Session VIII

The CELSR/ADGRC Homolog Flamingo Is Not Autoproteolytically Processed By The GAIN Domain

Tobias Langenhan

Abstract

Only available for AGPCR 24 Attendees

Authors & Affiliations

"Yin Kwan Chung, Leipzig University

Falko Nagel, 7TM Antibodies GmbH

Stefan Schulz, Friedrich-Schiller-University Jena and 7TM Antibodies GmbH"

About Tobias Langenhan

"1997-2004: Medical school and Dr. med. Neuroanatomy (Würzburg, Germany); 2004-2005: M.Sc. Neuroscience (Oxford, UK); 2005-2009: D.Phil. Neuroscience (Oxford, UK); 2009-2016: Group leader, Institute of Neurophysiology (Würzburg, Germany); 2016: Heisenberg professorship (Würzburg, Germany); 2016-to date: Professor and Chair in Biochemistry (Leipzig, Germany)"

Tobias Langenhan on the web

• Langenhan Lab 

• X (Twitter) 

• LinkedIn

Adhesion GPCR GPR116/Adgrf5 controls a lineage of anti-thermogenic adipocytes with implications for adaptive thermogenesis during prolonged cold exposure

Anastasia Georgiadi

Abstract

Only available for AGPCR 24 Attendees

Authors & Affiliations

"El Merabhi Rabih1*, Karagiannakou Vasiliki1*, Kardinal Ronja2, Jäckstein Michelle3 Yvonne, Kumar Jha Ankush1, Krokidi Sissy Thodou1, Wachten Dagmar2, Heeren Jörg3, Herzig Stephan1, Georgiadi Anastasia1

*equal contributions ,

Institutions : 1. Institute for Diabetes and Cancer, Helmholtz Centre Munich, Germany, 2. Institute of Innate Immunity, University Hospital Bonn, University of Bonn, 3. Centre for Experimental Medicine, Institute for Biocehmistry and Molecular Cell Biology, University Medical Center Hamburg-Eppendorf"

About Anastasia Georgiadi

"Head of Junior Group Endocrine Pharmacology, Institute of Diabetes and Cancer (IDC).

Professional Background

Since 2021

Group Leader, Institute for Diabetes and Cancer, Helmholtz Diabetes Centre, Munich

2018 - 2021

Project Team Leader, Institute for Diabetes and Cancer, Helmholtz Diabetes Centre, Munich

2015 - 2018

Postdoctoral fellow, Department of Adipose Tissue Biology, Institute for Diabetes and Cancer, Helmholtz Diabetes Centre, Munich

2012 - 2015

Postdoctoral fellow, Department of Cell and Molecular Biology, Karolinska Institute, Sweden"

Anastasia Georgiadi on the web

• Endocrine Pharmacology

• Google Scholar 

ADGRF5-mediated regulation of cardiac health and disease

Douglas Tilley

Abstract

Only available for AGPCR 24 Attendees

About Douglas Tilley

"Research in the Tilley laboratory focuses primarily upon aspects of GPCR regulation of cardiac function, inflammation and remodeling during HF or following acute cardiac injury. Much of this work centered on elucidating novel mechanisms by which β-adrenergic receptors impact cardiac structure and function, and has evolved to encompass their roles in regulating immune cell response to acute cardiac injury or chronic stress. Additionally, the lab has begun to investigate potential roles for previously unrecognized cardiac-expressed GPCRs in the regulation of physiologic/pathologic function in the heart in an effort to uncover novel therapeutic directions for HF, including adhesion GPCRs (AGPCRs). In all, research in the Tilley lab spans molecular pharmacology to pathophysiology studies focused primarily in the cardiovascular realm."

