Diggle Christine P, Martinez-Garay Isabel, Molnar Zoltan, Brinkworth Martin H, White Ed, Fowler Ewan, Hughes Ruth, Hayward Bruce E, Carr Ian M, Watson Christopher M, Crinnion Laura, Asipu Aruna, Woodman Ben, Coletta P Louise, Markham Alexander F, Dear T Neil, Bonthron David T, Peckham Michelle, Morrison Ewan E, Sheridan Eamonn
School of Medicine, St James's University Hospital, University of Leeds, Leeds, United Kingdom.
Department of Physiology, Anatomy and Genetics, University of Oxford, Oxford, United Kingdom.
PLoS One. 2017 Apr 7;12(4):e0174264. doi: 10.1371/journal.pone.0174264. eCollection 2017.
Tubulin alpha 8 (Tuba8) is the most divergent member of the highly conserved alpha tubulin family, and uniquely lacks two key post-translational modification sites. It is abundantly expressed in testis and muscle, with lower levels in the brain. We previously identified homozygous hypomorphic TUBA8 mutations in human subjects with a polymicrogyria (PMG) syndrome, suggesting its involvement in development of the cerebral cortex. We have now generated and characterized a Tuba8 knockout mouse model. Homozygous mice were confirmed to lack Tuba8 protein in the testis, but did not display PMG and appeared to be neurologically normal. In response to this finding, we re-analyzed the human PMG subjects using whole exome sequencing. This resulted in identification of an additional homozygous loss-of-function mutation in SNAP29, suggesting that SNAP29 deficiency, rather than TUBA8 deficiency, may underlie most or all of the neurodevelopmental anomalies in these subjects. Nonetheless, in the mouse brain, Tuba8 specifically localised to the cerebellar Purkinje cells, suggesting that the human mutations may affect or modify motor control. In the testis, Tuba8 localisation was cell-type specific. It was restricted to spermiogenesis with a strong acrosomal localization that was gradually replaced by cytoplasmic distribution and was absent from spermatozoa. Although the knockout mice were fertile, the localisation pattern indicated that Tuba8 may have a role in spermatid development during spermatogenesis, rather than as a component of the mature microtubule-rich flagellum itself.
微管蛋白α8(Tuba8)是高度保守的α微管蛋白家族中差异最大的成员,并且独特地缺少两个关键的翻译后修饰位点。它在睾丸和肌肉中大量表达,在大脑中的表达水平较低。我们之前在患有多小脑回(PMG)综合征的人类受试者中鉴定出纯合的低表达型TUBA8突变,提示其参与大脑皮质的发育。我们现在构建并鉴定了一个Tuba8基因敲除小鼠模型。纯合小鼠在睾丸中被证实缺乏Tuba8蛋白,但未表现出PMG,并且在神经学上似乎是正常的。针对这一发现,我们使用全外显子组测序对人类PMG受试者进行了重新分析。这导致在SNAP29中鉴定出另外一个纯合的功能丧失突变,提示SNAP29缺陷而非TUBA8缺陷可能是这些受试者中大多数或所有神经发育异常的基础。尽管如此,在小鼠大脑中,Tuba8特异性定位于小脑浦肯野细胞,提示人类突变可能影响或改变运动控制。在睾丸中,Tuba8的定位具有细胞类型特异性。它仅限于精子发生过程,在顶体有强烈定位,随后逐渐被细胞质分布取代,并且在精子中不存在。虽然基因敲除小鼠是可育的,但定位模式表明Tuba8可能在精子发生过程中的精子细胞发育中起作用,而不是作为富含微管的成熟鞭毛本身的一个组成部分。
