited Researcher in the additional category of ‘Biology & Biochemistry’. In 2017, he was elected a Fellow of the Australian Academy of Health and Medical Sciences, in 2018 as a Fellow of the British Pharmacological Society, and in 2021 he was elected a Fellow of the Australian Academy of Science for his seminal contributions to drug discovery. In 2023, he was elected a Fellow of the Pharmaceutical Society of Australia. " Dr. Arthur Christopoulos on the web Monash University Wikipedia Google Scholar LinkedIn Dr. GPCR AI Summary AI-generated content may be inaccurate or misleading. Always check for accuracy. Quick recap Yamina and Arthur from Monash University discussed Arthur's career journey, the importance of hard work, failure, and differentiation in academic and personal lives, and the value of international conferences. They also explored the significance of translating fundamental discoveries into clinical applications, the potential of new drugs, and the unique challenges within universities. Additionally, they discussed the importance of hiring based on differentiation, impact, and interest, the need for workforce development, and the potential of involving junior scientists and postdocs in their podcast. Lastly, they touched upon the global challenges of healthcare workforce growth, climate change, and emerging psychiatric disorders, as well as the importance of recording lectures and making pre-lesson materials available to students. Next steps - Yamina will share notes about PRISM and presentability with Arthur. - Arthur will share the story of PRISM's development and its impact on the field with Yamina. - Yamina will send an invite for a follow-up meeting with Arthur next Saturday at 9 PM. - Arthur and Yamina will prepare for the next meeting, focusing on the concept of biased agonism and discussing Dr. GPCR and the charity status. - Yamina will attempt to book Denise for a future podcast episode. Summary Arthur's Career Journey and Transition to Dean Yamina introduced Arthur to her team and discussed the use of a particular tool for meeting summaries. Arthur shared his career journey from pharmacy to becoming a professor, highlighting the influence of his mentors and the importance of his postdoctoral experience. They discussed the value of hard work, failure, and the significance of differentiation in their personal and academic lives. Towards the end, they focused on Arthur's transition to become Dean and his decision to move from Australia to the United States for a postdoctoral position. Postdoctoral Position, Scientific Dynamics, and New Drug Targets Arthur shared his decision to undertake a postdoctoral position with Nigel Bird's lab in the UK and his experiences of meeting influential figures during his time in the US. He and Yamina discussed the importance of preserving original work, the value of international conferences, and the dynamics between junior and senior scientists in a research environment. They also shared their admiration for the work of a mutual friend and discussed the history of muscarinic receptors, specifically focusing on the role of a compound that Arthur received from Fred. Lastly, they discussed the progress of new drugs targeting specific receptors for various diseases, with Arthur sharing insights on Eli Lilly's compound, Xanomeline, and the potential of M4 PAM for psychosis. Collaborative Research and Translational Approach Arthur and Yamina from Monash University discussed their collaborative approach to scientific research, emphasizing the benefits of combining their complementary skills and interests. They shared their unconventional approaches to research, including the creation of a critical mass of GPCR researchers in Australia and the initiation of a successful series of conferences. They also discussed the relocation of some university labs to facilitate collaboration and overcome the siloed department structure. Additionally, they explored the unique culture and structure of their Institute, highlighting its translational approach to research and its capacity to translate research into therapeutic commercialization. Lastly, Arthur shared three significant moments that shaped his career, including the evolution and impact of analytical pharmacology, particularly highlighting the role of Prism, a data analysis tool. Podcast Format, Team Culture, and Science Yamina and Arthur concluded their discussion and decided to take a short break. They talked about the format and length of their podcast, their professional interests, and their recent successful bid to bring Moderna to their university. They also explored the idea of starting a similar talk show format to 'Between Two Ferns', the importance of maintaining team culture, and the potential health issues among well-known scientists. Lastly, they discussed the growth and development of the Monash Institute of Pharmaceutical Sciences, the importance of knowing when to let go in scientific experiments, and the idea of a panel for building and incubating companies. Arthur's Pandemic Journey and Global Challenges Yamina and Arthur discussed Arthur's experiences during the Covid-19 pandemic, his journey as a research fellow in Australia, and his transition to the role of Dean. Arthur shared his insights into the unique grant funding system in Australia, the importance of impact in research, and the challenges of balancing administrative responsibilities with scientific pursuits. He also reflected on his personal health struggles, the growth of his university, and the faculty's successful response to the Covid crisis. The conversation also touched upon Arthur's career decisions, his scientific achievements, and the importance of learning from mistakes and self-confidence. Lastly, they discussed the global challenges of healthcare workforce growth, climate change, and emerging psychiatric disorders, as well as the importance of recording lectures and having pre-lesson materials available to students. Translating Discovery Into Clinical Application Arthur and Yamina discussed the importance of translating fundamental discoveries into clinical applications in their research, highlighting the unique opportunities presented by their location and partnerships with other institutions. They stressed the necessity of making their research goals clearer, avoiding replication, and adopting a more assertive approach in grant applications. They also emphasized the significance of fundamental discoveries, the role of biotech, and the need for efficiency and process development in university systems. The conversation highlighted ongoing challenges within universities, including resistance to change and the need to communicate expectations and protect established cultures. Hiring Process, Collaboration, and Education-Focused Initiatives Arthur emphasized the importance of differentiation, impact, and interest in their hiring process and fostering a culture of collaboration. He shared his vision of breaking down barriers and promoting education-focused initiatives, encouraging his team to be innovative and apply their skills to education. Yamina expressed a desire to learn from successful leaders and the importance of recognizing talent and matching it with the needs of a particular project. They also discussed the disruption within the pharmaceutical sector, the importance of workforce development, and the need for maintaining a healthy work-life balance. Lastly, they deliberated on involving junior scientists and postdocs in their podcast and the possibility of writing a book about their experiences in academia. Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Katarzyna Marcinkiewicz About Dr. Katarzyna Marcinkiewicz "Katarzyna is a Senior Editor at Nature Communications, which she joined in April 2020, following three years on the editorial teams of Nature Structural and Molecular Biology and Nature Biotechnology. She obtained her Ph.D. from Weill Cornell Graduate School of Medical Sciences in New York City, studying epigenetic changes in cancer. During her postdoctoral training at New York University School of Medicine, her research focused on cellular senescence. Katarzyna handles submissions in structural biology, biophysics and biochemistry, with a particular focus on membrane proteins and protein folding." Dr. Katarzyna Marcinkiewicz on the web LinkedIn Nature The Spectator Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Kathleen Caron About Kathleen M. Caron Kathleen M. Caron, Ph.D. is the Frederik L. Eldridge Distinguished Professor and Chair of the Department of Cell Biology & Physiology at The University of North Carolina at Chapel Hill—a large, interdisciplinary basic science department currently ranked 1st in the Nation in NIH funding. Dr. Caron received a BS in Biology and BA in Philosophy at Emory University and a PhD at Duke University while training with Dr. Keith Parker to elucidate the role of steroidogenesis in regulating sexual determination and adrenal and gonadal development using genetic mouse models. She pursued postdoctoral training with Nobel Laureate Dr. Oliver Smithies at UNC-CH, where she was the first to discover the essential role of adrenomedullin peptide for embryonic survival. With a special emphasis on G protein coupled receptors and receptor activity modifying proteins in vascular biology, the Caron laboratory has gained valuable insights into the genetic basis and pathophysiology of lymphatic vascular disease, preeclampsia and sex-dependent cardiovascular disease. Dr. Caron has received numerous awards including a Burroughs Wellcome Fund Career Award in the Biomedical Sciences, an Established Investigator Award and an Innovator Award from the American Heart Association, a Jefferson Pilot Award in Biomedical Sciences and a UNC-CH Mentoring Award. She currently serves as Associate Editor of Physiological Reviews; the #1 ranked journal in Physiology (IF 46.5). Dr. Caron is also past Associate Editor at JCI and served as the inaugural Associate Editor at ACS-Pharmacology and Translational Science. Dr. Caron currently holds multiple scientific advisory roles in academia, industry and the National Institutes of Health. Kathleen M. Caron on the web Lab Website Twitter Pubmed Google Scholar Orcid Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. David Sykes About Dr. David Sykes " David Andrew Sykes, BSc Hons Pharmacology, MSc Molecular Biology and Biochemistry, PhD in Molecular Pharmacology & Drug Discovery. David has over 20+ years of experience working in a drug discovery environment mainly in a specialist assay development role and most recently with Novartis. In 2014 David joined the University of Nottingham and began a part-time PhD in Molecular Pharmacology and Drug Discovery that he was awarded in 2020. During this period David has made a significant contribution to the understanding of agonist/ antagonist GPCR kinetic determinants in an area of growing scientific interest. His current interests include the development of HTS fluorescence-based kinetic binding assays specifically designed to assess the kinetics of unlabelled compounds (and chemical fragments) and the use of purified receptor/ effector proteins as tools for drug discovery. " Dr. David Sykes on the web Veprintsev Lab ResearchGate LinkedIn Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Shivani Sachdev About Dr. Shivani Sachdev "Dr. Sachdev is an early career researcher in the National Institute of Diabetes and Digestive and Kidney Diseases at the National Institutes of Health. Her research centers on developing nanobody-ligand conjugates to target GPCRs, with a focus on receptors relevant for treating osteoporosis, diabetes, and pain. She received her undergraduate degree in Biotechnology from KIIT University in India. She subsequently joined Professor Mark Connor's laboratory at Macquarie University in Australia. Dr. Sachdev pursued Ph.D. in the same lab where she investigated the molecular pharmacology of cannabinoid receptors. She is also very active within the pharmacology community and currently serves on the editorial board of the British Journal of Pharmacology. Given her expertise in GPCR pharmacology and scientific communication, she is poised to make valuable contributions to the field and expand our understanding of GPCR signaling." Dr. Shivani Sachdev on the web NIDDK ReseachGate Google Scholar LinkedIn Twitter Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Gregory Tall About Dr. Gregory Tall " Dr. Gregory Tall earned his Ph.D. in Biomedical Sciences from U.T. Southwestern Medical Center with Bruce Horazdovsky, Ph.D. They worked on the interactome of yeast and mammalian Rab5 homologs including identification of Rab5 GEFs. In 2000, Dr. Tall moved upstairs to conduct his postdoctoral work on heterotrimeric G proteins and the novel interactor, Ric-8 with Alfred Gilman, M.D. Ph.D. In 2007, Dr. Tall joined the faculty in the Department of Pharmacology and Physiology at the University of Rochester Medical Center, there establishing his lab and major research directions. Dr. Tall moved to the University of Michigan in 2016 as an Associate Professor of Pharmacology and is a current active member of the department. The current goals of the Tall lab are to understand the basic mechanism by which Ric-8 proteins fold all heterotrimeric G protein alpha subunits, to exploit a Ric-8-based technology to purify recombinant G proteins and to use the G proteins in assays to explore the mechanisms of action of the 33-member adhesion GPCR family or Family B2 GPCRs. We found that adhesion GPCRs are activated by a tethered peptide agonist mechanism that differed from the common example known at the time, protease activated receptors (PARs). PARs have an N-terminal leader sequence that is clipped by exogenous proteases to reveal a new N-terminus that serves as the tethered agonist. Adhesion GPCRs pre-cleave themselves and the two resultant fragments of the receptor remain together to conceal the tethered peptide agonist. Mechanical dissociation of the two fragments aided by protein binding ligands and cell movement serves to decrypt the tethered agonist for binding to its orthosteric site. Our current goals are to explore this mechanism in detail and to understand how it may happen for the 33 adhesion GPCRs in complex physiological contexts…one being our discovery that GPR56 is the platelet receptor that senses collagen and shear force to initiate the platelet activation program. Dr. Tall has been continuously funded by the NIH since receiving an early RO1 award at Rochester. He has continued funding at Michigan through the MIRA R35 program. Dr. Tall has presented his work at 59 invited seminars including national and international meetings and academic departmental seminars. " Dr. Gregory Tall on the web The Tall Lab University of Michigan Google Scholar Twitter Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Raul Gainetdinov About Dr. Raul Gainetdinov Raul R. Gainetdinov is the Institute of Translational Biomedicine Director at Saint Petersburg State University (SPBU), Russia. Before SPBU, Raul R. Gainetdinov was a Senior Researcher in the Department of Neuroscience and Brain Technologies at the Italian Institute of Technology in Genova, Italy (2008-2016) and an Associate Research Professor in the Department of Cell Biology at Duke University in North Carolina, USA (1996-2008). From 2013-2018, he was also a Professor at the Skolkovo Institute of Science and Technology (Skoltech), Moscow. Before joining the Department of Cell Biology in 1996 as a postdoc and becoming faculty at Duke in 2000, he researched at the Institute of Pharmacology Russian Academy of Medical Sciences in Moscow (1988-1996). He received a Ph.D. in pharmacology in 1992 from the Russian Academy of Medical Sciences and an M.D. in 1988 from the Second Moscow Medical Institute, Moscow, Russia. Since 2013, he has been elected Chair of the subcommittee for the Dopamine receptors of the International Union of Basic and Clinical Pharmacology Committee on Receptor Nomenclature and Drug Classification (NC-IUPHAR). As of August 2022, he has over 270 publications in scientific journals (including Science, Nature, Cell, and PNAS) and co-authored 13 patents. His papers were cited over 28,000 times (H-index – 81, ISI Web of Science). In 2018-2020, Raul R. Gainetdinov was included in the Web of Science (WOS) Highly Cited Researchers (HCR) list, representing the top 0.1% of scientists worldwide. Dr. Raul Gainetdinov on the web Saint-Petersburg State University Wikipedia Google Scholar Researchgate Google Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

