Litcius/Paper detail

GIPR agonism and antagonism decrease body weight and food intake via different mechanisms in male mice

Robert M. Gutgesell, Ahmed Khalil, Arkadiusz Liśkiewicz, Gandhari Maity‐Kumar, Aaron Novikoff, Gerald Grandl, Daniela Liśkiewicz, Callum Coupland, Ezgi Karaoglu, Seun Akindehin, R.L. Castelino, Fabiola Curion, Xue Liu, Cristina García‐Cáceres, Alberto Cebrian-Serrano, Jonathan D. Douros, Patrick J. Knerr, Brian Finan, Richard D. DiMarchi, Kyle W. Sloop, Ricardo J. Samms, Fabian J. Theis, Matthias Tschoep, Timo D. Müller

2025Nature Metabolism33 citationsDOIOpen Access PDF

Abstract

Abstract Agonists and antagonists of the glucose-dependent insulinotropic polypeptide receptor (GIPR) enhance body weight loss induced by glucagon-like peptide-1 receptor (GLP-1R) agonism. However, while GIPR agonism decreases body weight and food intake in a GLP-1R-independent manner via GABAergic GIPR + neurons, it remains unclear whether GIPR antagonism affects energy metabolism via a similar mechanism. Here we show that the body weight and food intake effects of GIPR antagonism are eliminated in mice with global loss of either Gipr or Glp-1r but are preserved in mice with loss of Gipr in either GABAergic neurons of the central nervous system or peripherin-expressing neurons of the peripheral nervous system. Single-nucleus RNA-sequencing shows opposing effects of GIPR agonism and antagonism in the dorsal vagal complex, with antagonism, but not agonism, closely resembling GLP-1R signalling. Additionally, GIPR antagonism and GLP-1R agonism both regulate genes implicated in synaptic plasticity. Collectively, we show that GIPR agonism and antagonism decrease body weight via different mechanisms, with GIPR antagonism, unlike agonism, depending on functional GLP-1R signalling.

Topics & Concepts

AntagonismAgonismInternal medicineEndocrinologyBiologyGABAergicReceptorMedicinePolitical scienceLawPoliticsReceptor Mechanisms and SignalingRegulation of Appetite and ObesityDiabetes Treatment and Management