眼外肌形态发生和基因表达受Pitx2基因剂量调控。

Extraocular muscle morphogenesis and gene expression are regulated by Pitx2 gene dose.

作者信息

Diehl Adam G, Zareparsi Sepideh, Qian Min, Khanna Ritu, Angeles Rowena, Gage Philip J

机构信息

Department of Ophthalmology and Visual Sciences, University of Michigan Medical School, Ann Arbor 48105, USA.

出版信息

Invest Ophthalmol Vis Sci. 2006 May;47(5):1785-93. doi: 10.1167/iovs.05-1424.

DOI:10.1167/iovs.05-1424

PMID:16638982

Abstract

PURPOSE

PITX2 gene dose plays a central role in Axenfeld-Rieger syndrome. The purpose of this study was to test the hypothesis that the effects of Pitx2 gene dose on eye development can be molecularly dissected in available Pitx2 mutant mice.

METHODS

A panel of mice with Pitx2 gene dose ranging from wild-type (+/+) to none (-/-) was generated. Eye morphogenesis was assessed in animals with each Pitx2 gene dose. We also compared global gene expression in eye primordia taken from e12.5 Pitx2+/+, Pitx2+/-, Pitx2-/- embryos using gene microarrays. The validity of microarray results was confirmed by qRT-PCR.

RESULTS

Morphogenesis of all extraocular muscle bundles correlated highly with Pitx2 gene dose, but there were some differences in sensitivity among muscle groups. Superior and inferior oblique muscles were most sensitive and disappeared before the four rectus muscles. Expression of muscle-specific genes was globally sensitive to Pitx2 gene dose, including the muscle-specific transcription factor genes Myf5, Myog, Myod1, Smyd1, Msc, and Csrp3.

CONCLUSIONS

Pitx2 gene dose regulates both morphogenesis and gene expression in developing extraocular muscles. The expression of key muscle-specific transcription factor genes is regulated by Pitx2 gene dose, suggesting that sufficient levels of PITX2 protein are essential for early initiation of the myogenic regulatory cascade in extraocular muscles. These results document the first ocular tissue affected by Pitx2 gene dose in a model organism, where the underlying mechanisms can be analyzed, and provide a paradigm for future experiments designed to elucidate additional effects of Pitx2 gene dose during eye development.

摘要

目的

PITX2基因剂量在Axenfeld-Rieger综合征中起核心作用。本研究的目的是验证以下假设：在现有的Pitx2突变小鼠中，可以从分子水平剖析Pitx2基因剂量对眼睛发育的影响。

方法

构建了一组Pitx2基因剂量从野生型（+/+）到无（-/-）的小鼠。评估了每种Pitx2基因剂量的动物的眼睛形态发生。我们还使用基因微阵列比较了从e12.5 Pitx2+/+、Pitx2+/-、Pitx2-/-胚胎获取的眼原基中的全局基因表达。通过qRT-PCR证实了微阵列结果的有效性。

结果

所有眼外肌束的形态发生与Pitx2基因剂量高度相关，但不同肌肉组的敏感性存在一些差异。上斜肌和下斜肌最敏感，在四条直肌之前消失。肌肉特异性基因的表达对Pitx2基因剂量全局敏感，包括肌肉特异性转录因子基因Myf5、Myog、Myod1、Smyd1、Msc和Csrp3。

结论

Pitx2基因剂量调节发育中的眼外肌的形态发生和基因表达。关键肌肉特异性转录因子基因的表达受Pitx2基因剂量调节，表明足够水平的PITX2蛋白对于眼外肌成肌调节级联反应的早期启动至关重要。这些结果记录了模式生物中第一个受Pitx2基因剂量影响的眼组织，在此可以分析其潜在机制，并为未来旨在阐明Pitx2基因剂量在眼睛发育过程中的其他作用的实验提供了范例。

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眼外肌形态发生和基因表达受Pitx2基因剂量调控。

Extraocular muscle morphogenesis and gene expression are regulated by Pitx2 gene dose.

作者信息

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出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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