GPCR Courses Expert knowledge, flexible courses - career-ready skills —build skills that translate at the bench and in the boardroom. 👇 Start Learning! The Practical Assessment of Signaling Bias Signaling bias is an inherent feature of pharmacology, influencing receptor behavior even when unnoticed. Different ligands stabilize distinct receptor states, leading to diverse signaling outcomes. Measuring and understanding bias helps design drugs that maximize therapeutic benefits while minimizing side effects. Terry Kenakin 🔒 Premium Content Watch recording Strategic Project Management for scientists Gain practical project management skills explicitly designed for research and innovation. Learn to plan, execute, and manage scientific projects while balancing timelines, resources, and team coordination. Master strategic planning, risk assessment, and collaboration tools to boost efficiency and project success. Yamina Berchiche 🔒 Premium Content Watch recording Applying Pharmacology to Drug Discovery Class 1 - Fundamentals of Pharmacology Class 2 - Characterizing Agonists Class 3 - Characterizing Antagonists Class 4 - Characterizing Allosteric Modulators Terry Kenakin 🔒 Premium Content Watch recording Advanced data analysis for GPCR pharmacology Class 1 - Concentration-response analysis: Become a CRC super-user Class 2 - Quantifying agonist pharmacology and biased agonism Class 3 - Antagonist pharmacology and binding assay analysis Class 4 - New dimensions of activity: Allosteric modulators and kinetics Sam Hoar 🔒 Premium Content Watch recording Principles of Pharmacology in Drug Discovery II Advanced Methods for the Optimization of Candidate Selection Lecture 1: The Eyes to See- The Importance of Pharmacologic Assays Lecture 2: Drug Disposition in Physiological Tissues as a Therapeutic Variable Lecture 3: The Application of GPCR Ligand Kinetics to Candidate Design Lecture 4: Unconventional GPCR Ligands as Drugs Lecture 5: Unique Exploitable GPCR-Ligand Behaviors for Therapeutic Benefit Terry Kenakin 🔒 Premium Content Watch recording Principles of Pharmacology in Drug Discovery I Techniques for Effective Lead Optimization of Candidate Molecules Lecture 1: GPCR Project Initiation and Design for Discovery of New Molecules Lecture 2: Drug Affinity: Measurement of Antagonism (Binding and Function) / Classifying Antagonists Lecture 3: Agonists and Efficacy: A New World of GPCR Efficacies / Biased Signaling Lecture 4: Allosteric Modulators: NAMs, PAMs, Special Properties, Methods to quantify the allosteric effect Terry Kenakin 🔒 Premium Content Watch recording What others are saying about the courses Dr. Hoare is very experienced in the field. What came as a pleasant surprise was how didactical and well-thought-out his course was—highly recommended. The really unexpected was that the Q&A sessions reached the highest level—beyond excellent. I am a convert! I will keep Dr. GPCR and the offered resources in my work sphere Anonymous Thank you for bringing this course with Dr. Kenakin. I wish Dr. GPCR the best for the sake of promoting more educational opportunities that are sorely needed in the field Anonymous The content had enough depth to satisfy the hunger for theory while being full of practical knowledge Anonymous The best pharmacology teacher teaming up with the best GPCR community platform to help train and inspire the next generation of scientists. Also super-valuable for those of us learning how to teach pharmacology Anonymous Dr. Hoare's extensive and elaborative explanation of the topics at hand was excellent and very digestible. Thoroughly enjoyed learning from him Anonymous Dr. Kenakin is a leading expert in the field. Aside from his vast experience in drug development, not to mention his extensive publication record, Dr. Kenakin is a masterful teacher and communicator. Anonymous The course was very practical and easily translatable to experiments that we could do in our own labs. It was clear that Dr. Hoare is very in touch with the technical and human challenges we encounter in our work Anonymous

