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.

• Klíčová slova
• Fatty acid-stimulated insulin secretion, GPR40, Mitochondrial fatty acids, Pancreatic β-cells, Redox signaling, Redox-activated phospholipase iPLA2γ,
• MeSH
• beta-buňky * metabolismus   MeSH
• buněčná membrána * metabolismus   MeSH
• fosfolipasy A2, skupina VI metabolismus   genetika   MeSH
• glukosa metabolismus   MeSH
• inzulin metabolismus   MeSH
• mastné kyseliny * metabolismus   MeSH
• mitochondrie * metabolismus   MeSH
• myši knockoutované MeSH
• myši MeSH
• oxidace-redukce * MeSH
• peroxid vodíku metabolismus   MeSH
• receptory spřažené s G-proteiny MeSH
• sekrece inzulinu * MeSH
• signální transdukce * MeSH
• zvířata MeSH
• Check Tag
• myši MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• Názvy látek
• Ffar1 protein, mouse MeSH Prohlížeč
• fosfolipasy A2, skupina VI MeSH
• glukosa MeSH
• inzulin MeSH
• mastné kyseliny * MeSH
• peroxid vodíku MeSH
• Pla2g6 protein, mouse MeSH Prohlížeč
• receptory spřažené s G-proteiny MeSH

Redox signaling from mitochondria (mt) to the cytosol and plasma membrane (PM) has been scarcely reported, such as in the case of hypoxic cell adaptation or (2-oxo-) 2-keto-isocaproate (KIC) β-like-oxidation stimulating insulin secretion in pancreatic β-cells. Mutual redox state influence between mitochondrial major compartments, the matrix and the intracristal space, and the cytosol is therefore derived theoretically in this article to predict possible conditions, when mt-to-cytosol and mt-to-PM signals may occur, as well as conditions in which the cytosolic redox signaling is not overwhelmed by the mitochondrial antioxidant capacity. Possible peroxiredoxin 3 participation in mt-to-cytosol redox signaling is discussed, as well as another specific case, whereby mitochondrial superoxide release is diminished, whereas the matrix MnSOD is activated. As a result, the enhanced conversion to H2O2 allows H2O2 diffusion into the cytosol, where it could be a predominant component of the H2O2 release. In both of these ways, mt-to-cytosol and mt-to-PM signals may be realized. Finally, the use of redox-sensitive probes is discussed, which disturb redox equilibria, and hence add a surplus redox-buffering to the compartment, where they are localized. Specifically, when attempts to quantify net H2O2 fluxes are to be made, this should be taken into account.

• Klíčová slova
• H2O2 release into intracristal space, MnSOD, cytosolic H2O2 release, matrix H2O2 release, peroxiredoxins, redox buffers, redox signaling from mitochondria, redox-sensitive probes,
• Publikační typ
• časopisecké články MeSH
• přehledy MeSH