Ascl1是胚胎小鼠端脑中Gsx基因功能所需的下游效应因子。

Ascl1 is a required downstream effector of Gsx gene function in the embryonic mouse telencephalon.

作者信息

Wang Bei, Waclaw Ronald R, Allen Zegary J, Guillemot Francois, Campbell Kenneth

机构信息

Division of Developmental Biology, Cincinnati Children's Hospital Medical Center, University of Cincinnati College of Medicine, Cincinnati OH 45229, USA.

出版信息

Neural Dev. 2009 Feb 10;4:5. doi: 10.1186/1749-8104-4-5.

DOI:10.1186/1749-8104-4-5

PMID:19208224

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2644683/

Abstract

BACKGROUND

The homeobox gene Gsx2 (formerly Gsh2) is known to regulate patterning in the lateral ganglionic eminence (LGE) of the embryonic telencephalon. In its absence, the closely related gene Gsx1 (previously known as Gsh1) can partially compensate in the patterning and differentiation of ventral telencephalic structures, such as the striatum. However, the cellular and molecular mechanisms underlying this compensation remain unclear.

RESULTS

We show here that in the Gsx2 mutants Gsx1 is expressed in only a subset of the ventral telencephalic progenitors that normally express Gsx2. Based on the similarities in the expression of Gsx1 and Ascl1 (Mash1) within the Gsx2 mutant LGE, we examined whether Ascl1 plays an integral part in the Gsx1-based recovery. Ascl1 mutants show only modest alterations in striatal development; however, in Gsx2;Ascl1 double mutants, striatal development is severely affected, similar to that seen in the Gsx1;Gsx2 double mutants. This is despite the fact that Gsx1 is expressed, and even expands, in the Gsx2;Ascl1 mutant LGE, comparable to that seen in the Gsx2 mutant. Finally, Notch signaling has recently been suggested to be required for normal striatal development. In spite of the fact that Notch signaling is severely disrupted in Ascl1 mutants, it actually appears to be improved in the Gsx2;Ascl1 double mutants.

CONCLUSION

These results, therefore, reveal a non-proneural requirement of Ascl1 that together with Gsx1 compensates for the loss of Gsx2 in a subset of LGE progenitors.

摘要

背景

已知同源框基因Gsx2（原名Gsh2）可调节胚胎端脑外侧神经节隆起（LGE）的模式形成。在其缺失的情况下，密切相关的基因Gsx1（以前称为Gsh1）可在腹侧端脑结构（如纹状体）的模式形成和分化中发挥部分补偿作用。然而，这种补偿背后的细胞和分子机制仍不清楚。

结果

我们在此表明，在Gsx2突变体中，Gsx1仅在正常表达Gsx2的腹侧端脑祖细胞的一个子集中表达。基于Gsx2突变体LGE内Gsx1和Ascl1（Mash1）表达的相似性，我们研究了Ascl1是否在基于Gsx1的恢复中起不可或缺的作用。Ascl1突变体在纹状体发育中仅表现出适度改变；然而，在Gsx2;Ascl1双突变体中，纹状体发育受到严重影响，类似于在Gsx1;Gsx2双突变体中所见。尽管Gsx1在Gsx2;Ascl1突变体LGE中表达，甚至有所扩展，与在Gsx2突变体中所见相当。最后，最近有人提出Notch信号传导是正常纹状体发育所必需的。尽管Notch信号传导在Ascl1突变体中严重受损，但在Gsx2;Ascl1双突变体中实际上似乎有所改善。

结论

因此，这些结果揭示了Ascl1的一种非神经前体需求，它与Gsx1一起在LGE祖细胞的一个子集中补偿Gsx2的缺失。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd9b/2644683/ba7d77e896ab/1749-8104-4-5-1.jpg

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Ascl1是胚胎小鼠端脑中Gsx基因功能所需的下游效应因子。

Ascl1 is a required downstream effector of Gsx gene function in the embryonic mouse telencephalon.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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