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Peer-reviewed veterinary case report

Blocking GLP-1 receptor lowers insulin after high sugar meal in ponies

By de Laat, Melody A et al.·Published in Journal of animal science·2023·Faculty of Science, Australia·View original on PubMed

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Original publication title: A glucagon-like peptide-1 receptor antagonist reduces the insulin response to a glycemic meal in ponies.

Species:
horse
Laminitis in horsesStomach & digestionHorses

Plain-English summary

Five adult ponies with insulin dysregulation were tested to see if blocking a specific hormone (GLP-1) could lower their insulin response after eating a high-starch meal. The ponies were given a meal of micronized maize, and one group received a treatment to block GLP-1 while the other received a placebo. The results showed that while the meal did not change the blood sugar levels, the ponies that received the GLP-1 blocker had a significantly lower insulin response. This suggests that blocking GLP-1 can help manage insulin levels in ponies prone to laminitis due to high insulin.

People also search for: pony insulin resistance treatment · laminitis prevention in ponies · high starch diet effects on ponies

Abstract

High plasma concentrations of insulin can cause acute laminitis. Ponies and horses with insulin dysregulation (ID) exhibit marked hyperinsulinemia in response to dietary hydrolyzable carbohydrates. Glucagon-like peptide-1 (GLP-1), an incretin hormone released from the gastrointestinal tract, enhances insulin release, and is increased postprandially in ponies with ID. The aim of this study was to determine whether blocking the GLP-1 receptor reduces the insulin response to a high glycemic meal. Five adult ponies were adapted to a cereal meal and then given two feed challenges 24 h apart of a meal containing 3 g/kg BW micronized maize. Using a randomized cross-over design all ponies received both treatments, where one of the feeds was preceded by the IV administration of a GLP-1 receptor blocking peptide, Exendin-3 (9-39) amide (80 µg/kg), and the other feed by a sham treatment of peptide diluent only. Blood samples were taken before feeding and peptide administration, and then at 30-min intervals via a jugular catheter for 6 h for the measurement of insulin, glucose, and active GLP-1. The peptide and meal challenge caused no adverse effects, and the change in plasma glucose in response to the meal was not affected (P = 0.36) by treatment: peak concentration 9.24 ± 1.22 and 9.14 ± 1.08 mmol/L without and with the antagonist, respectively. Similarly, there was no effect (P = 0.35) on plasma active GLP-1 concentrations: peak concentration 14.3 ± 1.36 pM and 13.7 ± 1.97 pM without and with the antagonist, respectively. However, the antagonist caused a significant decrease in the area under the curve for insulin (P = 0.04), and weak evidence (P = 0.06) of a reduction in peak insulin concentration (456 ± 147 μIU/mL and 370 ± 146 μIU/mL without and with the antagonist, respectively). The lower overall insulin response to the maize meal after treatment with the antagonist demonstrates that blocking the GLP-1 receptor partially reduced insulin production in response to a high starch, high glycemic index, diet. Using a different methodological approach to published studies, this study also confirmed that GLP-1 does contribute to the excessive insulin production in ponies with ID.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/38066683/