Join GPCR Happy Hour to connect with scientists across academia, biotech, and pharma - a free networking event. Sign up and join us! GPCR Happy Hour – Connect, Collaborate, Discover A global networking event where GPCR scientists break silos and build lasting connections. Sign Up to Get Event Updates Happy Hours Partners Why Join GPCR Happy Hour? Scientist-led : Built by GPCR researchers, for GPCR researchers. Cross-sector : Academia, biotech, pharma, CROs all in one room. Consistent : Monthly cadence ensures ongoing connections. Accessible : Online & free to join – no travel barriers. Action-oriented : Conversations designed to spark collaborations, not just chatter. How It Works? Step 1 Register Sign up once to access all upcoming GPCR Happy Hour events. Step 2 Get the Link Receive a secure calendar invite with Zoom/virtual event details. Step 3 Join the Conversation Show up to live sessions and meet GPCR scientists across disciplines. Step 4 Engage & Connect Breakout rooms + structured prompts maximize meaningful networking. Step 5 Follow Up Access shared contact lists and resources to keep collaborations alive. Pricing: Free (sponsored by Dr. GPCR & Partners) Upcoming and Past Happy Hours GPCR Happy Hour – Boston, Sept 2025 Every September, Boston welcomes the global biotech and drug discovery community. Scientists, investors, and CRO professionals fly in from around the world, while Boston’s own vibrant life sciences hub shows up in full force. GPCR Happy Hour is where these two worlds meet. It’s not just networking. It’s where partnerships spark, ideas collide, and the GPCR community grows stronger — together. GPCR Happy Hour Dr. GPCR News Aug 20, 2025 3 min read

