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Melatonin Inhibits Embryonic Salivary Gland Branching Morphogenesis by Regulating Both Epithelial Cell Adhesion and Morphology

Many organs, including salivary glands, lung, and kidney, are formed by epithelial branching during embryonic development. Branching morphogenesis occurs via either local outgrowths or the formation of clefts that subdivide epithelia into buds. This process is promoted by various factors, but the me...

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Autores principales: Obana-Koshino, Aya, Ono, Hitomi, Miura, Jiro, Sakai, Manabu, Uchida, Hitoshi, Nakamura, Wataru, Nohara, Kanji, Maruyama, Yusuke, Hattori, Atsuhiko, Sakai, Takayoshi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4398443/
https://www.ncbi.nlm.nih.gov/pubmed/25876057
http://dx.doi.org/10.1371/journal.pone.0119960
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author Obana-Koshino, Aya
Ono, Hitomi
Miura, Jiro
Sakai, Manabu
Uchida, Hitoshi
Nakamura, Wataru
Nohara, Kanji
Maruyama, Yusuke
Hattori, Atsuhiko
Sakai, Takayoshi
author_facet Obana-Koshino, Aya
Ono, Hitomi
Miura, Jiro
Sakai, Manabu
Uchida, Hitoshi
Nakamura, Wataru
Nohara, Kanji
Maruyama, Yusuke
Hattori, Atsuhiko
Sakai, Takayoshi
author_sort Obana-Koshino, Aya
collection PubMed
description Many organs, including salivary glands, lung, and kidney, are formed by epithelial branching during embryonic development. Branching morphogenesis occurs via either local outgrowths or the formation of clefts that subdivide epithelia into buds. This process is promoted by various factors, but the mechanism of branching morphogenesis is not fully understood. Here we have defined melatonin as a potential negative regulator or “brake” of branching morphogenesis, shown that the levels of it and its receptors decline when branching morphogenesis begins, and identified the process that it regulates. Melatonin has various physiological functions, including circadian rhythm regulation, free-radical scavenging, and gonadal development. Furthermore, melatonin is present in saliva and may have an important physiological role in the oral cavity. In this study, we found that the melatonin receptor is highly expressed on the acinar epithelium of the embryonic submandibular gland. We also found that exogenous melatonin reduces salivary gland size and inhibits branching morphogenesis. We suggest that this inhibition does not depend on changes in either proliferation or apoptosis, but rather relates to changes in epithelial cell adhesion and morphology. In summary, we have demonstrated a novel function of melatonin in organ formation during embryonic development.
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spelling pubmed-43984432015-04-21 Melatonin Inhibits Embryonic Salivary Gland Branching Morphogenesis by Regulating Both Epithelial Cell Adhesion and Morphology Obana-Koshino, Aya Ono, Hitomi Miura, Jiro Sakai, Manabu Uchida, Hitoshi Nakamura, Wataru Nohara, Kanji Maruyama, Yusuke Hattori, Atsuhiko Sakai, Takayoshi PLoS One Research Article Many organs, including salivary glands, lung, and kidney, are formed by epithelial branching during embryonic development. Branching morphogenesis occurs via either local outgrowths or the formation of clefts that subdivide epithelia into buds. This process is promoted by various factors, but the mechanism of branching morphogenesis is not fully understood. Here we have defined melatonin as a potential negative regulator or “brake” of branching morphogenesis, shown that the levels of it and its receptors decline when branching morphogenesis begins, and identified the process that it regulates. Melatonin has various physiological functions, including circadian rhythm regulation, free-radical scavenging, and gonadal development. Furthermore, melatonin is present in saliva and may have an important physiological role in the oral cavity. In this study, we found that the melatonin receptor is highly expressed on the acinar epithelium of the embryonic submandibular gland. We also found that exogenous melatonin reduces salivary gland size and inhibits branching morphogenesis. We suggest that this inhibition does not depend on changes in either proliferation or apoptosis, but rather relates to changes in epithelial cell adhesion and morphology. In summary, we have demonstrated a novel function of melatonin in organ formation during embryonic development. Public Library of Science 2015-04-15 /pmc/articles/PMC4398443/ /pubmed/25876057 http://dx.doi.org/10.1371/journal.pone.0119960 Text en © 2015 Obana-Koshino et al http://creativecommons.org/licenses/by/4.0/ 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 properly credited.
spellingShingle Research Article
Obana-Koshino, Aya
Ono, Hitomi
Miura, Jiro
Sakai, Manabu
Uchida, Hitoshi
Nakamura, Wataru
Nohara, Kanji
Maruyama, Yusuke
Hattori, Atsuhiko
Sakai, Takayoshi
Melatonin Inhibits Embryonic Salivary Gland Branching Morphogenesis by Regulating Both Epithelial Cell Adhesion and Morphology
title Melatonin Inhibits Embryonic Salivary Gland Branching Morphogenesis by Regulating Both Epithelial Cell Adhesion and Morphology
title_full Melatonin Inhibits Embryonic Salivary Gland Branching Morphogenesis by Regulating Both Epithelial Cell Adhesion and Morphology
title_fullStr Melatonin Inhibits Embryonic Salivary Gland Branching Morphogenesis by Regulating Both Epithelial Cell Adhesion and Morphology
title_full_unstemmed Melatonin Inhibits Embryonic Salivary Gland Branching Morphogenesis by Regulating Both Epithelial Cell Adhesion and Morphology
title_short Melatonin Inhibits Embryonic Salivary Gland Branching Morphogenesis by Regulating Both Epithelial Cell Adhesion and Morphology
title_sort melatonin inhibits embryonic salivary gland branching morphogenesis by regulating both epithelial cell adhesion and morphology
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4398443/
https://www.ncbi.nlm.nih.gov/pubmed/25876057
http://dx.doi.org/10.1371/journal.pone.0119960
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