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在果蝇眼睛平面细胞极性建立过程中,Frizzled/PCP和Egfr信号通路的组合信号传导

Combinatorial signaling by the Frizzled/PCP and Egfr pathways during planar cell polarity establishment in the Drosophila eye.

作者信息

Weber Ursula, Pataki Csilla, Mihaly Jozsef, Mlodzik Marek

机构信息

Department of Developmental and Regenerative Biology, Mt. Sinai School of Medicine, Annenberg Bldg. 18-92, One Gustave L. Levy Place, New York, NY 10029, USA.

出版信息

Dev Biol. 2008 Apr 1;316(1):110-23. doi: 10.1016/j.ydbio.2008.01.016. Epub 2008 Jan 26.

DOI:10.1016/j.ydbio.2008.01.016
PMID:18291359
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2579749/
Abstract

Frizzled (Fz)/PCP signaling regulates planar, vectorial orientation of cells or groups of cells within whole tissues. Although Fz/PCP signaling has been analyzed in several contexts, little is known about nuclear events acting downstream of Fz/PCP signaling in the R3/R4 cell fate decision in the Drosophila eye or in other contexts. Here we demonstrate a specific requirement for Egfr-signaling and the transcription factors Fos (AP-1), Yan and Pnt in PCP dependent R3/R4 specification. Loss and gain-of-function assays suggest that the transcription factors integrate input from Fz/PCP and Egfr-signaling and that the ETS factors Pnt and Yan cooperate with Fos (and Jun) in the PCP-specific R3/R4 determination. Our data indicate that Fos (either downstream of Fz/PCP signaling or parallel to it) and Yan are required in R3 to specify its fate (Fos) or inhibit R4 fate (Yan) and that Egfr-signaling is required in R4 via Pnt for its fate specification. Taken together with previous work establishing a Notch-dependent Su(H) function in R4, we conclude that Fos, Yan, Pnt, and Su(H) integrate Egfr, Fz, and Notch signaling input in R3 or R4 to establish cell fate and ommatidial polarity.

摘要

卷曲蛋白(Fz)/平面细胞极性(PCP)信号通路调控整个组织内细胞或细胞群的平面、矢量方向。尽管Fz/PCP信号通路已在多种情况下进行了分析,但在果蝇眼睛的R3/R4细胞命运决定或其他情况下,关于Fz/PCP信号通路下游的核事件却知之甚少。在这里,我们证明了表皮生长因子受体(Egfr)信号通路以及转录因子Fos(活化蛋白-1)、Yan和Pnt在PCP依赖的R3/R4特化过程中的特定需求。功能缺失和功能获得实验表明,这些转录因子整合了来自Fz/PCP和Egfr信号通路的输入,并且ETS因子Pnt和Yan在PCP特异性的R3/R4决定过程中与Fos(和Jun)协同作用。我们的数据表明,Fos(在Fz/PCP信号通路下游或与之平行)和Yan在R3中是决定其命运(Fos)或抑制R4命运(Yan)所必需的,并且Egfr信号通路在R4中通过Pnt对其命运特化是必需的。结合之前在R4中建立的依赖Notch的Su(H)功能的工作,我们得出结论,Fos、Yan、Pnt和Su(H)整合了R3或R4中的Egfr、Fz和Notch信号输入,以建立细胞命运和小眼极性。

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