Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.

Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.

Transcellular Mg(2+) transport across epithelia, involving both apical entry and basolateral extrusion, is essential for magnesium homeostasis, but molecules involved in basolateral extrusion have not yet been identified. Here, we show that CNNM4 is the basolaterally located Mg(2+) extrusion molecul...

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Main Authors: Daisuke Yamazaki, Yosuke Funato, Jiro Miura, Sunao Sato, Satoru Toyosawa, Kazuharu Furutani, Yoshihisa Kurachi, Yoshihiro Omori, Takahisa Furukawa, Tetsuya Tsuda, Susumu Kuwabata, Shin Mizukami, Kazuya Kikuchi, Hiroaki Miki
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC3854942?pdf=render
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spelling doaj-e64544afc4ea49639946af92ef6001db2020-11-25T01:16:11ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042013-01-01912e100398310.1371/journal.pgen.1003983Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.Daisuke YamazakiYosuke FunatoJiro MiuraSunao SatoSatoru ToyosawaKazuharu FurutaniYoshihisa KurachiYoshihiro OmoriTakahisa FurukawaTetsuya TsudaSusumu KuwabataShin MizukamiKazuya KikuchiHiroaki MikiTranscellular Mg(2+) transport across epithelia, involving both apical entry and basolateral extrusion, is essential for magnesium homeostasis, but molecules involved in basolateral extrusion have not yet been identified. Here, we show that CNNM4 is the basolaterally located Mg(2+) extrusion molecule. CNNM4 is strongly expressed in intestinal epithelia and localizes to their basolateral membrane. CNNM4-knockout mice showed hypomagnesemia due to the intestinal malabsorption of magnesium, suggesting its role in Mg(2+) extrusion to the inner parts of body. Imaging analyses revealed that CNNM4 can extrude Mg(2+) by exchanging intracellular Mg(2+) with extracellular Na(+). Furthermore, CNNM4 mutations cause Jalili syndrome, characterized by recessive amelogenesis imperfecta with cone-rod dystrophy. CNNM4-knockout mice showed defective amelogenesis, and CNNM4 again localizes to the basolateral membrane of ameloblasts, the enamel-forming epithelial cells. Missense point mutations associated with the disease abolish the Mg(2+) extrusion activity. These results demonstrate the crucial importance of Mg(2+) extrusion by CNNM4 in organismal and topical regulation of magnesium.http://europepmc.org/articles/PMC3854942?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Daisuke Yamazaki
Yosuke Funato
Jiro Miura
Sunao Sato
Satoru Toyosawa
Kazuharu Furutani
Yoshihisa Kurachi
Yoshihiro Omori
Takahisa Furukawa
Tetsuya Tsuda
Susumu Kuwabata
Shin Mizukami
Kazuya Kikuchi
Hiroaki Miki
spellingShingle Daisuke Yamazaki
Yosuke Funato
Jiro Miura
Sunao Sato
Satoru Toyosawa
Kazuharu Furutani
Yoshihisa Kurachi
Yoshihiro Omori
Takahisa Furukawa
Tetsuya Tsuda
Susumu Kuwabata
Shin Mizukami
Kazuya Kikuchi
Hiroaki Miki
Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.
PLoS Genetics
author_facet Daisuke Yamazaki
Yosuke Funato
Jiro Miura
Sunao Sato
Satoru Toyosawa
Kazuharu Furutani
Yoshihisa Kurachi
Yoshihiro Omori
Takahisa Furukawa
Tetsuya Tsuda
Susumu Kuwabata
Shin Mizukami
Kazuya Kikuchi
Hiroaki Miki
author_sort Daisuke Yamazaki
title Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.
title_short Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.
title_full Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.
title_fullStr Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.
title_full_unstemmed Basolateral Mg2+ extrusion via CNNM4 mediates transcellular Mg2+ transport across epithelia: a mouse model.
title_sort basolateral mg2+ extrusion via cnnm4 mediates transcellular mg2+ transport across epithelia: a mouse model.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2013-01-01
description Transcellular Mg(2+) transport across epithelia, involving both apical entry and basolateral extrusion, is essential for magnesium homeostasis, but molecules involved in basolateral extrusion have not yet been identified. Here, we show that CNNM4 is the basolaterally located Mg(2+) extrusion molecule. CNNM4 is strongly expressed in intestinal epithelia and localizes to their basolateral membrane. CNNM4-knockout mice showed hypomagnesemia due to the intestinal malabsorption of magnesium, suggesting its role in Mg(2+) extrusion to the inner parts of body. Imaging analyses revealed that CNNM4 can extrude Mg(2+) by exchanging intracellular Mg(2+) with extracellular Na(+). Furthermore, CNNM4 mutations cause Jalili syndrome, characterized by recessive amelogenesis imperfecta with cone-rod dystrophy. CNNM4-knockout mice showed defective amelogenesis, and CNNM4 again localizes to the basolateral membrane of ameloblasts, the enamel-forming epithelial cells. Missense point mutations associated with the disease abolish the Mg(2+) extrusion activity. These results demonstrate the crucial importance of Mg(2+) extrusion by CNNM4 in organismal and topical regulation of magnesium.
url http://europepmc.org/articles/PMC3854942?pdf=render
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