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Mitochondria to plasma membrane redox signaling is essential for fatty acid β-oxidation-driven insulin secretion

Martin Jabůrek, Eduardo Klöppel, Pavla Průchová, Oleksandra Mozheitová, Jan Tauber, Hana Engstová, Petr Ježek

2024Redox Biology14 citationsDOIOpen Access PDF

Abstract

We asked whether acute redox signaling from mitochondria exists concomitantly to fatty acid- (FA-) stimulated insulin secretion (FASIS) at low glucose by pancreatic β-cells. We show that FA β-oxidation produces superoxide/H2O2, providing: i) mitochondria-to-plasma-membrane redox signaling, closing KATP-channels synergically with elevated ATP (substituting NADPH-oxidase-4-mediated H2O2-signaling upon glucose-stimulated insulin secretion); ii) activation of redox-sensitive phospholipase iPLA2γ/PNPLA8, cleaving mitochondrial FAs, enabling metabotropic GPR40 receptors to amplify insulin secretion (IS). At fasting glucose, palmitic acid stimulated IS in wt mice; palmitic, stearic, lauric, oleic, linoleic, and hexanoic acids also in perifused pancreatic islets (PIs), with suppressed 1st phases in iPLA2γ/PNPLA8-knockout mice/PIs. Extracellular/cytosolic H2O2-monitoring indicated knockout-independent redox signals, blocked by mitochondrial antioxidant SkQ1, etomoxir, CPT1 silencing, and catalase overexpression, all inhibiting FASIS, keeping ATP-sensitive K+-channels open, and diminishing cytosolic [Ca2+]-oscillations. FASIS in mice was a postprandially delayed physiological event. Redox signals of FA β-oxidation are thus documented, reaching the plasma membrane, essentially co-stimulating IS.

Topics & Concepts

Free fatty acid receptor 1MitochondrionChemistryCell biologyBiochemistryBiologyInternal medicineEndocrinologyReceptorMedicineAgonistPancreatic function and diabetesAdipose Tissue and MetabolismDiet, Metabolism, and Disease
Mitochondria to plasma membrane redox signaling is essential for fatty acid β-oxidation-driven insulin secretion | Litcius