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RhoGAP蛋白RGA - 2和LET - 502/ROCK在秀丽隐杆线虫表皮中实现肌动球蛋白依赖性力的平衡,以控制形态发生。

The RhoGAP RGA-2 and LET-502/ROCK achieve a balance of actomyosin-dependent forces in C. elegans epidermis to control morphogenesis.

作者信息

Diogon Marie, Wissler Frédéric, Quintin Sophie, Nagamatsu Yasuko, Sookhareea Satis, Landmann Frédéric, Hutter Harald, Vitale Nicolas, Labouesse Michel

机构信息

IGBMC, CNRS/INSERM/ULP, 1 rue Laurent Fries, BP.10142, 67400 Illkirch, France.

出版信息

Development. 2007 Jul;134(13):2469-79. doi: 10.1242/dev.005074. Epub 2007 May 30.

DOI:10.1242/dev.005074
PMID:17537791
Abstract

Embryonic morphogenesis involves the coordinate behaviour of multiple cells and requires the accurate balance of forces acting within different cells through the application of appropriate brakes and throttles. In C. elegans, embryonic elongation is driven by Rho-binding kinase (ROCK) and actomyosin contraction in the epidermis. We identify an evolutionary conserved, actin microfilament-associated RhoGAP (RGA-2) that behaves as a negative regulator of LET-502/ROCK. The small GTPase RHO-1 is the preferred target of RGA-2 in vitro, and acts between RGA-2 and LET-502 in vivo. Two observations show that RGA-2 acts in dorsal and ventral epidermal cells to moderate actomyosin tension during the first half of elongation. First, time-lapse microscopy shows that loss of RGA-2 induces localised circumferentially oriented pulling on junctional complexes in dorsal and ventral epidermal cells. Second, specific expression of RGA-2 in dorsal/ventral, but not lateral, cells rescues the embryonic lethality of rga-2 mutants. We propose that actomyosin-generated tension must be moderated in two out of the three sets of epidermal cells surrounding the C. elegans embryo to achieve morphogenesis.

摘要

胚胎形态发生涉及多个细胞的协同行为,需要通过施加适当的“刹车”和“油门”来精确平衡不同细胞内作用的力。在秀丽隐杆线虫中,胚胎伸长由表皮中的Rho结合激酶(ROCK)和肌动球蛋白收缩驱动。我们鉴定出一种进化保守的、与肌动蛋白微丝相关的RhoGAP(RGA-2),它作为LET-502/ROCK的负调节因子发挥作用。小GTP酶RHO-1在体外是RGA-2的首选靶标,在体内则作用于RGA-2和LET-502之间。两项观察结果表明,RGA-2在伸长前半段期间作用于背侧和腹侧表皮细胞,以调节肌动球蛋白张力。首先,延时显微镜显示RGA-2的缺失会诱导背侧和腹侧表皮细胞中连接复合体上局部的周向拉力。其次,RGA-2在背侧/腹侧而非外侧细胞中的特异性表达挽救了rga-2突变体的胚胎致死性。我们提出,在秀丽隐杆线虫胚胎周围三组表皮细胞中的两组中,必须调节肌动球蛋白产生的张力才能实现形态发生。

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