Hoffman Laura M, Nix David A, Benson Beverly, Boot-Hanford Ray, Gustafsson Erika, Jamora Colin, Menzies A Sheila, Goh Keow Lin, Jensen Christopher C, Gertler Frank B, Fuchs Elaine, Fässler Reinhard, Beckerle Mary C
Huntsman Cancer Institute and Department of Biology, University of Utah, Salt Lake City 84112, USA.
Mol Cell Biol. 2003 Jan;23(1):70-9. doi: 10.1128/MCB.23.1.70-79.2003.
Zyxin is an evolutionarily conserved protein that is concentrated at sites of cell adhesion, where it associates with members of the Enabled (Ena)/vasodilator-stimulated phosphoprotein (VASP) family of cytoskeletal regulators and is postulated to play a role in cytoskeletal dynamics and signaling. Zyxin transcripts are detected throughout murine embryonic development, and the protein is widely expressed in adults. Here we used a reverse genetic approach to examine the consequences of loss of zyxin function in the mouse. Mice that lack zyxin function are viable and fertile and display no obvious histological abnormalities in any of the organs examined. Because zyxin contributes to the localization of Ena/VASP family members at certain subcellular locations, we carefully examined the zyxin(-/-) mice for evidence of defects that have been observed when Ena/VASP proteins are compromised in the mouse. Specifically, we evaluated blood platelet function, nervous system development, and skin architecture but did not detect any defects in these systems. Zyxin is the founding member of a family of proteins that also includes the lipoma preferred partner (LPP) and thyroid receptor-interacting protein 6 (TRIP6). These zyxin family members display patterns of expression that significantly overlap that of zyxin. Western blot analysis indicates that there is no detectable upregulation of either LPP or TRIP6 expression in tissues derived from zyxin-null mice. Because zyxin family members may have overlapping functions, a comprehensive understanding of the role of these proteins in the mouse will require the generation of compound mutations in which multiple zyxin family members are simultaneously compromised.
桩蛋白是一种进化上保守的蛋白质,它集中在细胞粘附部位,在那里它与细胞骨架调节因子 Enabled(Ena)/血管舒张刺激磷蛋白(VASP)家族的成员相关联,并被认为在细胞骨架动力学和信号传导中发挥作用。在整个小鼠胚胎发育过程中都能检测到桩蛋白转录本,并且该蛋白在成年小鼠中广泛表达。在这里,我们使用反向遗传学方法来研究小鼠中桩蛋白功能丧失的后果。缺乏桩蛋白功能的小鼠是有活力且可育的,并且在所检查的任何器官中均未显示出明显的组织学异常。由于桩蛋白有助于 Ena/VASP 家族成员在某些亚细胞位置的定位,我们仔细检查了桩蛋白基因敲除(zyxin(-/-))小鼠,以寻找当小鼠中 Ena/VASP 蛋白受损时所观察到的缺陷证据。具体而言,我们评估了血小板功能、神经系统发育和皮肤结构,但在这些系统中未检测到任何缺陷。桩蛋白是一个蛋白质家族的创始成员,该家族还包括脂肪瘤优先结合蛋白(LPP)和甲状腺受体相互作用蛋白 6(TRIP6)。这些桩蛋白家族成员的表达模式与桩蛋白的表达模式有显著重叠。蛋白质印迹分析表明,在源自桩蛋白基因缺失小鼠的组织中,未检测到 LPP 或 TRIP6 表达的上调。由于桩蛋白家族成员可能具有重叠功能,要全面了解这些蛋白质在小鼠中的作用,将需要产生复合突变,使多个桩蛋白家族成员同时受损。