The regulatory roles of NADPH oxidase, intra- and extra-cellular HSP70 in pancreatic islet function, dysfunction and diabetes

The regulatory roles of NADPH oxidase, intra- and extra-cellular HSP70 in pancreatic islet function, dysfunction and diabetes

The 70 kDa heat-shock protein (HSP70) family is important for a dynamic range of cellular processes that include protection against cell stress, modulation of cell signalling, gene expression, protein synthesis, protein folding and inflammation. Within this family, the inducible 72 kDa and the cogna...

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Bibliographic Details
Published in:Clinical science (1979) Vol. 128; no. 11; p. 789
Main Authors: Krause, Mauricio, Bock, Patricia Martins, Takahashi, Hilton Kenji, Homem De Bittencourt, Jr, Paulo Ivo, Newsholme, Philip
Format: Journal Article
Language:English
Published: England 01-06-2015
Subjects:
Diabetes Mellitus, Type 2 - metabolism
Diabetes Mellitus, Type 2 - physiopathology
Extracellular Space - metabolism
Glucagon-Secreting Cells - metabolism
Glucagon-Secreting Cells - physiology
HSP70 Heat-Shock Proteins - metabolism
Humans
Insulin-Secreting Cells - metabolism
Insulin-Secreting Cells - physiology
Intracellular Space - metabolism
Islets of Langerhans - metabolism
Islets of Langerhans - physiology
NADPH Oxidases - metabolism
Signal Transduction - physiology
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Summary:The 70 kDa heat-shock protein (HSP70) family is important for a dynamic range of cellular processes that include protection against cell stress, modulation of cell signalling, gene expression, protein synthesis, protein folding and inflammation. Within this family, the inducible 72 kDa and the cognate 73 kDa forms are found at the highest level. HSP70 has dual functions depending on location. For example, intracellular HSP70 (iHSP70) is anti-inflammatory whereas extracellular HSP70 (eHSP70) has a pro-inflammatory function, resulting in local and systemic inflammation. We have recently identified a divergence in the levels of eHSP70 and iHSP70 in subjects with diabetes compared with healthy subjects and also reported that eHSP70 was correlated with insulin resistance and pancreatic β-cell dysfunction/death. In the present review, we describe possible mechanisms by which HSP70 participates in cell function/dysfunction, including the activation of NADPH oxidase isoforms leading to oxidative stress, focusing on the possible role of HSPs and signalling in pancreatic islet α- and β-cell physiological function in health and Type 2 diabetes mellitus.
ISSN:1470-8736
DOI:10.1042/CS20140695