Mitophagy protects beta cells from inflammatory damage in diabetes

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Standard

Mitophagy protects beta cells from inflammatory damage in diabetes. / Sidarala, Vaibhav; Pearson, Gemma L.; Parekh, Vishal S.; Thompson, Benjamin; Christen, Lisa; Gingerich, Morgan A.; Zhu, Jie; Stromer, Tracy; Ren, Jianhua; Reck, Emma C.; Chai, Biaoxin; Corbett, John A.; Mandrup-Poulsen, Thomas; Satin, Leslie S.; Soleimanpour, Scott A.

I: JCI insight, Bind 5, Nr. 24, 141138, 2020.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Sidarala, V, Pearson, GL, Parekh, VS, Thompson, B, Christen, L, Gingerich, MA, Zhu, J, Stromer, T, Ren, J, Reck, EC, Chai, B, Corbett, JA, Mandrup-Poulsen, T, Satin, LS & Soleimanpour, SA 2020, 'Mitophagy protects beta cells from inflammatory damage in diabetes', JCI insight, bind 5, nr. 24, 141138. https://doi.org/10.1172/jci.insight.141138

APA

Sidarala, V., Pearson, G. L., Parekh, V. S., Thompson, B., Christen, L., Gingerich, M. A., Zhu, J., Stromer, T., Ren, J., Reck, E. C., Chai, B., Corbett, J. A., Mandrup-Poulsen, T., Satin, L. S., & Soleimanpour, S. A. (2020). Mitophagy protects beta cells from inflammatory damage in diabetes. JCI insight, 5(24), [141138]. https://doi.org/10.1172/jci.insight.141138

Vancouver

Sidarala V, Pearson GL, Parekh VS, Thompson B, Christen L, Gingerich MA o.a. Mitophagy protects beta cells from inflammatory damage in diabetes. JCI insight. 2020;5(24). 141138. https://doi.org/10.1172/jci.insight.141138

Author

Sidarala, Vaibhav ; Pearson, Gemma L. ; Parekh, Vishal S. ; Thompson, Benjamin ; Christen, Lisa ; Gingerich, Morgan A. ; Zhu, Jie ; Stromer, Tracy ; Ren, Jianhua ; Reck, Emma C. ; Chai, Biaoxin ; Corbett, John A. ; Mandrup-Poulsen, Thomas ; Satin, Leslie S. ; Soleimanpour, Scott A. / Mitophagy protects beta cells from inflammatory damage in diabetes. I: JCI insight. 2020 ; Bind 5, Nr. 24.

Bibtex

@article{2ca2153d4db145728c17fd5c734db151,
title = "Mitophagy protects beta cells from inflammatory damage in diabetes",
abstract = "Inflammatory damage contributes to beta cell failure in type 1 and 2 diabetes (T1D and T2D, respectively). Mitochondria are damaged by inflammatory signaling in beta cells, resulting in impaired bioenergetics and initiation of proapoptotic machinery. Hence, the identification of protective responses to inflammation could lead to new therapeutic targets. Here, we report that mitophagy serves as a protective response to inflammatory stress in both human and rodent beta cells. Utilizing in vivo mitophagy reporters, we observed that diabetogenic proinflammatory cytokines induced mitophagy in response to nitrosative/oxidative mitochondrial damage. Mitophagy-deficient II cells were sensitized to inflammatory stress, leading to the accumulation of fragmented dysfunctional mitochondria, increased beta cell death, and hyperglycemia. Overexpression of CLEC16A, a T1D gene and mitophagy regulator whose expression in islets is protective against T1D, ameliorated cytokine-induced human beta cell apoptosis. Thus, mitophagy promotes ti cell survival and prevents diabetes by countering inflammatory injury. Targeting this pathway has the potential to prevent beta cell failure in diabetes and may be beneficial in other inflammatory conditions.",
keywords = "NITRIC-OXIDE, MITOCHONDRIAL, CLEC16A, TYPE-1, AUTOPHAGY, MECHANISMS, ISLETS, TRANSCRIPTION, ELIMINATION, MORPHOLOGY",
author = "Vaibhav Sidarala and Pearson, {Gemma L.} and Parekh, {Vishal S.} and Benjamin Thompson and Lisa Christen and Gingerich, {Morgan A.} and Jie Zhu and Tracy Stromer and Jianhua Ren and Reck, {Emma C.} and Biaoxin Chai and Corbett, {John A.} and Thomas Mandrup-Poulsen and Satin, {Leslie S.} and Soleimanpour, {Scott A.}",
year = "2020",
doi = "10.1172/jci.insight.141138",
language = "English",
volume = "5",
journal = "JCI Insight",
issn = "2379-3708",
publisher = "American Society for Clinical Investigation",
number = "24",

