Geisbrecht Erika R, Haralalka Shruti, Swanson Selene K, Florens Laurence, Washburn Mike P, Abmayr Susan M
Stowers Institute for Medical Research, 1000 E. 50th St., Kansas City, MO 64110, USA.
Dev Biol. 2008 Feb 1;314(1):137-49. doi: 10.1016/j.ydbio.2007.11.022. Epub 2007 Nov 28.
Members of the CDM (CED-5, Dock180, Myoblast city) superfamily of guanine nucleotide exchange factors function in diverse processes that include cell migration and myoblast fusion. Previous studies have shown that the SH3, DHR1 and DHR2 domains of Myoblast city (MBC) are essential for it to direct myoblast fusion in the Drosophila embryo, while the conserved DCrk-binding proline rich region is expendable. Herein, we describe the isolation of Drosophila ELMO/CED-12, an approximately 82 kDa protein with a pleckstrin homology (PH) and proline-rich domain, by interaction with the MBC SH3 domain. Mass spectrometry confirms the presence of an MBC/ELMO complex within the embryonic musculature at the time of myoblast fusion and embryos maternally and/or zygotically mutant for elmo exhibit defects in myoblast fusion. Overexpression of MBC and ELMO in the embryonic mesoderm causes defects in myoblast fusion reminiscent of those seen with constitutively-activated Rac1, supporting the previous finding that both the absence of and an excess of Rac activity are deleterious to myoblast fusion. Overexpression of MBC and ELMO/CED-12 in the eye causes perturbations in ommatidial organization that are suppressed by mutations in Rac1 and Rac2, demonstrating genetically that MBC and ELMO/CED-12 cooperate to activate these small GTPases in Drosophila.
鸟嘌呤核苷酸交换因子的CDM(CED-5、Dock180、成肌细胞城市蛋白)超家族成员在包括细胞迁移和成肌细胞融合在内的多种过程中发挥作用。先前的研究表明,成肌细胞城市蛋白(MBC)的SH3、DHR1和DHR2结构域对于其在果蝇胚胎中指导成肌细胞融合至关重要,而保守的与DCrk结合的富含脯氨酸区域则是可有可无的。在此,我们描述了通过与MBC的SH3结构域相互作用分离出果蝇ELMO/CED-12,这是一种约82 kDa的蛋白,具有pleckstrin同源性(PH)和富含脯氨酸的结构域。质谱分析证实,在成肌细胞融合时,胚胎肌肉组织中存在MBC/ELMO复合物,并且elmo母系和/或合子突变的胚胎在成肌细胞融合方面表现出缺陷。在胚胎中胚层中过表达MBC和ELMO会导致成肌细胞融合缺陷,这让人联想到组成型激活的Rac1所导致的缺陷,支持了之前的发现,即Rac活性的缺失和过量对成肌细胞融合都是有害的。在眼睛中过表达MBC和ELMO/CED-12会导致小眼组织紊乱,而Rac1和Rac2的突变可抑制这种紊乱,这从遗传学上证明了MBC和ELMO/CED-12在果蝇中协同激活这些小GTP酶。