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The α-ketoglutarate-dependent dioxygenase, prolyl-4-hydroxylase 3 (PHD3), is an HIF target that uses molecular oxygen to hydroxylate peptidyl prolyl residues. Although PHD3 has been reported to influence cancer cell metabolism and liver insulin sensitivity, relatively little is known about the effects of this highly conserved enzyme in insulin-secreting β cells in vivo. Here, we show that the deletion of PHD3 specifically in β cells (βPHD3KO) was associated with impaired glucose homeostasis in mice fed a high-fat diet. In the early stages of dietary fat excess, βPHD3KO islets energetically rewired, leading to defects in the management of pyruvate fate and a shift from glycolysis to increased fatty acid oxidation (FAO). However, under more prolonged metabolic stress, this switch to preferential FAO in βPHD3KO islets was associated with impaired glucose-stimulated ATP/ADP rises, Ca2+ fluxes, and insulin secretion. Thus, PHD3 might be a pivotal component of the β cell glucose metabolism machinery in mice by suppressing the use of fatty acids as a primary fuel source during the early phases of metabolic stress.

Original publication

DOI

10.1172/jci.insight.140288

Type

Journal article

Journal

JCI Insight

Publication Date

23/08/2021

Volume

6

Keywords

Beta cells, Bioenergetics, Endocrinology, Insulin, Metabolism, Animals, Diet, High-Fat, Disease Models, Animal, Fatty Acids, Female, Glucose, Glycolysis, Humans, Insulin Resistance, Insulin Secretion, Insulin-Secreting Cells, Lipid Metabolism, Male, Mice, Mice, Knockout, Oxidation-Reduction, Procollagen-Proline Dioxygenase