Stress hypERactivation in the β-cell

Sonya G. Fonseca; Fumihiko Urano; Mark Burcin; Jesper Gromada

doi:10.4161/isl.2.1.10456

Stress hypERactivation in the β-cell

Sonya G. Fonseca, Fumihiko Urano, Mark Burcin, Jesper Gromada

Research output: Contribution to journal › Review article › peer-review

35 Scopus citations

Abstract

In pancreatic β-cells, the endoplasmic reticulum (ER) is the crucial site for insulin biosynthesis, as this is where the protein-folding machinery for secretory proteins is localized. Perturbations to ER function of the β-cell, such as a high demand for insulin secretion, can lead to an imbalance in protein homeostasis and lead to ER stress. This stress can be mitigated by an adaptive, cellular response, the Unfolded Protein Response (UPR). UPR activation is vital to the survival of β-cells, as these cells represent one of the most susceptible tissues for ER stress, due to their highly secretory function. However, in some cases, this response is not sufficient to relieve stress, leading to apoptosis and contributing to the pathogenesis of diabetes. Recent evidence shows that ER stress plays a significant role in both type 1 and type 2 diabetes. In this review, we outline the mechanisms of ER stress-mediated β-cell death and focus on the role of ER stress in various forms of diabetes, particularly a genetic form of diabetes called Wolfram Syndrome.

Original language	English
Journal	Islets
Volume	2
Issue number	1
DOIs	https://doi.org/10.4161/isl.2.1.10456
State	Published - 2010

Keywords

Diabetes
ER stress
UPR
WFS1
Wolfram syndrome
β-cell

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10.4161/isl.2.1.10456

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title = "Stress hypERactivation in the β-cell",

abstract = "In pancreatic β-cells, the endoplasmic reticulum (ER) is the crucial site for insulin biosynthesis, as this is where the protein-folding machinery for secretory proteins is localized. Perturbations to ER function of the β-cell, such as a high demand for insulin secretion, can lead to an imbalance in protein homeostasis and lead to ER stress. This stress can be mitigated by an adaptive, cellular response, the Unfolded Protein Response (UPR). UPR activation is vital to the survival of β-cells, as these cells represent one of the most susceptible tissues for ER stress, due to their highly secretory function. However, in some cases, this response is not sufficient to relieve stress, leading to apoptosis and contributing to the pathogenesis of diabetes. Recent evidence shows that ER stress plays a significant role in both type 1 and type 2 diabetes. In this review, we outline the mechanisms of ER stress-mediated β-cell death and focus on the role of ER stress in various forms of diabetes, particularly a genetic form of diabetes called Wolfram Syndrome.",

keywords = "Diabetes, ER stress, UPR, WFS1, Wolfram syndrome, β-cell",

author = "Fonseca, \{Sonya G.\} and Fumihiko Urano and Mark Burcin and Jesper Gromada",

note = "Funding Information: Laboratory of F. Urano is supported by grants from NIH-NIDDK (R01DK067493), the Diabetes and Endocrinology Research Center at the University of Massachusetts Medical School, the Juvenile Diabetes Research Foundation International, Massachusetts Technology Transfer Center, and the Worcester Foundation for Biomedical Research.",

year = "2010",

doi = "10.4161/isl.2.1.10456",

language = "English",

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T1 - Stress hypERactivation in the β-cell

AU - Fonseca, Sonya G.

AU - Urano, Fumihiko

AU - Burcin, Mark

AU - Gromada, Jesper

N1 - Funding Information: Laboratory of F. Urano is supported by grants from NIH-NIDDK (R01DK067493), the Diabetes and Endocrinology Research Center at the University of Massachusetts Medical School, the Juvenile Diabetes Research Foundation International, Massachusetts Technology Transfer Center, and the Worcester Foundation for Biomedical Research.

PY - 2010

Y1 - 2010

N2 - In pancreatic β-cells, the endoplasmic reticulum (ER) is the crucial site for insulin biosynthesis, as this is where the protein-folding machinery for secretory proteins is localized. Perturbations to ER function of the β-cell, such as a high demand for insulin secretion, can lead to an imbalance in protein homeostasis and lead to ER stress. This stress can be mitigated by an adaptive, cellular response, the Unfolded Protein Response (UPR). UPR activation is vital to the survival of β-cells, as these cells represent one of the most susceptible tissues for ER stress, due to their highly secretory function. However, in some cases, this response is not sufficient to relieve stress, leading to apoptosis and contributing to the pathogenesis of diabetes. Recent evidence shows that ER stress plays a significant role in both type 1 and type 2 diabetes. In this review, we outline the mechanisms of ER stress-mediated β-cell death and focus on the role of ER stress in various forms of diabetes, particularly a genetic form of diabetes called Wolfram Syndrome.

AB - In pancreatic β-cells, the endoplasmic reticulum (ER) is the crucial site for insulin biosynthesis, as this is where the protein-folding machinery for secretory proteins is localized. Perturbations to ER function of the β-cell, such as a high demand for insulin secretion, can lead to an imbalance in protein homeostasis and lead to ER stress. This stress can be mitigated by an adaptive, cellular response, the Unfolded Protein Response (UPR). UPR activation is vital to the survival of β-cells, as these cells represent one of the most susceptible tissues for ER stress, due to their highly secretory function. However, in some cases, this response is not sufficient to relieve stress, leading to apoptosis and contributing to the pathogenesis of diabetes. Recent evidence shows that ER stress plays a significant role in both type 1 and type 2 diabetes. In this review, we outline the mechanisms of ER stress-mediated β-cell death and focus on the role of ER stress in various forms of diabetes, particularly a genetic form of diabetes called Wolfram Syndrome.

KW - Diabetes

KW - ER stress

KW - UPR

KW - WFS1

KW - Wolfram syndrome

KW - β-cell

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DO - 10.4161/isl.2.1.10456

M3 - Review article

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AN - SCOPUS:77953417975

SN - 1938-2014

VL - 2

JO - Islets

JF - Islets

IS - 1

ER -

Stress hypERactivation in the β-cell

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Keywords

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