Senataxin protects the genome: Implications for neurodegeneration and other abnormalities.

Rare diseases (Austin, Tex.) Pub Date : 2013-06-06 eCollection Date: 2013-01-01 DOI:10.4161/rdis.25230
Martin F Lavin, Abrey J Yeo, Olivier J Becherel
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引用次数: 15

Abstract

Ataxia oculomotor apraxia type 2 (AOA2) is a rare autosomal recessive disorder characterized by cerebellar atrophy, peripheral neuropathy, loss of Purkinje cells and elevated α-fetoprotein. AOA2 is caused by mutations in the SETX gene that codes for the high molecular weight protein senataxin. Mutations in this gene also cause dominant neurodegenerative disorders. Similar to that observed for other autosomal recessive ataxias, this protein protects the integrity of the genome against oxidative and other forms of DNA damage to reduce the risk of neurodegeneration. Senataxin functions in transcription termination and RNA splicing and it has been shown to resolve RNA/DNA hybrids (R-loops) that arise at transcription pause sites or when transcription is blocked. Recent data suggest that this protein functions at the interface between transcription and DNA replication to minimise the risk of collision and maintain genome stability. Our recent data using SETX gene-disrupted mice revealed that male mice were defective in spermatogenesis and were infertile. DNA double strand-breaks persisted throughout meiosis and crossing-over failed in SETX mutant mice. These changes can be explained by the accumulation of R-loops, which interfere with Holiday junctions and crossing-over. We also showed that senataxin was localized to the XY body in pachytene cells and was involved in transcriptional silencing of these chromosomes. While the defect in meiotic recombination was striking in these animals, there was no evidence of neurodegeneration as observed in AOA2 patients. We discuss here potentially different roles for senataxin in proliferating and post-mitotic cells.

Senataxin保护基因组:对神经变性和其他异常的影响。
2型共济失调动眼肌失用症(AOA2)是一种罕见的常染色体隐性遗传病,以小脑萎缩、周围神经病变、浦肯野细胞缺失和α-胎蛋白升高为特征。AOA2是由编码高分子量蛋白senataxin的SETX基因突变引起的。该基因的突变也会导致显性神经退行性疾病。与观察到的其他常染色体隐性共济失调相似,这种蛋白质保护基因组的完整性免受氧化和其他形式的DNA损伤,以降低神经变性的风险。Senataxin在转录终止和RNA剪接中起作用,并已被证明可以解决转录暂停位点或转录受阻时产生的RNA/DNA杂交(r -环)。最近的数据表明,这种蛋白质在转录和DNA复制之间的界面上起作用,以尽量减少碰撞的风险并保持基因组的稳定性。我们最近使用SETX基因破坏的小鼠的数据显示,雄性小鼠在精子发生方面存在缺陷,并且不育。在SETX突变小鼠中,DNA双链断裂在减数分裂过程中持续存在,杂交失败。这些变化可以用r环的积累来解释,r环干扰假日路口和交叉。我们还发现senataxin定位于粗线细胞的XY小体,并参与了这些染色体的转录沉默。虽然减数分裂重组缺陷在这些动物中是显著的,但没有证据表明AOA2患者出现神经退行性变。我们在这里讨论了senataxin在增殖和有丝分裂后细胞中的潜在不同作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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