Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.

Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.

We have previously investigated the physiological role of C-type natriuretic peptide (CNP) on endochondral bone growth, mainly with mutant mouse models deficient in CNP, and reported that CNP is indispensable for physiological endochondral bone growth in mice. However, the survival rate of CNP knock...

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Main Authors: Toshihito Fujii, Keisho Hirota, Akihiro Yasoda, Akiko Takizawa, Naomi Morozumi, Ryuichi Nakamura, Takafumi Yotsumoto, Eri Kondo, Yui Yamashita, Yoriko Sakane, Yugo Kanai, Yohei Ueda, Ichiro Yamauchi, Shigeki Yamanaka, Kazumasa Nakao, Koichiro Kuwahara, Toshimasa Jindo, Mayumi Furuya, Tomoji Mashimo, Nobuya Inagaki, Tadao Serikawa, Kazuwa Nakao
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5864047?pdf=render
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spelling doaj-f529792eec9d4297a02abdca277c42112020-11-25T01:41:43ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01133e019481210.1371/journal.pone.0194812Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.Toshihito FujiiKeisho HirotaAkihiro YasodaAkiko TakizawaNaomi MorozumiRyuichi NakamuraTakafumi YotsumotoEri KondoYui YamashitaYoriko SakaneYugo KanaiYohei UedaIchiro YamauchiShigeki YamanakaKazumasa NakaoKoichiro KuwaharaToshimasa JindoMayumi FuruyaTomoji MashimoNobuya InagakiTadao SerikawaKazuwa NakaoWe have previously investigated the physiological role of C-type natriuretic peptide (CNP) on endochondral bone growth, mainly with mutant mouse models deficient in CNP, and reported that CNP is indispensable for physiological endochondral bone growth in mice. However, the survival rate of CNP knockout (KO) mice fell to as low as about 70% until 10 weeks after birth, and we could not sufficiently analyze the phenotype at the adult stage. Herein, we generated CNP KO rats by using zinc-finger nuclease-mediated genome editing technology. We established two lines of mutant rats completely deficient in CNP (CNP KO rats) that exhibited a phenotype identical to that observed in mice deficient in CNP, namely, a short stature with severely impaired endochondral bone growth. Histological analysis revealed that the width of the growth plate, especially that of the hypertrophic chondrocyte layer, was markedly lower and the proliferation of growth plate chondrocytes tended to be reduced in CNP KO rats. Notably, CNP KO rats did not have malocclusions and survived for over one year after birth. At 33 weeks of age, CNP KO rats persisted significantly shorter than wild-type rats, with closed growth plates of the femur in all samples, which were not observed in wild-type rats. Histologically, CNP deficiency affected only bones among all body tissues studied. Thus, CNP KO rats survive over one year, and exhibit a deficit in endochondral bone growth and growth retardation throughout life.http://europepmc.org/articles/PMC5864047?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Toshihito Fujii
Keisho Hirota
Akihiro Yasoda
Akiko Takizawa
Naomi Morozumi
Ryuichi Nakamura
Takafumi Yotsumoto
Eri Kondo
Yui Yamashita
Yoriko Sakane
Yugo Kanai
Yohei Ueda
Ichiro Yamauchi
Shigeki Yamanaka
Kazumasa Nakao
Koichiro Kuwahara
Toshimasa Jindo
Mayumi Furuya
Tomoji Mashimo
Nobuya Inagaki
Tadao Serikawa
Kazuwa Nakao
spellingShingle Toshihito Fujii
Keisho Hirota
Akihiro Yasoda
Akiko Takizawa
Naomi Morozumi
Ryuichi Nakamura
Takafumi Yotsumoto
Eri Kondo
Yui Yamashita
Yoriko Sakane
Yugo Kanai
Yohei Ueda
Ichiro Yamauchi
Shigeki Yamanaka
Kazumasa Nakao
Koichiro Kuwahara
Toshimasa Jindo
Mayumi Furuya
Tomoji Mashimo
Nobuya Inagaki
Tadao Serikawa
Kazuwa Nakao
Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.
PLoS ONE
author_facet Toshihito Fujii
Keisho Hirota
Akihiro Yasoda
Akiko Takizawa
Naomi Morozumi
Ryuichi Nakamura
Takafumi Yotsumoto
Eri Kondo
Yui Yamashita
Yoriko Sakane
Yugo Kanai
Yohei Ueda
Ichiro Yamauchi
Shigeki Yamanaka
Kazumasa Nakao
Koichiro Kuwahara
Toshimasa Jindo
Mayumi Furuya
Tomoji Mashimo
Nobuya Inagaki
Tadao Serikawa
Kazuwa Nakao
author_sort Toshihito Fujii
title Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.
title_short Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.
title_full Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.
title_fullStr Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.
title_full_unstemmed Rats deficient C-type natriuretic peptide suffer from impaired skeletal growth without early death.
title_sort rats deficient c-type natriuretic peptide suffer from impaired skeletal growth without early death.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2018-01-01
description We have previously investigated the physiological role of C-type natriuretic peptide (CNP) on endochondral bone growth, mainly with mutant mouse models deficient in CNP, and reported that CNP is indispensable for physiological endochondral bone growth in mice. However, the survival rate of CNP knockout (KO) mice fell to as low as about 70% until 10 weeks after birth, and we could not sufficiently analyze the phenotype at the adult stage. Herein, we generated CNP KO rats by using zinc-finger nuclease-mediated genome editing technology. We established two lines of mutant rats completely deficient in CNP (CNP KO rats) that exhibited a phenotype identical to that observed in mice deficient in CNP, namely, a short stature with severely impaired endochondral bone growth. Histological analysis revealed that the width of the growth plate, especially that of the hypertrophic chondrocyte layer, was markedly lower and the proliferation of growth plate chondrocytes tended to be reduced in CNP KO rats. Notably, CNP KO rats did not have malocclusions and survived for over one year after birth. At 33 weeks of age, CNP KO rats persisted significantly shorter than wild-type rats, with closed growth plates of the femur in all samples, which were not observed in wild-type rats. Histologically, CNP deficiency affected only bones among all body tissues studied. Thus, CNP KO rats survive over one year, and exhibit a deficit in endochondral bone growth and growth retardation throughout life.
url http://europepmc.org/articles/PMC5864047?pdf=render
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