No plans available Once there are plans available for purchase, you’ll see them here.

Join the GPCR Retreat: Exploring the Frontiers of GPCR Biology! Engage with leading minds from academia and industry, fostering discussions on cell communication and novel concepts. Embrace diversity in a limited-capacity event fostering mentor-trainee interactions. Retreat 2023 About Program Registration Logo Contest Committee Sponsors 22nd GPCR Retreat Fairmont Le Château Montebello, Québec, Canada November 2-4, 2023 We are pleased to welcome you at Le Château Montebello , the 22nd Annual Great Lakes G Protein-Coupled Receptor Retreat held jointly with the Club des Récepteurs à Sept Domaines Transmembranaires du Québec. The meeting will be held on Nov. 2-4, 2023 at the Chateau Montebello, Québec. The Chateau Montebello is an exceptional venue, and is located 1 hr from Ottawa, or 1.5 hr from Montreal in the beautiful Laurentian Mountains of Canada. The fall colors of the leaves are spectacular, and the weekend of science is an intense and interactive experience, and a great training environment for our students and post-doctoral fellows. The meeting is launched on Thursday with two Trainee Symposia and the Plenary Lecture, followed by 6 symposia on Friday and Saturday and the closing Keynote Lecture. The deadline for registration is September 21, 2023. For the 22nd edition, the Organizing Committee has again lived up to the expectations by putting together an outstanding program with a special thought for Marc Caron (1946-2022) to commemorate his great contributions to the GPCR and Neurosciences fields. Dr. Kathleen Caron of the University of North Carolina at Chapel Hill, unquestionably one of the pioneers involved in deciphering how receptor activity-modifying proteins or RAMPs regulate GPCR function, is confirmed as Plenary Speaker of the inaugural Marc G. Caron keynote lecture on November 2nd. Additionally, there will be a Marc G. Caron Honorary Symposium by Caron Lab alumni to honor his memory. We have also confirmed Dr. Arthur Christopoulos of Monash University in Australia, one of the pioneers in the medicinal chemistry, computational and mathematical modelling of GPCRs, as Plenary Speaker of the Hyman B. Niznik keynote lecture , which will close the conference. The program will include also world-class and diverse GPCR scientists working in the arenas of structure and signaling, neuroscience, cancer, translational and model systems. As in previous editions, trainees are more than welcome to this unique meeting. Indeed, for the Montebello 2023 edition, we have organized two trainee symposiums to acknowledge formally the participation of our graduate students and post-doctoral fellows. Additionally, each symposium of the GPCR Retreat 2023 will include one trainee short talk selected from abstracts. Trainees of diversity groups are strongly encouraged to register to the meeting and submit an abstract for consideration for the trainee symposia and selected trainee short talks. Your participation has already made this unique event a success. We are thrilled by the overwhelming interest in this event by the GPCR research community. We trust that the collegial and intimate atmosphere provided by Le Château Montebello will be suited for an environment where graduate students, postdoctoral fellows and principal investigators can have stimulating discussions and debates on GPCR research presented at this meeting. We would like to thank all our Sponsors for their ongoing generous support of the meeting. Without their support, this meeting will not be possible. If you have any suggestions or comments for either this Retreat or future meetings, we look forward to receiving your feedback. Finally, Bienvenue and we hope you will enjoy your stay in Montebello and find the Retreat stimulating and satisfying. Sincerely , The Organizing Committee Great Lakes GPCR Retreat and Club des Récepteurs à Sept Domaines Transmembranaires du Québec 22nd GPCR Retreat Sponsored by

