ID | 112310 |
Title Alternative | Role of PSCs in Regeneration of Remnant Pancreas after PX
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Author |
Ota, Shigenori
Sapporo Medical University
Nishimura, Miyuki
Sapporo Medical University
Murakami, Yuya
Sapporo Medical University
Kubo Birukawa, Naoko
Sapporo Medical University
Yoneda, Akihiro
Sapporo Medical University|Hokkaido University
Nishita, Hiroki
Sapporo Medical University|Nitto Denko Corporation
Fujita, Ryosuke
Sapporo Medical University
Minomi, Kenjiro
Sapporo Medical University|Nitto Denko Corporation
Kajiwara, Keiko
Sapporo Medical University|Nitto Denko Corporation
Miyazaki, Miyono
Sapporo Medical University|Nitto Denko Corporation
Uchiumi, Maki
Hokkaido University
Mikuni, Shintaro
Hokkaido University
Tamura, Yasuaki
Hokkaido University
Mizuguchi, Toru
Sapporo Medical University
Imamura, Masafumi
Sapporo Medical University
Meguro, Makoto
Sapporo Medical University
Kimura, Yasutoshi
Sapporo Medical University
Hirata, Koichi
Sapporo Medical University
Niitsu, Yoshiro
Sapporo Medical University
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Content Type |
Journal Article
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Description | Background and objectives
Mechanism of regeneration of remnant pancreas after partial pancreatectomy (PX) is still unknown. In this study, effect of siRNA against the collagen specific chaperone, HSP47, which inhibits collagen secretion from activated pancreas stellate cells (aPSCs), and induces their apoptosis, on regeneration of remnant pancreas was determined. Methods Pancreatectomy was performed according to established methods. Proliferation of cells was assessed by BrdU incorporation. Immunostaining of HSP47 was employed to identify PSCs. Progenitor cells were identified by SOX9 staining. Acinar cells were immunostained for amylase. Co-culture of acinar cells with aPSCs were carried out in a double chamber with a cell culture insert. siRNA HSP47 encapsulated in vitamin A-coupled liposome (VA-lip siRNA HSP47) was delivered to aPSCs by iv injection. Results In remnant pancreas of 90% PX rat, new areas of foci were located separately from duodenal areas with normal pancreatic features. After PX, BrdU uptake of acinar cells and islet cells significantly increased, but was suppressed by treatment with VA-lip siRNA HSP47. BrdU uptake by acinar cells was augmented by co-culturing with aPSCs and the augmentation was nullified by siRNA HSP47. BrdU uptake by progenitor cells in foci area was slightly enhanced by the same treatment. New area which exhibited intermediate features between those of duodenal and area of foci, emerged after the treatment. Conclusion aPSCs play a crucial role in regeneration of remnant pancreas, proliferation of acinar and islet cells after PX through the activity of secreted collagen. Characterization of new area emerged by siRNA HSP47 treatment as to its origin is a future task. |
Journal Title |
PLOS ONE
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ISSN | 19326203
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Publisher | PLOS
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Volume | 11
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Issue | 12
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Start Page | e0165747
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Published Date | 2016-12-09
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Rights | Copyright: © 2016 Ota et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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language |
eng
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departments |
Medical Sciences
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