Independent mechanisms underlie the protective effect of dietary polyunsaturated fatty acid supplementation and Gαzdeficiency on the early type 1 diabetes phenotype of Non-obese diabetic (NOD) mice
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Abstract
Non-obese diabetic (NOD) mice deficient in G z alpha subunit (Gα z ) are protected from developing hyperglycemia, even with early islet insulitis similar to wild-type mice. Similarly, wild-type (WT) NOD mice are protected from glucose intolerance when fed a diet enriched in eicosapentaneoic acid (EPA). In the beta-cell, Prostaglandin EP3 receptor (EP3), whose primary endogenous ligand is the arachidonic acid (AA) metabolite, prostaglandin E 2 , is specifically coupled to Gα z . In this work, we tested whether dietary EPA supplementation, thereby reducing systemic PGE 2 levels, would complement Gα z loss in the NOD mouse model. WT and Gα z -null NOD mice were fed an AA-enriched diet, EPA-enriched diet, or control diet upon weaning. After 12 weeks of diet feeding, glucose tolerance tests were performed and pancreatic islets and whole pancreas collected for ex vivo analyses, with the longer-term effect of an EPA-enriched diet on splenic T-cell populations quantified via flow cytometry. Our results reveal a polyunsaturated fatty acid-enriched diet, whether AA or EPA, improves wild-type NOD glucose tolerance by the same magnitude as Gα z loss, but through almost completely different physiological and cellular mechanisms. Our results shed critical light on future research into novel pharmacological and dietary adjuvant therapies for T1D.
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