GPCR Ecosystem About Monserrat Avila Zozaya I am a cell biologist interested in studying GPCRs, especially GPCR Ecosystem About Yamina Berchiche Dr. Yamina A. Berchiche is the founder of Dr. GPCR, an ecosystem designed to bring together stakeholders interested in using G-Protein Coupled Receptors GPCR Ecosystem Enjoying the Dr. GPCR Podcast? Leave a Review.

Anonymous What are the benefits of becoming a member of Dr.GPCR? As a member, you can access: Dr.GPCR Podcast videos Live GPCR events Weekly classified GPCR news Contributor We carefully screen anyone signing up to the Ecosystem to ensure they are real humans working on GPCRs Can I sign up to the Ecosystem? Yes, everyone interested in the field is welcome to join. You can also access a 25% discount on our Dr.GPCR University courses as a premium member.

Share our ecosystem, courses, and events to advance drug discovery together. Dr. GPCR Affiliate Program Earn by Empowering the GPCR Ecosystem Help us connect scientists, founders, and GPCR Ecosystem We aspire to provide opportunities to connect, grow, and thrive together as a dynamic GPCR Ecosystem membership holder. GPCR Ecosystem?

. ✳️ Learn more about the partnership: https://www.ecosystem.drgpcr.com/celtarys-research-dr-gpcr-ecosystem most. ✳️ Learn more about the partnership: https://www.ecosystem.drgpcr.com/celtarys-research-dr-gpcr-ecosystem

Check out the latest GPCR news in the Ecosystem today! Check out the latest GPCR news in the Ecosystem today!

Your One-Stop-Shop for GPCR Drug Discovery and Development Researchers developing GPCR-targeted therapeutics need a reliable, comprehensive partner that spans discovery, optimization, and regulatory submission. Eurofins DiscoverX leads GPCR research innovation with 25+ years of expertise and provides you with cell-based assay solutions for basic research through therapeutic discovery and development. The assays are validated and accepted by industry and the scientific community, with thousands of peer-reviewed publications and billions of data points screened. These industry-standard assays, designed for regulatory submissions, are backed by partnerships with leading pharma companies worldwide. GPCR Product Solutions Determine rank-order hits, evaluate ligand bias or allostery, study multiple targets and signaling pathways, investigate target species variations, deorphanize receptors, and more Perform target identification and validation, high-throughput screening (HTS), lead optimization, safety assessment, and regulatory potency testing for commercial release Access a complete toolkit for GPCR solutions: cell line assay kits, cell lines, ready-to-use assays, detection kits, custom products, and more Comprehensive Coverage >1500 Human GPCRs products, including: 90% Target coverage Orphan receptors Ortholog variants Multiple cell line backgrounds Multiple Mechanisms of Actions (MOA) cAMP accumulation β-Arrestin recruitment Receptor internalization Ligand binding Calcium flux Pharmaco Chaperone discovery Numerous Product Types Cell line assay kits Cell lines Qualified bioassays eXpress assay kits Membrane preps Detection kits Custom products Services Flexible Formats for Every Research Need Eurofins DiscoverX understands that different research stages require different tools. This comprehensive portfolio offers multiple product formats to match your exact needs, whether you're conducting exploratory screens or regulatory-compliant potency testing. Assay Principle of Eurofins DiscoverX Cell-based Assays Whether you are developing small-molecule or biologic therapeutic drugs, Eurofins DiscoverX provides you with a variety of drug discovery and development products with multiple assay types and applications to meet your specific GPCR research needs. Access Product Solutions and Key Resources GPCR Functional Cell-Based Assays - Assessing Biased Signaling of Agonist Access White Paper Find Your Solution The Human GPCRome Obtain Wall Poster Shop Products Supporting Obesity and Diabetes Research Eurofins DiscoverX supports the ongoing obesity/diabetes revolution with the most comprehensive, validated portfolio for obesity and diabetes GPCR targets, including GLP-1, GIP, GCG, MC4, PYY, AMY receptors, and more. Browse products related to your obesity/diabetes target of interest: CALCRL and RAMP (AMs) GIPR GLP-1R GLP-2R GCGR GPR75 MC4R NPY2R (PYY) SSTR5 Activins CALCR and RAMPs (AMYs) Apelin (APJ/AGTRL1) Representative Data: GLP-1R Multi-MOA Profiling Eurofins DiscoverX's GLP-1 receptor (GLP-1R) assay portfolio illustrates a comprehensive approach to obesity research, with complete MOA coverage for a single target: GLP-1. These assays enable complete pharmacological profiling across cAMP, β-arrestin, and internalization. GLP-1R representative assay results (dose-response curves) for exendin-4, tirzepatide, and retatrutide. A. cAMP dose–response; B. β-arrestin recruitment showing ligand bias; and C. internalization profiles distinguishing highly versus weakly internalizing agonists. Together, these datasets exemplify the depth of pharmacological insight enabled by Eurofins DiscoverX platforms. This multi-dimensional characterization extends across our full obesity and diabetes product portfolio, including GIPR, GCGR, AMY receptors, MC4R, and beyond. Beyond Eurofins DiscoverX Products: The Full Power of Eurofins Discovery Eurofins DiscoverX cell lines, assays, kits, and custom product solutions represent the foundation of tools for GPCR research and drug discovery and development. When these product solutions are combined with Calixar GPCR membrane proteins and Eurofins Discovery GPCR services, the benefits from integration provide the most comprehensive GPCR research and drug discovery platform spanning the entire discovery and development continuum. Eurofins Discovery GPCR services offer hundreds of binding and functional assays, available individually or in panels. These assays use the same platform as the Eurofins DiscoverX assays and beyond. Calixar GPCR membrane proteins , as a service, provides a wide array of GPCRs from various species, purified to the highest standards to ensure purity, integrity, and biological activity. These GPCRs are excellent for use in functional, structural, or identification assays, as they are strictly identical to the ones in membranes. Our Partnership I'm a paragraph. Click here to add your own text and edit me. It's easy. Related Articles How Breakthroughs Happen: Eric Trinquet on Innovation, Serendipity & GPCRs Discover how Dr. Eric Trinquet, creator of HTRF and IP-One assays, turned failure into breakthrough tools for GPCR science. Learn why play, serendipity, and partnerships fuel innovation—and how this mindset can transform your research and biotech career. Dr. GPCR Podcast Oct 16, 2025 4 min read The Truth About GPCR Product Launches: Years in the Making What it really takes to launch a GPCR product—years of failure, science, and strategy. Go behind the scenes of pH-Sense with Revity’s Dr. Eric Trinquet. Dr. GPCR Podcast Oct 8, 2025 4 min read Innovative Data-Driven Solutions: The pHSense Revolution A powerful new tool tracks GPCR internalization in native cells—no imaging, no overexpression. Learn how pH Sense changes the game for drug discovery. Dr. GPCR Podcast Sep 26, 2025 3 min read Let Us Help You Get Started! Contact a Eurofins DiscoverX Specialist or visit GPCR Product Solutions for more information on GPCR cell-based solutions for basic research, discovery, and therapeutic development.

