SHH 信号通路成分在人肺发育中的表达。

Expression of SHH signaling pathway components in the developing human lung.

机构信息

Fujian Key Laboratory of Developmental Biology and Neurobiology, College of Life Sciences, Fujian Normal University, Qishan Campus, Fuzhou, 350108 Fujian, People's Republic of China.

出版信息

Histochem Cell Biol. 2010 Oct;134(4):327-35. doi: 10.1007/s00418-010-0738-2. Epub 2010 Sep 7.

DOI:10.1007/s00418-010-0738-2

PMID:20821230

Abstract

The Sonic hedgehog (Shh) cascade is crucial for the patterning of the early lung morphogenesis in mice, but its role in the developing human lung remains to be determined. In the present study, the expression patterns of SHH signaling pathway components, including SHH, PTCH1, SMO, GLI1, GLI2 and GLI3 were examined by in situ hybridization and immunohistochemistry, and compared with the equivalent patterns in mice. Our results showed that, as in mice, SHH was expressed in the epithelium of the developing human lung. However, SHH receptors (PTCH1 and SMO) and SHH signaling effectors (GLI1-3) were strongly detected in the human lung epithelium, but weakly in the mesenchyme, slightly different from their expressions in mice. Furthermore, the expression levels of SHH signaling pathway genes in human lung, but not that of GLI1, were subsequently downregulated at the canalicular stage evaluated by real-time PCR, coincident with a decline in the developing murine lung. In conclusion, in spite of slight differences, the considerable similarities of gene expression in human and mice suggest that conserved molecular networks regulate mammalian lung development.

摘要

Sonic 刺猬（Shh）级联反应对于小鼠早期肺形态发生的模式形成至关重要，但它在发育中的人肺中的作用仍有待确定。在本研究中，通过原位杂交和免疫组织化学检测了 SHH 信号通路成分，包括 SHH、PTCH1、SMO、GLI1、GLI2 和 GLI3 的表达模式，并与小鼠的等效模式进行了比较。我们的结果表明，与小鼠一样，SHH 也在发育中的人肺上皮细胞中表达。然而，SHH 受体（PTCH1 和 SMO）和 SHH 信号效应物（GLI1-3）在人肺上皮细胞中强烈表达，但在间充质细胞中表达较弱，与在小鼠中的表达略有不同。此外，通过实时 PCR 评估，在小管形成阶段，人肺中的 SHH 信号通路基因表达水平下降，但 GLI1 除外，这与人肺中的基因表达水平下降一致。结论：尽管存在细微差异，但人类和小鼠在基因表达上的显著相似性表明，保守的分子网络调节哺乳动物肺的发育。

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SHH 信号通路成分在人肺发育中的表达。

Expression of SHH signaling pathway components in the developing human lung.

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