Aillaud Chrystelle, Bosc Christophe, Saoudi Yasmina, Denarier Eric, Peris Leticia, Sago Laila, Taulet Nicolas, Cieren Adeline, Tort Olivia, Magiera Maria M, Janke Carsten, Redeker Virginie, Andrieux Annie, Moutin Marie-Jo
Université Grenoble Alpes, Grenoble Institut des Neurosciences, GIN, F-38000 Grenoble, France Inserm, U1216, F-38000 Grenoble, France.
Université Grenoble Alpes, Grenoble Institut des Neurosciences, GIN, F-38000 Grenoble, France Inserm, U1216, F-38000 Grenoble, France CEA, BIG-GPC, F-38000 Grenoble, France.
Mol Biol Cell. 2016 Feb 15;27(4):640-53. doi: 10.1091/mbc.E15-03-0137. Epub 2016 Jan 6.
Cellular α-tubulin can bear various carboxy-terminal sequences: full-length tubulin arising from gene neosynthesis is tyrosinated, and two truncated variants, corresponding to detyrosinated and Δ2 α‑tubulin, result from the sequential cleavage of one or two C-terminal residues, respectively. Here, by using a novel antibody named 3EG that is highly specific to the -EEEG C-terminal sequence, we demonstrate the occurrence in neuronal tissues of a new αΔ3‑tubulin variant corresponding to α1A/B‑tubulin deleted of its last three residues (EEY). αΔ3‑tubulin has a specific distribution pattern: its quantity in the brain is similar to that of αΔ2-tubulin around birth but is much lower in adult tissue. This truncated α1A/B-tubulin variant can be generated from αΔ2-tubulin by the deglutamylases CCP1, CCP4, CCP5, and CCP6 but not by CCP2 and CCP3. Moreover, using 3EG antibody, we identify a C‑terminally truncated β-tubulin form with the same -EEEG C-terminal sequence. Using mass spectrometry, we demonstrate that β2A/B-tubulin is modified by truncation of the four C-terminal residues (EDEA). We show that this newly identified βΔ4-tubulin is ubiquitously present in cells and tissues and that its level is constant throughout the cell cycle. These new C-terminally truncated α- and β-tubulin variants, both ending with -EEEG sequence, are expected to regulate microtubule physiology. Of interest, the αΔ3-tubulin seems to be related to dynamic microtubules, resembling tyrosinated-tubulin rather than the other truncated variants, and may have critical function(s) in neuronal development.
细胞α-微管蛋白可带有多种羧基末端序列:基因新合成产生的全长微管蛋白是酪氨酸化的,而两种截短变体,分别对应去酪氨酸化的α-微管蛋白和Δ2α-微管蛋白,是由一个或两个C末端残基的顺序切割产生的。在这里,我们使用一种名为3EG的新型抗体,它对-EEEG C末端序列具有高度特异性,证明了在神经元组织中存在一种新的αΔ3-微管蛋白变体,它对应于α1A/B-微管蛋白缺失其最后三个残基(EEY)。αΔ3-微管蛋白具有特定的分布模式:其在大脑中的含量在出生时与αΔ2-微管蛋白相似,但在成年组织中要低得多。这种截短的α1A/B-微管蛋白变体可由脱谷氨酰胺酶CCP1、CCP4、CCP5和CCP6从αΔ2-微管蛋白产生,但不能由CCP2和CCP3产生。此外,使用3EG抗体,我们鉴定出一种具有相同-EEEG C末端序列的C末端截短的β-微管蛋白形式。通过质谱分析,我们证明β2A/B-微管蛋白通过四个C末端残基(EDEA)的截短而被修饰。我们表明,这种新鉴定的βΔ4-微管蛋白普遍存在于细胞和组织中,并且其水平在整个细胞周期中保持恒定。这些新的C末端截短的α-和β-微管蛋白变体,均以-EEEG序列结尾,有望调节微管生理功能。有趣的是,αΔ3-微管蛋白似乎与动态微管有关,类似于酪氨酸化微管蛋白而非其他截短变体,并且可能在神经元发育中具有关键功能。