}

RIS

TY - JOUR

T1 - Mitophagy protects beta cells from inflammatory damage in diabetes

AU - Sidarala, Vaibhav

AU - Pearson, Gemma L.

AU - Parekh, Vishal S.

AU - Thompson, Benjamin

AU - Christen, Lisa

AU - Gingerich, Morgan A.

AU - Zhu, Jie

AU - Stromer, Tracy

AU - Ren, Jianhua

AU - Reck, Emma C.

AU - Chai, Biaoxin

AU - Corbett, John A.

AU - Mandrup-Poulsen, Thomas

AU - Satin, Leslie S.

AU - Soleimanpour, Scott A.

PY - 2020

Y1 - 2020

N2 - Inflammatory damage contributes to beta cell failure in type 1 and 2 diabetes (T1D and T2D, respectively). Mitochondria are damaged by inflammatory signaling in beta cells, resulting in impaired bioenergetics and initiation of proapoptotic machinery. Hence, the identification of protective responses to inflammation could lead to new therapeutic targets. Here, we report that mitophagy serves as a protective response to inflammatory stress in both human and rodent beta cells. Utilizing in vivo mitophagy reporters, we observed that diabetogenic proinflammatory cytokines induced mitophagy in response to nitrosative/oxidative mitochondrial damage. Mitophagy-deficient II cells were sensitized to inflammatory stress, leading to the accumulation of fragmented dysfunctional mitochondria, increased beta cell death, and hyperglycemia. Overexpression of CLEC16A, a T1D gene and mitophagy regulator whose expression in islets is protective against T1D, ameliorated cytokine-induced human beta cell apoptosis. Thus, mitophagy promotes ti cell survival and prevents diabetes by countering inflammatory injury. Targeting this pathway has the potential to prevent beta cell failure in diabetes and may be beneficial in other inflammatory conditions.

AB - Inflammatory damage contributes to beta cell failure in type 1 and 2 diabetes (T1D and T2D, respectively). Mitochondria are damaged by inflammatory signaling in beta cells, resulting in impaired bioenergetics and initiation of proapoptotic machinery. Hence, the identification of protective responses to inflammation could lead to new therapeutic targets. Here, we report that mitophagy serves as a protective response to inflammatory stress in both human and rodent beta cells. Utilizing in vivo mitophagy reporters, we observed that diabetogenic proinflammatory cytokines induced mitophagy in response to nitrosative/oxidative mitochondrial damage. Mitophagy-deficient II cells were sensitized to inflammatory stress, leading to the accumulation of fragmented dysfunctional mitochondria, increased beta cell death, and hyperglycemia. Overexpression of CLEC16A, a T1D gene and mitophagy regulator whose expression in islets is protective against T1D, ameliorated cytokine-induced human beta cell apoptosis. Thus, mitophagy promotes ti cell survival and prevents diabetes by countering inflammatory injury. Targeting this pathway has the potential to prevent beta cell failure in diabetes and may be beneficial in other inflammatory conditions.

KW - NITRIC-OXIDE

KW - MITOCHONDRIAL

KW - CLEC16A

KW - TYPE-1

KW - AUTOPHAGY

KW - MECHANISMS

KW - ISLETS

KW - TRANSCRIPTION

KW - ELIMINATION

KW - MORPHOLOGY

U2 - 10.1172/jci.insight.141138

DO - 10.1172/jci.insight.141138

M3 - Journal article

C2 - 33232298

VL - 5

JO - JCI Insight

JF - JCI Insight

SN - 2379-3708

IS - 24

M1 - 141138

ER -

ID: 256886028