Pdia4 regulates β‐cell pathogenesis in diabetes: molecular mechanism and targeted therapy

Tien‐Fen Kuo; Shuo‐Wen Hsu; Shou‐Hsien Huang; Cicero Lee‐Tian Chang; Ching‐Shan Feng; Ming‐Guang Huang; Tzung‐Yan Chen; Meng‐Ting Yang; Si‐Tse Jiang; Tuan‐Nan Wen; Chun‐Yen Yang; Chung‐Yu Huang; Shu‐Huei Kao; Keng‐Chang Tsai; Greta Yang; Wen‐Chin Yang

doi:10.15252/emmm.201911668

EMBO Molecular Medicine (Oct 2021)

Pdia4 regulates β‐cell pathogenesis in diabetes: molecular mechanism and targeted therapy

Tien‐Fen Kuo,
Shuo‐Wen Hsu,
Shou‐Hsien Huang,
Cicero Lee‐Tian Chang,
Ching‐Shan Feng,
Ming‐Guang Huang,
Tzung‐Yan Chen,
Meng‐Ting Yang,
Si‐Tse Jiang,
Tuan‐Nan Wen,
Chun‐Yen Yang,
Chung‐Yu Huang,
Shu‐Huei Kao,
Keng‐Chang Tsai,
Greta Yang,
Wen‐Chin Yang

Affiliations

Tien‐Fen Kuo: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan
Shuo‐Wen Hsu: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan
Shou‐Hsien Huang: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan
Cicero Lee‐Tian Chang: Department of Veterinary Medicine, College of Veterinary Medicine National Chung Hsing University Taichung Taiwan
Ching‐Shan Feng: Department of Aquaculture National Taiwan Ocean University Keelung Taiwan
Ming‐Guang Huang: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan
Tzung‐Yan Chen: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan
Meng‐Ting Yang: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan
Si‐Tse Jiang: National Laboratory Animal Center National Applied Research Laboratories Taipei Taiwan
Tuan‐Nan Wen: Institute of Plant and Microbial Biology Academia Sinica Taipei Taiwan
Chun‐Yen Yang: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan
Chung‐Yu Huang: PhD Program in Medical Biotechnology College of Medical Science and Technology Taipei Medical University Taipei Taiwan
Shu‐Huei Kao: PhD Program in Medical Biotechnology College of Medical Science and Technology Taipei Medical University Taipei Taiwan
Keng‐Chang Tsai: National Research Institute of Chinese Medicine Ministry of Health and Welfare Taipei Taiwan
Greta Yang: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan
Wen‐Chin Yang: Agricultural Biotechnology Research Center Academia Sinica Taipei Taiwan

DOI: https://doi.org/10.15252/emmm.201911668
Journal volume & issue: Vol. 13, no. 10
pp. n/a – n/a

Abstract

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Abstract Loss of β‐cell number and function is a hallmark of diabetes. β‐cell preservation is emerging as a promising strategy to treat and reverse diabetes. Here, we first found that Pdia4 was primarily expressed in β‐cells. This expression was up‐regulated in β‐cells and blood of mice in response to excess nutrients. Ablation of Pdia4 alleviated diabetes as shown by reduced islet destruction, blood glucose and HbA1c, reactive oxygen species (ROS), and increased insulin secretion in diabetic mice. Strikingly, this ablation alone or in combination with food reduction could fully reverse diabetes. Conversely, overexpression of Pdia4 had the opposite pathophysiological outcomes in the mice. In addition, Pdia4 positively regulated β‐cell death, dysfunction, and ROS production. Mechanistic studies demonstrated that Pdia4 increased ROS content in β‐cells via its action on the pathway of Ndufs3 and p22phox. Finally, we found that 2‐β‐D‐glucopyranosyloxy1‐hydroxytrideca 5,7,9,11‐tetrayne (GHTT), a Pdia4 inhibitor, suppressed diabetic development in diabetic mice. These findings characterize Pdia4 as a crucial regulator of β‐cell pathogenesis and diabetes, suggesting Pdia4 is a novel therapeutic and diagnostic target of diabetes.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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