Abstract 4140511: Synergistic insulinotropic and lipolytic actions of GLP-1 and a novel miniaturized designer GC-A peptide activator in Beta cells and adipocytes: Potential therapeutic insights for cardiometabolic disease

Abstract 4140511: Synergistic insulinotropic and lipolytic actions of GLP-1 and a novel miniaturized designer GC-A peptide activator in Beta cells and adipocytes: Potential therapeutic insights for cardiometabolic disease

Abstract only BACKGROUND: Atrial natriuretic peptide (ANP) and glucagon-like peptide-1 (GLP-1) are endogenous hormones known for roles in cardiovascular regulation and metabolic homeostasis. ANP mediates its actions via the GC-A receptor, while GLP-1 via the GLP-1 receptor (GLP-1R). Both peptides ma...

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Bibliographic Details
Published in:Circulation (New York, N.Y.) Vol. 150; no. Suppl_1
Main Authors: Zheng, Ye, Pan, Shuchong, Moroni, Dante, Chen, Horng, Sangaralingham, Jeson, Burnett, John
Format: Journal Article
Language:English
Published: 12-11-2024
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Summary:Abstract only BACKGROUND: Atrial natriuretic peptide (ANP) and glucagon-like peptide-1 (GLP-1) are endogenous hormones known for roles in cardiovascular regulation and metabolic homeostasis. ANP mediates its actions via the GC-A receptor, while GLP-1 via the GLP-1 receptor (GLP-1R). Both peptides may stimulate insulin secretion from pancreatic beta cells and augment lipid metabolism in adipocytes, yet potential synergistic effects remain unexplored. To optimize ANP activation of GC-A, we developed a novel 15 amino acid miniaturized GC-A activating peptide CRRL555. CRRL555 possesses greater GC-A binding and activating properties than ANP. AIMS: We investigated the metabolic properties of CRRL555/GC-A and its interaction with GLP-1/GLP-1R in vitro. METHODS: Rat pancreatic beta cells (INS-1) were stimulated with high glucose (20mM) and treated with GLP-1 or CRRL555 (10 -10 -10 -6 M) and together for 1 hr. Supernatant was collected and insulin was measured by ELISA. Human visceral adipocytes were differentiated for 10 days and then treated with GLP-1 or CRRL555 (10 -10 -10 -6 M) or together for 6 hrs. Supernatant was collected and glycerol and free fatty acid (NEFA), indicators of lipolysis, were measured. RESULTS: CRRL555 (p<0.05) and GLP-1 (p<0.05), dose dependently, stimulated insulin secretion in INS-1 cells in the presence of high glucose. Importantly, CRRL555 combined with GLP-1, resulted in a greater enhancement (p<0.05) of insulin secretion compared to either peptide alone. While high dose CRRL555 and GLP-1 (10 -6 M) stimulated lipolysis in visceral adipocytes with increases in glycerol and NEFA, only CRRL555 at low dose (10 -10 M), and not low dose GLP-1 (10 -10 M), stimulated glycerol and NEFA production (p<0.05). When low dose GLP-1 (10 -10 M) was added to low dose CRRL555(10 -10 M), lipolysis was like CRRL555 alone. CONCLUSION: We report a novel synergy in insulin release from beta cells with combined stimulation of the potent and miniaturized GC-A designer peptide CRRL555 with GLP-1. CRRL555 possesses greater lipolytic properties compared to GLP-1 in visceral adipocytes at low doses advancing novel metabolic actions of CRRL555 alone or combined with GLP-1R activation. These in vitro studies of dual receptor activation of GC-A and GLP-1R highlight the therapeutic potential of combining CRRL555 with GLP-1-based therapies for the treatment of cardiometabolic diseases, thus supporting studies of dual GC-A/GLP-1R activation in experimental cardiometabolic disease states.
ISSN:0009-7322
1524-4539
DOI:10.1161/circ.150.suppl_1.4140511