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Glucose-Stimulated Insulin Secretion Fundamentally Requires H(2)O(2)Signaling by NADPH Oxidase 4
- 1.0531109 - FGÚ 2021 RIV US eng J - Journal Article
Plecitá-Hlavatá, Lydie - Jabůrek, Martin - Holendová, Blanka - Tauber, Jan - Pavluch, Vojtěch - Berková, Z. - Cahová, M. - Schröder, K. - Brandes, R. P. - Siemen, D. - Ježek, Petr
Glucose-Stimulated Insulin Secretion Fundamentally Requires H(2)O(2)Signaling by NADPH Oxidase 4.
Diabetes. Roč. 69, č. 7 (2020), s. 1341-1354. ISSN 0012-1797. E-ISSN 1939-327X
R&D Projects: GA ČR(CZ) GA20-00408S; GA ČR(CZ) GA16-06700S; GA ČR(CZ) GA17-01813S
Institutional support: RVO:67985823
Keywords : glucose-stimulated insulin secretion * NADPH oxidase NOX4 * ATP-sensitive potassium channel * cytosolic H2O2 redox signaling * beta-cell-specific NOX4 knockout mice * 2-oxo-isocaproate
OECD category: Endocrinology and metabolism (including diabetes, hormones)
Impact factor: 9.461, year: 2020
Method of publishing: Open access
https://doi.org/10.2337/db19-1130
NADPH facilitates glucose-stimulated insulin secretion (GSIS) in pancreatic islets (PIs) of beta-cells through an as yet unknown mechanism. We found NADPH oxidase isoform 4 (NOX4) to be the main producer of cytosolic H2O2, which is essential for GSIS, an increase in ATP alone was insufficient for GSIS. The fast GSIS phase was absent from PIs from NOX4-null, beta-cell-specific knockout mice (NOX4 beta KO) (though not from NOX2 knockout mice) and from NOX4-silenced or catalase-overexpressing INS-1E cells. Lentiviral NOX4 overexpression or H(2)O(2)rescued GSIS in PIs from NOX4 beta KO mice. NOX4 silencing suppressed Ca(2+)oscillations, and the patch-clamped K(ATP)channel opened more frequently when glucose was high. Mitochondrial H2O2, decreasing upon GSIS, provided alternative redox signaling when 2-oxo-isocaproate or fatty acid oxidation formed superoxides through electron-transfer flavoprotein:Q-oxidoreductase. Unlike GSIS, such insulin secretion was blocked with mitochondrial antioxidant SkQ1. Both NOX4 knockout and NOX4 beta KO mice exhibited impaired glucose tolerance and peripheral insulin resistance. Thus, the redox signaling previously suggested to cause beta-cells to self-check hypothetically induces insulin resistance when it is absent. In conclusion, increases in ATP and H(2)O(2)constitute an essential signal that switches on insulin exocytosis for glucose and branched-chain oxoacids as secretagogues (it does so partially for fatty acids). Redox signaling could be impaired by cytosolic antioxidants, hence, those targeting mitochondria should be preferred for clinical applications to treat (pre)diabetes at any stage.
Permanent Link: http://hdl.handle.net/11104/0309847
Number of the records: 1