Douglas Tilley on the web

• Lewis Katz School of Medicine at Temple University

Characterization of Phenotypes Associated with GPR110 Deletion

Hee-Yong Kim

Abstract

"G-protein coupled receptor 110 (ADGRF1, GPR110), an adhesion GPCR recently deorphanized, plays an important role in in the development of neurons and cognitive function. Synaptamide, an endogenous ligand for GPR110, binds to the N-terminal G-protein autoproteolysis-inducing (GAIN) domain of GPR110, and activates GPR110/cAMP signaling. This activation promotes neurogenic differentiation of neural stem cells, neurite growth, and synaptogenesis of developing neurons. In addition, a significant role of GPR110 in blood brain barrier (BBB) function has been discovered. GPR110 is highly expressed in mouse and human NPCs and neurons, while its expression was absent in astrocytes. GPR110 is also highly expressed in the kidney, however, little is known about the function of this receptor in renal physiology. To extend our understanding of the role of GPR110 signaling in kidney, we evaluated the urine albumin level in mice devoid of GPR110 gene (GPR110 KO) compared to the wild type (WT). To provide the molecular basis for the renal phenotype, we analyzed in parallel differential expression of kidney proteins in GPR110 KO and WT mice by label-free LC-MS/MS and pathway analysis. We found that the albumin to creatinine ratio was significantly elevated in urine samples obtained from GPR110 KO mice, indicating glomerular filtration dysfunction. The change in protein expression of key proteins including VEGFA is associated with the abnormal renal phenotype of albumin urea in GPR110 KO mice. In addition to the central nervous system phenotype such as learning and memory deficit and BBB dysfunction, our study revealed a new renal phenotype associated with lack of GPR110 signaling. "

Authors & Affiliations

"Laboratory of Molecular Signaling, National Institute on Alcohol Abuse and Alcoholism, National Institutes of Health, USA"

About Hee-Yong Kim

"Senior Investigator and Chief of the Laboratory of Molecular Signaling at NIAAA, NIH"

Hee-Yong Kim on the web

• NIH

The Adhesion GPCR Cupidon Regulates Mating In The Closest Relatives Of Animals

Alain Garcia De Las Bayonas

Abstract

"All animals develop through the recognition, adhesion, and fusion of a differentiated sperm and egg. Although fundamental, the evolution of gametogenesis and fertilization in animals is poorly understood. Recently, evidence for sex has been described in choanoflagellates, the closest living relatives of animals. Under nutrient depletion, the model choanoflagellate Salpingoeca rosetta forms distinct cell types that aggregate, fuse, and undergo meiotic recombination. Additionally, the bacterium Vibrio fischeri also induces mating in S. rosetta cultures, suggesting that multiple environmental cues can trigger sex. Importantly, the signaling pathways underlying sexual reproduction in these different contexts have not been investigated.

In this study, we report the discovery of an adhesion GPCR, named Cupidon, that regulates the switch from vegetative growth to sexual reproduction in S. rosetta. We found that the knock-out of cupidon induces a gain in cell adhesion and cell fusion, resembling the mating behavior of wild-type cells under nutrient depletion. Cupidon mutants, similar to starved wild-type cells, upregulate various extracellular matrix-related genes, including teneurins and metalloproteases. Finally, we showed that nutrient availability controls the dissociation of the N-terminal fragment in Cupidon.

Together, our results suggest that Cupidon prevents sexual reproduction in S. rosetta under high nutrient availability, by inhibiting genes involved in gamete recognition. "

Authors & Affiliations

"King Nicole, Howard Hughes Medical Institute and Department of Molecular and Cell Biology, University of California Berkeley"

About Alain Garcia De Las Bayonas

"Hi everyone! I am currently finishing my postoc in the laboratory of Pr Nicole King at UC Berkeley where I am studying the evolution of GPCR families in choanoflagellates, the sister group of animals. I have a particular interest in understanding the premetazoan function of adhesion GPCRs."

Alain Garcia De Las Bayonas on the web

• King Lab

Critical role for CD97/ADGRE5 in the induction of allergic airway inflammation

Gabriela Aust

Abstract

Only available for AGPCR 24 Attendees

Authors & Affiliations

Coming Soon

About Gabriela Aust

Coming Soon

Gabriela Aust on the web

Coming Soon