Jude T. Deeney scite author profile

Accumulation of depolarized mitochondria within b-cells has been associated with oxidative damage and development of diabetes. To determine the source and fate of depolarized mitochondria, individual mitochondria were photolabeled and tracked through fusion and fission. Mitochondria were found to go through frequent cycles of fusion and fission in a 'kiss and run' pattern. Fission events often generated uneven daughter units: one daughter exhibited increased membrane potential (Dw m ) and a high probability of subsequent fusion, while the other had decreased membrane potential and a reduced probability for a fusion event. Together, this pattern generated a subpopulation of nonfusing mitochondria that were found to have reduced Dw m and decreased levels of the fusion protein OPA1. Inhibition of the fission machinery through DRP1 K38A or FIS1 RNAi decreased mitochondrial autophagy and resulted in the accumulation of oxidized mitochondrial proteins, reduced respiration and impaired insulin secretion. Pulse chase and arrest of autophagy at the pre-proteolysis stage reveal that before autophagy mitochondria lose Dw m and OPA1, and that overexpression of OPA1 decreases mitochondrial autophagy. Together, these findings suggest that fission followed by selective fusion segregates dysfunctional mitochondria and permits their removal by autophagy.

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Reactive Oxygen Species as a Signal in Glucose-Stimulated Insulin Secretion

Bai

Zhang

et al. 2007

502

436

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One of the unique features of ␤-cells is their relatively low expression of many antioxidant enzymes. This could render ␤-cells susceptible to oxidative damage but may also provide a system that is sensitive to reactive oxygen species as signals. In isolated mouse islets and INS-1(832/13) cells, glucose increases intracellular accumulation of H 2 O 2 . In both models, insulin secretion could be stimulated by provision of either exogenous H 2 O 2 or diethyl maleate, which raises intracellular H 2 O 2 levels. Provision of exogenous H 2 O 2 scavengers, including cell permeable catalase and N-acetyl-Lcysteine, inhibited glucose-stimulated H 2 O 2 accumulation and insulin secretion (GSIS). In contrast, cell permeable superoxide dismutase, which metabolizes superoxide into H 2 O 2 , had no effect on GSIS. Because oxidative stress is an important risk factor for ␤-cell dysfunction in diabetes, the relationship between glucose-induced H 2 O 2 generation and GSIS was investigated under various oxidative stress conditions. Acute exposure of isolated mouse islets or INS-1(832/ 13) cells to oxidative stressors, including arsenite, 4-hydroxynonenal, and methylglyoxal, led to decreased GSIS. This impaired GSIS was associated with increases in a battery of endogenous antioxidant enzymes. Taken together, these findings suggest that H 2 O 2 derived from glucose metabolism is one of the metabolic signals for insulin secretion, whereas oxidative stress may disturb its signaling function. Diabetes

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Dual role of proapoptotic BAD in insulin secretion and beta cell survival

Danial

Walensky

Zhang

et al. 2008

Nat Med

296

377

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Metformin Enhances Autophagy and Normalizes Mitochondrial Function to Alleviate Aging-Associated Inflammation

et al. 2020

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Jude T. Deeney

Fission and selective fusion govern mitochondrial segregation and elimination by autophagy

Reactive Oxygen Species as a Signal in Glucose-Stimulated Insulin Secretion

Dual role of proapoptotic BAD in insulin secretion and beta cell survival

Metformin Enhances Autophagy and Normalizes Mitochondrial Function to Alleviate Aging-Associated Inflammation

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