<< Back to podcast list Strategic Partner(s) Dr. Alix A. J. Rouault About Dr. Alix A. J. Rouault "My contribution to science began during the equivalent of U.S. masters training at the Université de Bretagne Occidentale (UBO; France). Under the leadership of Dr. Karine Pichavant , I contributed to the development of a drug to treat hypovolemic shock after severe hemorrhage. During this time, Dr. Olivier Mignen , the director of another research unit at the UBO recommended me to Dr. Julien Sebag , a researcher at the University of Iowa. I spent two years working with Dr. Sebag as an exchanged scholar while my student visa was in the work, during which time I thoroughly reviewed the literature on the melanocortin receptor accessory protein 2 (MRAP2), resulting in my first peer-reviewed publication in Biochimica et Biophysica Acta (BBA). I then undertook my first project where I demonstrated that MRAP2 regulates the signaling of multiple G protein-coupled receptors (GPCRs) through different structural regions. This project yielded my first, first author publication in BBA – Molecular Cell Research, and a book chapter for Neuromethods on a technique I adapted to measure the mitochondrial pyruvate oxidation in primary neurons. In 2017 I officially joined the PhD program in the Department of Molecular Physiology and Biophysics at the University of Iowa Carver College of Medicine, under the mentorship of Dr. Sebag. During my PhD, I continued my studies on MRAP2. I contributed to an In-vivo project that showed that MRAP2 regulates the growth hormone secretagogue receptor-1a (GHSR1a), the results of which are published in Nature Communications. Concurrently, I described the mechanisms by which MRAP2 regulates GHSR1a signaling; this project brought forth our NanoBiT-based arrestin recruitment assay. At the time, NanoBiT was a prototype technology we gained access to by collaborating with Promega. This powerful tool allowed us to create an assay that kinetically measured the arrestin recruitment to an activated GPCR for the first time. Using this novel technique, I showed that MRAP2 biased GHSR1a signaling and shut down its constitutive activity; this work resulted in a first author publication in Science Signaling. While writing my thesis, I published another paper in the Journal of Biological Chemistry which described the molecular mechanisms of MRAP2 regulation of the GHSR1a, and where I notably developed the C-terminal gate theory. This theory states that the post-translational modification of GHSR1a’ C-terminal tail is not a docking space for the arrestins, but rather a necessary modification leading to a structural change granting the arrestins access to the core of the receptor. Some of my data were also used in an In-vivo study published in iScience, showing the relevance of the MRAP2 regulatory effect on GHSR1a in pancreatic islets. Dr. Cone’s lab was a clear choice for a postdoc. Dr. Cone was the first to clone the melanocortin receptors (the GPCRs that led to the discovery of MRAP2), and his lab works is highly In-vivo oriented. Since I joined the lab, I became proficient in many In-vivo techniques, I adapted my arrestin recruitment assay to a high throughput screening format for drug discovery, I have started molecular work on the melanocortin receptors. I also invested a tremendous amount of time in developing my leadership skills. I spent time running for the chair of International Affairs for the U-M Postdoctoral Association (UMPDA). Further, I applied to create a scientific session at the American Physiology Summit (APS) 2024 dedicated to GPCR biased signaling. Dr. Lauren Slosky and Dr. Joshua Gross were enthusiastic about the idea and jumped on board. Our session was picked up by the APS. We were pleasantly surprised by the interest generated by our scientific session, Dr. Michel Bouvier accepted to open our session and will be followed by Dr. John McCorvy , Dr. Dylan Eiger , and Joshua Gross. We are very excited about this event. At this point in my career, I am creating connections with biomedical industry, assessing professional opportunities, and seriously weighing strengths of career options across sectors; however, academia does not make information about industry widely accessible to trainees. This is, in part, why I ran for, and was elected Chair of International Affairs of the University of Michigan Postdoc Association. I want to connect more trainees with diverse career resources to support professional decision-making. I am hopeful that my efforts to support the professional opportunities of my peers, in combination with my own scientific endeavors, will inform my future career decisions." Dr. Alix A. J. Rouault on the web University of Michigan Carver College of Medicine ResearchGate Google Scholar Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. G. Aditya Kumar About Dr. G. Aditya Kumar Dr. Aditya Kumar is a postdoctoral fellow at the University of Michigan Medical School. Aditya is interested in understanding the role of the membrane microenvironment in the subcellular organization, trafficking, and signaling of GPCRs. He received his Ph.D. from the Centre for Cellular and Molecular Biology at Hyderabad, India, where he studied the interaction of membrane cholesterol with the serotonin-1A receptor and its effects on receptor signaling and endocytosis. In addition, he explored the role of the host membrane in the entry of intracellular pathogens into macrophages. He currently uses high-resolution fluorescence microscopy and biochemistry to study GPCR trafficking mechanisms. In his (future) independent research career, Aditya aims to work at the interface of GPCR molecular pharmacology, subcellular trafficking, and membrane biology to better understand how the dynamic receptor microenvironment contributes to GPCR organization and function. Dr. G. Aditya Kumar on the web University of Michigan Puthenveedu Lab Google Scholar NIH ORCID LinkedIn Twitter Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Robert F. Bruns About Dr. Robert F. Bruns Fred Bruns discovered the first positive allosteric modulator (PAM) of a GPCR in the late 1980s while working at Warner-Lambert/Parke-Davis. The work was published in 1990. After 7 years at WL/PD and 26 years at Eli Lilly & Co., he retired at the end of 2014 and since then has been writing papers on his final major project at Lilly, a dopamine D1 PAM series that has advanced through Phase 2 clinical trials. Fred obtained an A.B. in Psychology from Washington University in St. Louis, followed by a Ph.D. in Neurosciences at the University of California, San Diego. His doctoral dissertation was the first large-scale study of structure-activity relationships for adenosine receptors. During a joint postdoc with John W Daly at NIH and Solomon Snyder at Johns Hopkins, he developed the first adenosine receptor binding assay. He then joined WL/PD, where his lab demonstrated the existence of two subtypes of the adenosine A2 receptor, A2a and A2b. In 1988, he joined Lilly as a receptor biologist in charge of a high-throughput screening lab. He taught himself chemoinformatics as a way to optimize compound selection for screening, and in 1997 switched to computational chemistry full-time. He supported the D1 PAM project in various roles from its inception in 2002 until selection of a clinical candidate in 2013. Dr. Bruns has over 80 publications and 11,000 citations, with an h-index of 47. Dr. Robert F. Bruns on the web ResearchGate LinkedIn Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Kaavya Krishna Kumar About Dr. Kaavya Krishna Kumar "I am a postdoc in Prof. Brian Kobilka's lab at Stanford University, USA. I work on understanding the activation mechanism of different Families of GPCRs." Dr. Kaavya Krishna Kumar on the web Journal of Biology Chemistry Stanford University Google Scholar LinkedIn Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Murat Tunaboylu & Ben Holland About Murat Tunaboylu "Murat Tunaboylu, Antiverse's CEO, has a software engineering and bioinformatics background. Mid-career, he has worked in finance and developed high-frequency trading systems. After switching to biotech, Murat has built cell imaging software and lab robots to accelerate cancer research and automated Thermo Fisher Scientific’s gene synthesis workflows. He has co-founded consultancy and biotech companies Svarlight and Antiverse. His current focus is to realise Antiverse’s mission: engineering the future of drug discovery." Murat Tunaboylu on the web Antiverse DSV Future of Drug Discovery Podcast Twist Bioscience LinkedIn Twitter Dr. GPCR About Ben Holland "Ben gained his masters in Engineering Science from Oxford, taking a specialisation in information engineering. Following this, he joined an early-stage medical device start-up and in 5 years was responsible for project R&D and managing a focused development team, pursued international strategic partnerships, managed IP matters, helped establish a manufacturing line in Malaysia and is named as inventor on several patents. He then returned to information engineering and has been working in machine learning for nearly 10 years, applying it to antibody generation, analysis, and property prediction since 2017" Ben Holland on the web Antiverse The Antibody Society YT LinkedIn Twitter Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

