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Comprehensive Proteomics Analysis of Stressed Human Islets Identifies GDF15 as a Target for Type 1 Diabetes Intervention.

Citation
Nakayasu, E. S., et al. “Comprehensive Proteomics Analysis Of Stressed Human Islets Identifies Gdf15 As A Target For Type 1 Diabetes Intervention.”. Cell Metabolism, pp. 363-374.e6.
Center Indiana University University of Chicago
Multicenter
Multicenter
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Author Ernesto S Nakayasu, Farooq Syed, Sarah A Tersey, Marina A Gritsenko, Hugh D Mitchell, Chi Yuet Chan, Ercument Dirice, Jean-Valery Turatsinze, Yi Cui, Rohit N Kulkarni, Decio L Eizirik, Wei-Jun Qian, Bobbie-Jo M Webb-Robertson, Carmella Evans-Molina, Raghavendra G Mirmira, Thomas O Metz
Keywords GDF15, Apoptosis, cytokine, human islets, islet protective factor, proteomics, type 1 diabetes
Abstract

Type 1 diabetes (T1D) results from the progressive loss of β cells, a process propagated by pro-inflammatory cytokine signaling that disrupts the balance between pro- and anti-apoptotic proteins. To identify proteins involved in this process, we performed comprehensive proteomics of human pancreatic islets treated with interleukin-1β and interferon-γ, leading to the identification of 11,324 proteins, of which 387 were significantly regulated by treatment. We then tested the function of growth/differentiation factor 15 (GDF15), which was repressed by the treatment. We found that GDF15 translation was blocked during inflammation, and it was depleted in islets from individuals with T1D. The addition of exogenous GDF15 inhibited interleukin-1β+interferon-γ-induced apoptosis of human islets. Administration of GDF15 reduced by 53% the incidence of diabetes in NOD mice. Our approach provides a unique resource for the identification of the human islet proteins regulated by cytokines and was effective in discovering a potential target for T1D therapy.

Year of Publication
2020
Journal
Cell metabolism
Volume
31
Issue
2
Number of Pages
363-374.e6
Date Published
02/2020
ISSN Number
1932-7420
DOI
10.1016/j.cmet.2019.12.005
Alternate Journal
Cell Metab.
PMID
31928885
PMCID
PMC7319177
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