The aggregation potential of human amylin determines its cytotoxicity towards islet [beta]-cells

Human amylin is a small fibrillogenic protein that is the major constituent of pancreatic islet amyloid, which occurs in most subjects with type 2 diabetes. There is evidence that it can elicit in vitro apoptosis in islet Beta-cells, but the physical properties that underpin its cytotoxicity have no...

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Veröffentlicht in:	The FEBS journal 2006-08, Vol.273 (15), p.3614
Hauptverfasser:	Konarkowska, Barbara, Aitken, Jacqueline F, Kistler, Joerg, Zhang, Shaoping, Cooper, Garth J S
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Sprache:	eng
Schlagworte:	Apoptosis Cellular biology Diabetes Pancreas Proteins Scientific imaging Toxicity
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description	Human amylin is a small fibrillogenic protein that is the major constituent of pancreatic islet amyloid, which occurs in most subjects with type 2 diabetes. There is evidence that it can elicit in vitro apoptosis in islet Beta-cells, but the physical properties that underpin its cytotoxicity have not been clearly elucidated. Here we employed electron microscopy, thioflavin T fluorescence and CD spectroscopy to analyze amylin preparations whose cytotoxic potential was established by live-dead assay in cultured Beta-cells. Highly toxic amylin contained few preformed fibrils and initially showed little Beta-sheet content, but underwent marked time-dependent aggregation and Beta-conformer formation following dissolution. By contrast, low-toxicity amylin contained abundant preformed fibrils, and demonstrated high initial Beta-sheet content but little propensity to aggregate further once dissolved. Thus, mature amylin fibrils are not toxic to Beta-cells, and aggregates of fibrils such as occur in pancreatic islet amyloid in vivo are unlikely to contribute to Beta-cell loss. Rather, the toxic molecular species is likely to comprise soluble oligomers with significant Beta-sheet content. Attempts to find ways of protecting Beta-cells from amylin-mediated death might profitably focus on preventing the conformational change from random coil to Beta-sheet. [PUBLICATION ABSTRACT]
doi_str_mv	10.1111/j.1742-4658.2006.05367.x
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There is evidence that it can elicit in vitro apoptosis in islet Beta-cells, but the physical properties that underpin its cytotoxicity have not been clearly elucidated. Here we employed electron microscopy, thioflavin T fluorescence and CD spectroscopy to analyze amylin preparations whose cytotoxic potential was established by live-dead assay in cultured Beta-cells. Highly toxic amylin contained few preformed fibrils and initially showed little Beta-sheet content, but underwent marked time-dependent aggregation and Beta-conformer formation following dissolution. By contrast, low-toxicity amylin contained abundant preformed fibrils, and demonstrated high initial Beta-sheet content but little propensity to aggregate further once dissolved. Thus, mature amylin fibrils are not toxic to Beta-cells, and aggregates of fibrils such as occur in pancreatic islet amyloid in vivo are unlikely to contribute to Beta-cell loss. Rather, the toxic molecular species is likely to comprise soluble oligomers with significant Beta-sheet content. Attempts to find ways of protecting Beta-cells from amylin-mediated death might profitably focus on preventing the conformational change from random coil to Beta-sheet. 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There is evidence that it can elicit in vitro apoptosis in islet Beta-cells, but the physical properties that underpin its cytotoxicity have not been clearly elucidated. Here we employed electron microscopy, thioflavin T fluorescence and CD spectroscopy to analyze amylin preparations whose cytotoxic potential was established by live-dead assay in cultured Beta-cells. Highly toxic amylin contained few preformed fibrils and initially showed little Beta-sheet content, but underwent marked time-dependent aggregation and Beta-conformer formation following dissolution. By contrast, low-toxicity amylin contained abundant preformed fibrils, and demonstrated high initial Beta-sheet content but little propensity to aggregate further once dissolved. Thus, mature amylin fibrils are not toxic to Beta-cells, and aggregates of fibrils such as occur in pancreatic islet amyloid in vivo are unlikely to contribute to Beta-cell loss. Rather, the toxic molecular species is likely to comprise soluble oligomers with significant Beta-sheet content. Attempts to find ways of protecting Beta-cells from amylin-mediated death might profitably focus on preventing the conformational change from random coil to Beta-sheet. 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There is evidence that it can elicit in vitro apoptosis in islet Beta-cells, but the physical properties that underpin its cytotoxicity have not been clearly elucidated. Here we employed electron microscopy, thioflavin T fluorescence and CD spectroscopy to analyze amylin preparations whose cytotoxic potential was established by live-dead assay in cultured Beta-cells. Highly toxic amylin contained few preformed fibrils and initially showed little Beta-sheet content, but underwent marked time-dependent aggregation and Beta-conformer formation following dissolution. By contrast, low-toxicity amylin contained abundant preformed fibrils, and demonstrated high initial Beta-sheet content but little propensity to aggregate further once dissolved. Thus, mature amylin fibrils are not toxic to Beta-cells, and aggregates of fibrils such as occur in pancreatic islet amyloid in vivo are unlikely to contribute to Beta-cell loss. 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source	Wiley Online Library Journals Frontfile Complete; Wiley Free Content; IngentaConnect Free/Open Access Journals; Free Full-Text Journals in Chemistry
subjects	Apoptosis Cellular biology Diabetes Pancreas Proteins Scientific imaging Toxicity
title	The aggregation potential of human amylin determines its cytotoxicity towards islet [beta]-cells
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