Central regulation of feeding and body weight by ciliary GPR75
Yiao Jiang, … , Yu Xun, Zhao Zhang
Yiao Jiang, … , Yu Xun, Zhao Zhang
Published August 13, 2024
Citation Information: J Clin Invest. 2024;134(19):e182121. https://doi.org/10.1172/JCI182121.
View: Text | PDF
Research Article Cell biology Metabolism

Central regulation of feeding and body weight by ciliary GPR75

Abstract

Variants of the G protein–coupled receptor 75 (GPR75) are associated with a lower BMI in large-scale human exome-sequencing studies. However, how GPR75 regulates body weight remains poorly understood. Using random germline mutagenesis in mice, we identified a missense allele (Thinner) of Gpr75 that resulted in a lean phenotype and verified the decreased body weight and fat weight in Gpr75-knockout (Gpr75–/–) mice. Gpr75–/– mice displayed reduced food intake under high-fat diet (HFD) feeding, and pair-feeding normalized their body weight. The endogenous GPR75 protein was exclusively expressed in the brains of 3xFlag-tagged Gpr75-knockin (3xFlag-Gpr75) mice, with consistent expression across different brain regions. GPR75 interacted with Gαq to activate various signaling pathways after HFD feeding. Additionally, GPR75 was localized in the primary cilia of hypothalamic cells, whereas the Thinner mutation (L144P) and human GPR75 variants in individuals with a lower BMI failed to localize in the cilia. Loss of GPR75 selectively inhibited weight gain in HFD-fed mice but failed to suppress the development of obesity in leptin ob–mutant (Lepob-mutant) mice and adenylate cyclase 3–mutant (Adcy3-mutant) mice on a chow diet. Our data reveal that GPR75 is a ciliary protein expressed in the brain and plays an important role in regulating food intake.

Authors

Yiao Jiang, Yu Xun, Zhao Zhang

×

Figure 7

Exploring ligands of GPR75.

Options: View larger image (or click on image) Download as PowerPoint
Exploring ligands of GPR75. (A) MRE/CRE/SRE luciferase assay. 293T cells...
(A) MRE/CRE/SRE luciferase assay. 293T cells expressing human GPR75 and pGL3-MRE/CRE/SRE-luciferase plasmids were treated with different concentrations of CCL5 and 20-HETE. (B) PRESTO-Tango β-arrestin recruitment assay in HTLA cells overexpressing GPR75-Tango constructs treated with different concentrations of CCL5 and 20-HETE. (C) MRE/CRE/SRE luciferase assay. 293T cells expressing human GPR75 and pGL3-MRE/CRE/SRE-luciferase plasmids were treated with different concentrations of 5,14-HEDE. (D) PRESTO-Tango β-arrestin recruitment assay in HTLA cells overexpressing GPR75-Tango constructs treated with different concentrations of 5,14-HEDE. (E) cAMP assay. 293T cells expressing human GPR75 were treated with different concentrations of 5,14-HEDE and forskolin. (F) IP1 assay. HTLA cells expressing human GPR75 were treated with different concentrations of 5,14-HEDE. Data are presented as the mean ± SD. P values were determined by 1-way ANOVA with Holm-Šidák’s multiple-comparison test (AF). *P ≤ 0.05 and **P ≤ 0.01; NS, P > 0.05. Data points represent individual wells (AF), and data are representative of 3 independent experiments.