| ID | 117216 |
| Author |
Fukaishi, Takahiro
Gunma University|Tokyo Medical and Dental University
Nakagawa, Yuko
Gunma University
Fukunaka, Ayako
Gunma University
Sato, Takashi
Gunma University
Hara, Akemi
Juntendo University|Saitama Medical University
Nakao, Keiko
Saitama Medical University
Saito, Michiko
Nara Institute of Science and Technology|Kyoto Pharmaceutical University
Kohno, Kenji
Nara Institute of Science and Technology
Miyatsuka, Takeshi
Juntendo University
Matsuhisa, Munehide
Tokushima University
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Matsuoka, Taka-aki
Wakayama Medical University
Yamada, Tetsuya
Tokyo Medical and Dental University
Watada, Hirotaka
Juntendo University
Fujitani, Yoshio
Gunma University
|
| Keywords | Beta cell heterogeneity
Ca2+ imaging
Diphtheria toxin
GLUT2
Pancreatic polypeptide
Ppy
Single-cell RNA sequence
Streptozotocin
TSPAN8
UCN3
|
| Content Type |
Journal Article
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| Description | Aims/hypothesis
Pancreatic polypeptide (PP) cells, which secrete PP (encoded by the Ppy gene), are a minor population of pancreatic endocrine cells. Although it has been reported that the loss of beta cell identity might be associated with beta-to-PP cell-fate conversion, at present, little is known regarding the characteristics of Ppy-lineage cells. Methods We used Ppy-Cre driver mice and a PP-specific monoclonal antibody to investigate the association between Ppy-lineage cells and beta cells. The molecular profiles of endocrine cells were investigated by single-cell transcriptome analysis and the glucose responsiveness of beta cells was assessed by Ca2+ imaging. Diabetic conditions were experimentally induced in mice by either streptozotocin or diphtheria toxin. Results Ppy-lineage cells were found to contribute to the four major types of endocrine cells, including beta cells. Ppy-lineage beta cells are a minor subpopulation, accounting for 12–15% of total beta cells, and are mostly (81.2%) localised at the islet periphery. Unbiased single-cell analysis with a Ppy-lineage tracer demonstrated that beta cells are composed of seven clusters, which are categorised into two groups (i.e. Ppy-lineage and non-Ppy-lineage beta cells). These subpopulations of beta cells demonstrated distinct characteristics regarding their functionality and gene expression profiles. Ppy-lineage beta cells had a reduced glucose-stimulated Ca2+ signalling response and were increased in number in experimental diabetes models. Conclusions/interpretation Our results indicate that an unexpected degree of beta cell heterogeneity is defined by Ppy gene activation, providing valuable insight into the homeostatic regulation of pancreatic islets and future therapeutic strategies against diabetes. |
| Journal Title |
Diabetologia
|
| ISSN | 0012186X
14320428
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| NCID | AA00628104
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| Publisher | Springer Nature|European Association for the Study of Diabetes
|
| Volume | 64
|
| Issue | 12
|
| Start Page | 2803
|
| End Page | 2816
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| Published Date | 2021-09-09
|
| Rights | This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
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| EDB ID | |
| DOI (Published Version) | |
| URL ( Publisher's Version ) | |
| FullText File | |
| language |
eng
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| TextVersion |
Publisher
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| departments |
Institute of Advanced Medical Sciences
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