Oligopeptides stimulate glucagon-like peptide-1 secretion in mice through proton-coupled uptake and the calcium-sensing receptor
- ,
- Ramona Pais,
- Gwen Tolhurst,
- Helen E. Parker,
- James Horscroft,
- Beate Rauscher
- Cambridge University Hospitals NHS Foundation Trust,
- Technical University of Munich
Open access
Sustainable Development Goals
- SDG 3 Good Health and Well
Abstract
Aims/hypothesis: Ingested protein is a well-recognised stimulus for glucagon-like peptide-1 (GLP-1) release from intestinal L cells. This study aimed to characterise the molecular mechanisms employed by L cells to detect oligopeptides. Methods: GLP-1 secretion from murine primary colonic cultures and Ca2+ dynamics in L cells were monitored in response to peptones and dipeptides. L cells were identified and purified based on their cell-specific expression of the fluorescent protein Venus, using GLU-Venus transgenic mice. Pharmacological tools and knockout mice were used to characterise candidate sensory pathways identified by expression analysis. Results: GLP-1 secretion was triggered by peptones and di-/tripeptides, including the non-metabolisable glycine-sarcosine (Gly-Sar). Two sensory mechanisms involving peptide transporter-1 (PEPT1) and the calcium-sensing receptor (CaSR) were distinguishable. Responses to Gly-Sar (10 mmol/l) were abolished in the absence of extracellular Ca2+ or by the L-type calcium-channel blocker nifedipine (10 μmol/l) and were PEPT1-dependent, as demonstrated by their sensitivity to pH and 4-aminomethylbenzoic acid and the finding of impaired responses in tissue from Pept1 (also known as Slc15a1) knockout mice. Peptone (5 mg/ml)-stimulated Ca2+ responses were insensitive to nifedipine but were blocked by antagonists of CaSR. Peptone-stimulated GLP-1 secretion was not impaired in mice lacking the putative peptide-responsive receptor lysophosphatidic acid receptor 5 (LPAR5; also known as GPR92/93). Conclusions/interpretation: Oligopeptides stimulate GLP-1 secretion through PEPT1-dependent electrogenic uptake and activation of CaSR. Both pathways are highly expressed in native L cells, and likely contribute to the ability of ingested protein to elevate plasma GLP-1 levels. Targeting nutrient-sensing pathways in L cells could be used to mobilise endogenous GLP-1 stores in humans, and could mimic some of the metabolic benefits of bariatric surgery.
Publication Information
Output type
Original language
EnglishPages from-to (Number of pages)
Pages 2688-2696 (9 pages)Journal (Volume, Issue Number)
Diabetologia (Volume 56, Issue 12)Publication milestones
- Published - 18/12/2013
Publication status
ISSN
0012-186XExternal Publication IDs
- Scopus: 84888000680
- PubMed: 24045836
