Regnard C, Audebert S, Denoulet P, Eddé B
Laboratoire de Biochimie Cellulaire, CNRS UPR 9065, Paris, France.
Biochemistry. 1998 Jun 9;37(23):8395-404. doi: 10.1021/bi9804131.
In this work, we report on a novel enzyme, tubulin polyglutamylase, which catalyzes the posttranslational formation of polyglutamyl side chains onto alpha- and beta-tubulin. The length of the polyglutamyl side chain regulates the interaction between tubulin and various microtubule-associated proteins. We first developed an in vitro glutamylation assay. Activity measured in brain, a tissue particularly enriched with glutamylated tubulin, decreases during postnatal development. Thus, brains from 3-day-old mice were chosen as the starting material, and the enzyme was purified approximately 1000-fold. Its Mr was estimated to be 360K and its sedimentation coefficient 10 s. The enzyme catalyzes the MgATP-dependent addition of l-glutamate onto tubulin subunits. Microtubules are much better substrates than unpolymerized tubulin, and the reaction is very specific for glutamate, other amino acids or glutamate analogues not being substrates. Moreover, glutamyl units are added sequentially onto tubulin, leading to progressive elongation of the polyglutamyl side chains. Side chains of one to six or seven glutamyl units were obtained with microtubules, whereas much longer side chains (up to 15-20 units) were formed with unpolymerized tubulin. Interestingly, such very long polyglutamyl side chains were recently detected in some situations in vivo.
在本研究中,我们报道了一种新型酶——微管蛋白聚谷氨酰胺酶,它催化α-和β-微管蛋白上聚谷氨酰侧链的翻译后形成。聚谷氨酰侧链的长度调节微管蛋白与各种微管相关蛋白之间的相互作用。我们首先开发了一种体外谷氨酰化测定法。在富含谷氨酰化微管蛋白的脑组织中测得的活性在出生后发育过程中降低。因此,选用3日龄小鼠的脑作为起始材料,该酶被纯化了约1000倍。其分子量估计为360K,沉降系数为10 s。该酶催化MgATP依赖的L-谷氨酸添加到微管蛋白亚基上。微管比未聚合的微管蛋白是更好的底物,并且该反应对谷氨酸非常特异,其他氨基酸或谷氨酸类似物不是底物。此外,谷氨酰单元依次添加到微管蛋白上,导致聚谷氨酰侧链逐渐延长。用微管获得了一到六个或七个谷氨酰单元的侧链,而用未聚合的微管蛋白形成了长得多的侧链(多达15 - 20个单元)。有趣的是,最近在体内的某些情况下检测到了如此非常长的聚谷氨酰侧链。
