Harris Elizabeth S, Rouiller Isabelle, Hanein Dorit, Higgs Henry N
Department of Biochemistry, Dartmouth Medical School, Hanover, New Hampshire 03755, USA.
J Biol Chem. 2006 May 19;281(20):14383-92. doi: 10.1074/jbc.M510923200. Epub 2006 Mar 23.
Formin proteins are regulators of actin dynamics, mediating assembly of unbranched actin filaments. These multidomain proteins are defined by the presence of a Formin Homology 2 (FH2) domain. Previous work has shown that FH2 domains bind to filament barbed ends and move processively at the barbed end as the filament elongates. Here we report that two FH2 domains, from mammalian FRL1 and mDia2, also bundle filaments, whereas the FH2 domain from mDia1 cannot under similar conditions. The FH2 domain alone is sufficient for bundling. Bundled filaments made by either FRL1 or mDia2 are in both parallel and anti-parallel orientations. A novel property that might contribute to bundling is the ability of the dimeric FH2 domains from both FRL1 and mDia2 to dissociate and recombine. This property is not observed for mDia1. A difference between FRL1 and mDia2 is that FRL1-mediated bundling is competitive with barbed end binding, whereas mDia2-mediated bundling is not. Mutation of a highly conserved isoleucine residue in the FH2 domain does not inhibit bundling by either FRL1 or mDia2, but inhibits barbed end activities. However, the severity of this mutation varies between formins. For mDia1 and mDia2, the mutation strongly inhibits all effects of barbed end binding, but affects FRL1 much less strongly. Furthermore, our results suggest that the Ile mutation affects processivity. Taken together, our data suggest that the bundling activities of FRL1 and mDia2, while producing phenotypically similar bundles, differ in mechanistic detail.
formin蛋白是肌动蛋白动力学的调节因子,介导无分支肌动蛋白丝的组装。这些多结构域蛋白由formin同源2(FH2)结构域的存在来定义。先前的研究表明,FH2结构域与丝的带刺末端结合,并在丝伸长时在带刺末端连续移动。在此我们报告,来自哺乳动物FRL1和mDia2的两个FH2结构域也能使丝成束,而来自mDia1的FH2结构域在类似条件下则不能。仅FH2结构域就足以实现成束。由FRL1或mDia2形成的成束丝既有平行取向也有反平行取向。FRL1和mDia2的二聚体FH2结构域解离和重组的能力可能是有助于成束的一个新特性。mDia1没有观察到这种特性。FRL1和mDia2之间的一个差异是,FRL1介导的成束与带刺末端结合具有竞争性,而mDia2介导的成束则不具有竞争性。FH2结构域中一个高度保守的异亮氨酸残基的突变并不抑制FRL1或mDia2的成束,但会抑制带刺末端的活性。然而,这种突变的严重程度在不同的formin之间有所不同。对于mDia1和mDia2,该突变强烈抑制带刺末端结合的所有效应,但对FRL1的影响要小得多。此外,我们的结果表明异亮氨酸突变会影响连续性。综上所述,我们的数据表明,FRL1和mDia2的成束活性虽然产生表型相似的束,但在机制细节上有所不同。
