Amyloidogenic peptide oligomer accumulation in autophagy-deficient β cells induces diabetes
Jinyoung Kim, … , Sang-Wook Kang, Myung-Shik Lee
Jinyoung Kim, … , Sang-Wook Kang, Myung-Shik Lee
Published July 18, 2014
Citation Information: J Clin Invest. 2014;124(8):3311-3324. https://doi.org/10.1172/JCI69625.
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Research Article

Amyloidogenic peptide oligomer accumulation in autophagy-deficient β cells induces diabetes

Abstract

Islet amyloid accumulation is a hallmark of human type 2 diabetes (T2D). In contrast to human islet amyloid polypeptide (hIAPP), murine islet amyloid polypeptide (mIAPP) does not exhibit amyloidogenic propensity. Because autophagy is important in the clearance of amyloid-like proteins, we studied transgenic mice with β cell–specific expression of hIAPP to evaluate the contribution of autophagy in T2D-associated accumulation of hIAPP. In mice with β cell–specific expression of hIAPP, a deficiency in autophagy resulted in development of overt diabetes, which was not observed in mice expressing hIAPP alone or lacking autophagy alone. Furthermore, lack of autophagy in hIAPP-expressing animals resulted in hIAPP oligomer and amyloid accumulation in pancreatic islets, leading to increased death and decreased mass of β cells. Expression of hIAPP in purified monkey islet cells or a murine β cell line resulted in pro-hIAPP dimer formation, while dimer formation was absent or reduced dramatically in cells expressing either nonamyloidogenic mIAPP or nonfibrillar mutant hIAPP. In autophagy-deficient cells, accumulation of pro-hIAPP dimers increased markedly, and pro-hIAPP trimers were detected in the detergent-insoluble fraction. Enhancement of autophagy improved the metabolic profile of hIAPP-expressing mice fed a high-fat diet. These results suggest that autophagy promotes clearance of amyloidogenic hIAPP, autophagy deficiency exacerbates pathogenesis of human T2D, and autophagy enhancers have therapeutic potential for islet amyloid accumulation-associated human T2D.

Authors

Jinyoung Kim, Hwanju Cheon, Yeon Taek Jeong, Wenying Quan, Kook Hwan Kim, Jae Min Cho, Yu-Mi Lim, Seung Hoon Oh, Sang-Man Jin, Jae Hyeon Kim, Moon-Kyu Lee, Sunshin Kim, Masaaki Komatsu, Sang-Wook Kang, Myung-Shik Lee

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Figure 2

β Cells in hIAPP+Atg7Δβcell mice.

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β Cells in hIAPP+Atg7Δβcell mice. (A) H&E staining of pancreas secti...
(A) H&E staining of pancreas sections and the number of cells detached from surrounding tissues or cells per islet area in 12- to 15-week-old mice (n = 3~6). Scale bar: 100 μm. (B) Confocal microscopy after immunofluorescent staining of pancreas sections from 12- to 15-week-old mice using anti-p62 and -ubiquitin Abs. Scale bar: 100 μm. (C) Relative β cell mass in 12- to 15-week-old mice measured by insulin IHC and the point counting method (n = 3 each). (D) The percentage of apoptotic TUNEL+ β cells among total β cells in islets of 12- to 15-week-old mice (n = 4~5). Representative TUNEL staining is shown. Arrowheads indicate TUNEL+ β cells. Scale bar: 100 μm. (E) Glucose-induced Ca2+ transients in isolated islets (n = 4 each). Ca2+ transients were measured in Tyrode solution containing 3.0 or 16.7 mM glucose, as described in the Methods. (F) Δ[Ca2+]c area was defined as the total area of [Ca2+]c above basal [Ca2+]c. *P < 0.05, **P < 0.01, ***P < 0.001. ns, not significant.