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腾讯登录Nat Neurosci:细胞“抄近道”形成肠神经
| 导读 | 研究者认为,这一新发现有望促进先天性巨结肠发病机制研究。
肠神经系统是纵贯胃肠消化道的神经系统,具有复杂的结构,即使大脑没有发出指令,也能调节胃肠消化道的功能,有“第二大脑”之称。
日本理化研究所发育生物学研究中心研究员榎本秀树领导的小组,19日在英国期刊《自然—神经科学》网络版上报告说,他们通过改变实验鼠基因,使实验鼠受精卵的肠神经前体细胞能够合成在紫外线照射下改变颜色的荧光蛋白,再... |
研究者认为,这一新发现有望促进先天性巨结肠发病机制研究。
肠神经系统是纵贯胃肠消化道的神经系统,具有复杂的结构,即使大脑没有发出指令,也能调节胃肠消化道的功能,有“第二大脑”之称。
日本理化研究所发育生物学研究中心研究员榎本秀树领导的小组,19日在英国期刊《自然—神经科学》网络版上报告说,他们通过改变实验鼠基因,使实验鼠受精卵的肠神经前体细胞能够合成在紫外线照射下改变颜色的荧光蛋白,再借助活细胞成像技术进行观察。
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研究人员发现在卵细胞受精后11天左右,小肠和大肠的某些部分平行分布时,会有细胞群“抄近道”横穿两者之间的膜从小肠进入大肠,这些细胞成为形成大肠内肠神经系统的“主力军”。
研究人员还发现,如果细胞无法“抄近道”移动到大肠,就会出现类似先天性巨结肠的神经缺损。他们认为,如果能确定细胞群移动时所必需的蛋白质,就可以了解先天性巨结肠的发病机制。
先天性巨结肠又称无神经节细胞症,是小儿外科常见的消化道畸形之一。患儿会出现肠神经缺损,导致肠道的一部分无法发挥作用。
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<img src="http://www.bioon.com/biology/UploadFiles/201208/2012082117135228.bmp" alt="" width="131" height="173" border="0" />
<a title="" href="http://www.nature.com/neuro/journal/vaop/ncurrent/full/nn.3184.html">doi:10.1038/nn.3184</a>
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<br/><strong>Trans-mesenteric neural crest cells are the principal source of the colonic enteric nervous system</strong><br/>
Chihiro Nishiyama, Toshihiro Uesaka, Takayuki Manabe, Yohei Yonekura, Takashi Nagasawa, Donald F Newgreen, Heather M Young & Hideki Enomoto
Cell migration is fundamental to organogenesis. During development, the enteric neural crest cells (ENCCs) that give rise to the enteric nervous system (ENS) migrate and colonize the entire length of the gut, which undergoes substantial growth and morphological rearrangement. How ENCCs adapt to such changes during migration, however, is not fully understood. Using time-lapse imaging analyses of mouse ENCCs, we show that a population of ENCCs crosses from the midgut to the hindgut via the mesentery during a developmental time period in which these gut regions are transiently juxtaposed, and that such 'trans-mesenteric' ENCCs constitute a large part of the hindgut ENS. This migratory process requires GDNF signaling, and evidence suggests that impaired trans-mesenteric migration of ENCCs may underlie the pathogenesis of Hirschsprung disease (intestinal aganglionosis). The discovery of this trans-mesenteric ENCC population provides a basis for improving our understanding of ENS development and pathogenesis.
<br/>来源:新华网
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肠神经系统是纵贯胃肠消化道的神经系统,具有复杂的结构,即使大脑没有发出指令,也能调节胃肠消化道的功能,有“第二大脑”之称。
日本理化研究所发育生物学研究中心研究员榎本秀树领导的小组,19日在英国期刊《自然—神经科学》网络版上报告说,他们通过改变实验鼠基因,使实验鼠受精卵的肠神经前体细胞能够合成在紫外线照射下改变颜色的荧光蛋白,再借助活细胞成像技术进行观察。
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研究人员发现在卵细胞受精后11天左右,小肠和大肠的某些部分平行分布时,会有细胞群“抄近道”横穿两者之间的膜从小肠进入大肠,这些细胞成为形成大肠内肠神经系统的“主力军”。
研究人员还发现,如果细胞无法“抄近道”移动到大肠,就会出现类似先天性巨结肠的神经缺损。他们认为,如果能确定细胞群移动时所必需的蛋白质,就可以了解先天性巨结肠的发病机制。
先天性巨结肠又称无神经节细胞症,是小儿外科常见的消化道畸形之一。患儿会出现肠神经缺损,导致肠道的一部分无法发挥作用。
<div id="ztload">
<div>
<div>
<img src="http://www.bioon.com/biology/UploadFiles/201208/2012082117135228.bmp" alt="" width="131" height="173" border="0" />
<a title="" href="http://www.nature.com/neuro/journal/vaop/ncurrent/full/nn.3184.html">doi:10.1038/nn.3184</a>
PMC:
PMID:
</div>
<div>
<br/><strong>Trans-mesenteric neural crest cells are the principal source of the colonic enteric nervous system</strong><br/>
Chihiro Nishiyama, Toshihiro Uesaka, Takayuki Manabe, Yohei Yonekura, Takashi Nagasawa, Donald F Newgreen, Heather M Young & Hideki Enomoto
Cell migration is fundamental to organogenesis. During development, the enteric neural crest cells (ENCCs) that give rise to the enteric nervous system (ENS) migrate and colonize the entire length of the gut, which undergoes substantial growth and morphological rearrangement. How ENCCs adapt to such changes during migration, however, is not fully understood. Using time-lapse imaging analyses of mouse ENCCs, we show that a population of ENCCs crosses from the midgut to the hindgut via the mesentery during a developmental time period in which these gut regions are transiently juxtaposed, and that such 'trans-mesenteric' ENCCs constitute a large part of the hindgut ENS. This migratory process requires GDNF signaling, and evidence suggests that impaired trans-mesenteric migration of ENCCs may underlie the pathogenesis of Hirschsprung disease (intestinal aganglionosis). The discovery of this trans-mesenteric ENCC population provides a basis for improving our understanding of ENS development and pathogenesis.
<br/>来源:新华网
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