<< Back to podcast list Strategic Partner(s) Dr. Paul J. Gasser About Dr. Paul J. Gasser " I received my BS and MS in Zoology & Physiology at the University of Wyoming, where I studied signaling processes involved in light-induced regulation of melatonin synthesis in the rainbow trout pineal organ, a directly photosensitive endocrine organ. I received my PhD in Biology at Arizona State University, where I worked in the lab of Miles Orchinik, studying cellular mechanisms underlying non-genomic actions of corticosteroid hormones. My postdoctoral work, conducted at the University of Bristol, UK, in Christopher Lowry's lab, examined the role of organic cation transporter 3 (OCT3) in the regulation of monoamine signaling in the brain. I joined the faculty of Biomedical Sciences at Marquette in 2007. I teach undergraduate Biochemistry and a variety of graduate neuroscience courses. Research in my lab is currently focused on understanding the signal transduction pathways activated by beta-adrenergic receptors localized to the inner nuclear membrane and their role in the regulation of gene expression." Dr. Paul J. Gasser on the web Gasser Lab Marquette University Google Scholar ResearchGate LinkedIn Twitter Dr. GPCR Enjoying the Dr. GPCR Podcast? Leave a Review. Leave a quick review to help more scientists find the show—and help us keep improving every episode. It takes <60 seconds and makes a big difference. ★ Review on Apple Podcasts ★ Rate on Spotify ✉️ Send feedback to the team Recent Podcast Articles Asking Better Questions in Science: A Practical Guide for Emerging Researchers When the Islet Lit Up: Advancing GPCR Imaging in Native Tissue How Collaboration Sparked a GPCR Imaging Breakthrough in Chemical Biology Thanks for listening to this podcast episode Follow us on your favorite Podcast Player << Previous Podcast Episode Next Podcast Episode >>

