Divergent acute versus prolonged pharmacological GLP-1R responses in adult β cell-specific β-arrestin 2 knockout mice.
Sci Adv · 2023
Last updated 2026-07-14In mice genetically modified to lack a specific protein (β-arrestin 2) in their insulin-producing cells, the effects of GLP-1 drugs like exendin-4, semaglutide, and tirzepatide were weaker shortly after injection but improved after 6 hours. This change was more noticeable in female mice, and the drugs' ability to increase cAMP (a signaling molecule) was reduced, though the cells' desensitization to the drugs was also lessened.
AI summary of the abstract below.
| Journal | Sci Adv, 2023 |
|---|---|
| Citations | 29 |
| Relative citation ratio | 3.59 |
| NIH percentile | 87 |
| Molecules | — |
Abstract
The glucagon-like peptide-1 receptor (GLP-1R) is a major type 2 diabetes therapeutic target. Stimulated GLP-1Rs are rapidly desensitized by β-arrestins, scaffolding proteins that not only terminate G protein interactions but also act as independent signaling mediators. Here, we have assessed in vivo glycemic responses to the pharmacological GLP-1R agonist exendin-4 in adult β cell-specific β-arrestin 2 knockout (KO) mice. KOs displayed a sex-dimorphic phenotype consisting of weaker acute responses that improved 6 hours after agonist injection. Similar effects were observed for semaglutide and tirzepatide but not with biased agonist exendin-phe1. Acute cyclic adenosine 5'-monophosphate increases were impaired, but desensitization reduced in KO islets. The former defect was attributed to enhanced β-arrestin 1 and phosphodiesterase 4 activities, while reduced desensitization co-occurred with impaired GLP-1R recycling and lysosomal targeting, increased trans-Golgi network signaling, and reduced GLP-1R ubiquitination. This study has unveiled fundamental aspects of GLP-1R response regulation with direct application to the rational design of GLP-1R-targeting therapeutics.
Verbatim abstract via PubMed 37134170 ↗