Abstract

To examine whether islet amyloid polypeptide (IAPP), other than through amyloid formation, may be of importance in diabetes pathogenesis, IAPP-deficient mice (IAPP(-/-)) were challenged with alloxan (day 0). Diabetes in IAPP(-/-) mice was more severe at day 35, indicated by greater weight loss; glucose levels were higher in alloxan-treated IAPP(-/-) mice, whereas insulin levels were lower, indicating a greater impairment of islet function. Accordingly, glucose levels upon intravenous glucose challenges at days 7 and 35 were consistently higher in alloxan-treated IAPP(-/-) mice. At day 35, insulin mRNA expression, but not beta-cell mass, was lower in untreated IAPP(-/-) mice. Yet, upon alloxan administration, beta-cell mass and numbers of beta-cell-containing islets were significantly more reduced in IAPP(-/-) mice. Furthermore, they displayed exaggerated beta-cell dysfunction, because in their remaining beta-cells, insulin mRNA expression was significantly more impaired and the localization of glucose transporter-2 was perturbed. Thus the lack of IAPP has allowed exaggerated beta-cell cytotoxic actions of alloxan, suggesting that there may be beneficial features of IAPP actions in situations of beta-cell damage.

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