Nrf2 activation protects mouse beta cells from glucolipotoxicity by restoring mitochondrial function and physiological redox balance.

Schultheis J, Beckmann D, Mulac D, Müller L, Esselen M, Düfer M

Research article (journal) | Peer reviewed

Abstract

Influencing the redox balance of pancreatic beta cells could be a promising strategy for the treatment of diabetes. Nuclear factor erythroid 2p45-related factor 2 (Nrf2) is present in beta cells and regulates numerous genes involved in antioxidant defense. As reactive oxygen species (ROS) are important for beta cell signaling but induce oxidative stress when present in excess, this study elucidates the influence of Nrf2-activating compounds on different kinds of ROS and correlates changes in redox balance to effects on mitochondrial function, insulin release, and cell viability. Acute glucose stimulation (15 mmol/L) of murine islet cells of C57Bl/6N mice affects ROS and redox status of the cells differently. Those ROS monitored by dihydroethidium, which detects superoxide radical anions, decrease. By contrast, oxidant status, monitored by dichlorodihydrofluorescein, as well as intracellular H2O2, increases. Glucolipotoxicity completely prevents these fast, glucose-mediated alterations and inhibits glucose-induced NAD(P)H production, mitochondrial hyperpolarization, and ATP synthesis. Oltipraz (10μmol/L) or dimethyl fumarate (DMF, 50μmol/L) leads to nuclear accumulation of Nrf2, restores mitochondrial activity and glucose-dependent ROS turnover, and antagonizes glucolipotoxicity-induced inhibition of insulin release and apoptosis. Importantly, these beneficial effects only occur when beta cells are challenged and damaged by high lipid and carbohydrate supply. At physiological conditions, insulin release is markedly reduced in response to both Nrf2 activators. This is not associated with severe impairment of glucose-induced mitochondrial hyperpolarization or a rise in apoptosis but coincides with altered ROS handling. In conclusion, Nrf2 activators protect beta cells against glucolipotoxicity by preserving mitochondrial function and redox balance. As our data show that this maintains glucose-stimulated insulin secretion, targeting Nrf2 might be suited to ameliorate progression of type 2 diabetes mellitus. By contrast, nonstressed beta cells do not benefit from Nrf2 activation, thus underlining the importance of physiological shifts in ROS homeostasis for the regulation of beta cell function.

Details about the publication

JournalOxidative medicine and cellular longevity (Oxid Med Cell Longev)
Volume2019
StatusPublished
Release year2019
Language in which the publication is writtenEnglish
DOI10.1155/2019/7518510

Authors from the University of Münster

Beckmann, Dirk
Professur für Pharmakologie und Toxikologie (Prof. Düfer)
Düfer, Martina
Professur für Pharmakologie und Toxikologie (Prof. Düfer)
Esselen, Melanie
Professorship for food chemistry (Prof. Esselen)
Mulac, Dennis
Professorship of Pharmaceutical Technology and Biopharmacy (Prof. Langer)
Müller, Lena
Professorship for food chemistry (Prof. Esselen)
Schultheis, Johanna
Professur für Pharmakologie und Toxikologie (Prof. Düfer)