Institute of Cardiovascular Physiology, Ruhr-University Bochum, D-44780 Bochum, Germany.
Arch Biochem Biophys. 2013 Aug 1;536(1):38-45. doi: 10.1016/j.abb.2013.05.005. Epub 2013 May 23.
Two distinct isoforms of the Ca-dependent actin filament severing protein gelsolin were identified in cross-striated muscles of the American lobster. The variants (termed LG1 and LG2) differ by an extension of 18 AA at the C-terminus of LG1, and by two substitutions at AA735 and AA736, the two C-terminal amino acids of LG2. Functional comparison of the isolated and purified proteins revealed gelsolin-typical properties for both with differences in Ca(2+)-sensitivity, LG2 being activated at significant lower Ca-concentration than LG1: Half maximal activation for both filament severing and G-actin binding was ∼4×10(-7)M Ca(2+) for LG2 vs. ∼2×10(-6)M Ca(2+) for LG1. This indicates a differential activation for the two isoproteins in vivo where they are present in almost equal amounts in the muscle cell. Structure prediction modeling on the basis of the known structure of mammalian gelsolin shows that LG2 lacks the C-terminal alpha-helix which is involved in contact formation between domains G6 and G2. In both mammalian gelsolin and LG1, this "latch bridge" is assumed to play a critical role in Ca(2+)-activation by keeping gelsolin in a closed, inactive conformation at low [Ca(2+)]. In LG2, the reduced contact between G6 and G2 may be responsible for its activation at low Ca(2+)-concentration.
两种不同的 Ca 依赖性肌动蛋白丝切割蛋白凝胶蛋白同工型在美洲龙虾横纹肌中被鉴定出来。这些变体(称为 LG1 和 LG2)在 C 末端有 18 个氨基酸的延伸不同,LG2 的两个 C 末端氨基酸 AA735 和 AA736 也有两个取代。分离和纯化的蛋白质的功能比较显示出两种蛋白都具有凝胶蛋白的典型特性,只是 Ca(2+)敏感性不同,LG2 在比 LG1 低得多的 Ca 浓度下被激活:对丝状切割和 G 肌动蛋白结合的半最大激活,LG2 为约 4×10(-7)M Ca(2+),而 LG1 为约 2×10(-6)M Ca(2+)。这表明两种同工蛋白在体内的激活存在差异,它们在肌肉细胞中几乎等量存在。基于已知的哺乳动物凝胶蛋白结构的结构预测模型表明,LG2 缺乏 C 末端的α-螺旋,该螺旋参与 G6 和 G2 之间的结构域接触形成。在哺乳动物凝胶蛋白和 LG1 中,这种“闩锁桥”被认为在低 Ca(2+)浓度下通过保持凝胶蛋白处于封闭的、无活性构象来发挥 Ca(2+)激活的关键作用。在 LG2 中,G6 和 G2 之间的接触减少可能是其在低 Ca(2+)浓度下被激活的原因。
