A conserved rule for pancreatic islet organization.

Morphogenesis, spontaneous formation of organism structure, is essential for life. In the pancreas, endocrine α, β, and δ cells are clustered to form islets of Langerhans, the critical micro-organ for glucose homeostasis. The spatial organization of endocrine cells in islets looks different between...

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Main Authors: Danh-Tai Hoang, Hitomi Matsunari, Masaki Nagaya, Hiroshi Nagashima, J Michael Millis, Piotr Witkowski, Vipul Periwal, Manami Hara, Junghyo Jo
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4211668?pdf=render
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spelling doaj-c7251a5acf274f8494548468db7151ee2020-11-24T20:50:00ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-01910e11038410.1371/journal.pone.0110384A conserved rule for pancreatic islet organization.Danh-Tai HoangHitomi MatsunariMasaki NagayaHiroshi NagashimaJ Michael MillisPiotr WitkowskiVipul PeriwalManami HaraJunghyo JoMorphogenesis, spontaneous formation of organism structure, is essential for life. In the pancreas, endocrine α, β, and δ cells are clustered to form islets of Langerhans, the critical micro-organ for glucose homeostasis. The spatial organization of endocrine cells in islets looks different between species. Based on the three-dimensional positions of individual cells in islets, we computationally inferred the relative attractions between cell types, and found that the attractions between homotypic cells were slightly, but significantly, stronger than the attractions between heterotypic cells commonly in mouse, pig, and human islets. The difference between α-β cell attraction and β-β cell attraction was minimal in human islets, maximizing the plasticity of islet structures. Our result suggests that although the cellular composition and attractions of pancreatic endocrine cells are quantitatively different between species, the physical mechanism of islet morphogenesis may be evolutionarily conserved.http://europepmc.org/articles/PMC4211668?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Danh-Tai Hoang
Hitomi Matsunari
Masaki Nagaya
Hiroshi Nagashima
J Michael Millis
Piotr Witkowski
Vipul Periwal
Manami Hara
Junghyo Jo
spellingShingle Danh-Tai Hoang
Hitomi Matsunari
Masaki Nagaya
Hiroshi Nagashima
J Michael Millis
Piotr Witkowski
Vipul Periwal
Manami Hara
Junghyo Jo
A conserved rule for pancreatic islet organization.
PLoS ONE
author_facet Danh-Tai Hoang
Hitomi Matsunari
Masaki Nagaya
Hiroshi Nagashima
J Michael Millis
Piotr Witkowski
Vipul Periwal
Manami Hara
Junghyo Jo
author_sort Danh-Tai Hoang
title A conserved rule for pancreatic islet organization.
title_short A conserved rule for pancreatic islet organization.
title_full A conserved rule for pancreatic islet organization.
title_fullStr A conserved rule for pancreatic islet organization.
title_full_unstemmed A conserved rule for pancreatic islet organization.
title_sort conserved rule for pancreatic islet organization.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description Morphogenesis, spontaneous formation of organism structure, is essential for life. In the pancreas, endocrine α, β, and δ cells are clustered to form islets of Langerhans, the critical micro-organ for glucose homeostasis. The spatial organization of endocrine cells in islets looks different between species. Based on the three-dimensional positions of individual cells in islets, we computationally inferred the relative attractions between cell types, and found that the attractions between homotypic cells were slightly, but significantly, stronger than the attractions between heterotypic cells commonly in mouse, pig, and human islets. The difference between α-β cell attraction and β-β cell attraction was minimal in human islets, maximizing the plasticity of islet structures. Our result suggests that although the cellular composition and attractions of pancreatic endocrine cells are quantitatively different between species, the physical mechanism of islet morphogenesis may be evolutionarily conserved.
url http://europepmc.org/articles/PMC4211668?pdf=render
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