Explore the world of GPCRs with Dr. GPCR Podcast! Join industry leaders as they share insights, stories, and groundbreaking discoveries, enriching our understanding of GPCRs. Delve into the science behind these vital components shaping our collective knowledge. Welcome to the Dr. GPCR Podcast - The Voice of the Community Conversations with the world’s leading GPCR scientists. Exploring discoveries, careers, and ideas shaping human health. In each episode, we sit down with leading experts to explore their career journeys, groundbreaking discoveries, and the impact of their research on our shared understanding of GPCR biology. Launched at the height of the pandemic, the Dr. GPCR Podcast was created with three goals: Share discoveries – Highlight the latest advances in the GPCR field. Amplify voices – Provide scientists a platform to showcase their work. Inspire the future – Motivate the next generation to pursue GPCR research. At its core, Dr. GPCR’s mission is simple yet ambitious: to bring the GPCR community together - across borders and disciplines - to connect, exchange, and collaborate in order to improve human health through a deeper understanding of GPCR biology. Latest Podcast Episodes More podcast episodes Dr. GPCR Podcast Audience Survey We are currently planning our next season and need your help. This short survey will help us understand your needs to bring you exciting and informative content. We also know that you are busy, which is why we designed this short survey that should take you 5 minutes. Fill out this form Be our Guest In each episode, we chat with an expert about their career trajectory, discoveries, and how their research contributed to the shared pool of knowledge about GPCR biology. We’d love to have you on our podcast. To be a guest, fill out the form below, and we’ll be in touch in 48 hours. Fill out this form What others are saying about this podcast Really enjoyable science podcast! Dr. Yamina Berchiche interviews leading GPCR scientists on this vibrant, entertaining podcast. I really appreciate the way the podcast educates and mentors, particularly towards junior scientists but also to the community as a wholen Yamina is a great interviewer, getting insight and personal history from her guests. Am very grateful for Dr GPCR livening up the week in these difficult times! Sam @Pharmamechanic I enjoy the breadth of questioning that goes beyond just the science, and reveals a bit about the scientists as individuals/mentors/people. Anonymous Great initiative, thanks. Carrier paths, choosing research topics, switching fields, late start, failures and successes. Anonymous This came at just the most perfect time. I hadn't heard a scientific talk outside my lab since February and was starved to hear someone else talk passionately about GPCRs. I've listened to the episodes multiple times and it's just like being at a conference getting new ideas. I just couldn't be happier y'all created this podcast. Anonymous I think it's really well done. I'm genuinely interested to see how it evolves and grows over time, as I feel it has the potential to develop into something even more impactful. Anonymous Listen and subscribe where you get your podcasts

Unlock the ultimate Dr. GPCR University CheatSheet! Filter by topics and access exclusive content for premium members. Your guide to academic success awaits! Your Shortcut to GPCR Discovery Built for scientists, educators, and students who want to learn smarter. Filter talks, events, and courses by topic — and find the insight you need, faster. Strategic Partner(s) Filter by topic or event to instantly explore talks, courses, and sessions from across Dr. GPCR University. ✨ Premium members can unlock full access to recordings and exclusive materials. Filter by Topic Select Event

Meet the GPCR Retreat 2023 Organizers. Dr. Paul Albert Dr. Michel Bouvier Dr. Stéphane Laporte Dr. Martin Audet Dr. Stephen Ferguson Dr. Richard Leduc Dr. Yamina Berchiche Dr. Patrick Giguère Dr. Mario Tiberi Retreat 2023 About Program Registration Logo Contest Committee Sponsors GPCR Retreat Organizers Dr. Paul Albert Dr. Michel Bouvier Dr. Stéphane Laporte Dr. Martin Audet Dr. Stephen Ferguson Dr. Richard Leduc Dr. Yamina Berchiche Dr. Patrick Giguère Dr. Mario Tiberi Great Lakes GPCR Retreat and Club des Récepteurs à Sept Domaines Transmembranaires du Québec 22nd GPCR Retreat Sponsored by

Applying Pharmacology to Drug Discovery Dr. Terry Kenakin Get Started Premium Members benefits: - Subscribe and save 25% on every GPCR Course - Early-bird access - Recordings will be available < Back to GPCR courses Watch recording Your Instructor Dr. Terry Kenakin