Nsun7(A11337)缺失突变会导致其蛋白质水平降低,并与不育男性的精子运动缺陷有关。
The Nsun7 (A11337)-deletion mutation, causes reduction of its protein rate and associated with sperm motility defect in infertile men.
作者信息
Khosronezhad Nahid, Hosseinzadeh Colagar Abasalt, Mortazavi Seyed Mohsen
机构信息
Department of Molecular and Cell Biology, Faculty of Basic Sciences, University of Mazandaran, Babolsar, CP 47416-95447, Iran.
出版信息
J Assist Reprod Genet. 2015 May;32(5):807-15. doi: 10.1007/s10815-015-0443-0. Epub 2015 Feb 22.
PURPOSE
Recent studies have shown that genetic abnormalities may be responsible for most unknown cases of male infertility. Human Nsun7 gene, which is located on chromosome4, has a role in sperm motility by encoding the putative methyltransferase Nsun7 protein. The aim of the present study was to investigate the mutations of exon4 in the Nsun7 gene, which is associated with sperm motility defect.
METHODS
Semen samples including those of fertile normospermic (normal), infertile oligospermic (with normal sperm motility), and infertile asthenospermic (with reduced sperm motility) men were collected from the Omid and Fatemezahra IVF centres (Babol, Iran). These samples were then analysed on the basis of World Health Organization guidelines using the general phenol-chloroform DNA extraction method. Exon4 was amplified using Sun-F/Sun-R primers. Samples from asthenospermic men, which showed different patterns of movement on single-strand conformation polymorphism compared with normal and oligospermic samples, were identified and subjected to sequencing for further identification of possible mutations.
RESULTS
Analysis of extracted sperm proteins showed that the rate of Nsun7 decreased. Likewise, direct sequencing of PCR products, along with their analysis, confirmed the deletion mutation of adenine in location 11337 of the Nsun7 gene in asthenospermic men. Comparison of normal and mutant protein structures of Nsun7 indicated that the A11337-deletion of the exon4 resulted in the valine residues-157 with GTA-codon in normospermic replaced with TAG-early stop codon in asthenospermic samples, causing an abortive protein product with amino acid sequence shorter than normal. The secondary structure of the protein, the protein folding, and ligand binding sites were changed, indicating the impairment of the protein function.
CONCLUSIONS
Because the Nsun7 gene products have a role in sperm motility, it will lead to impairment in the activity of the protein and motility of sperm flagella as well as male infertility if a mutation occurs in this gene.
目的
近期研究表明,基因异常可能是大多数不明原因男性不育病例的病因。位于4号染色体上的人类Nsun7基因,通过编码假定的甲基转移酶Nsun7蛋白,在精子活力方面发挥作用。本研究的目的是调查与精子活力缺陷相关的Nsun7基因外显子4的突变情况。
方法
从奥米德和法特梅扎赫拉体外受精中心(伊朗巴博勒)收集精液样本,包括正常生育的正常精子症(正常)男性、不育的少精子症(精子活力正常)男性和不育的弱精子症(精子活力降低)男性的样本。然后根据世界卫生组织指南,使用常规酚-氯仿DNA提取方法对这些样本进行分析。使用Sun-F/Sun-R引物扩增外显子4。识别出弱精子症男性样本中与正常和少精子症样本相比在单链构象多态性上显示出不同迁移模式的样本,并进行测序以进一步鉴定可能的突变。
结果
对提取的精子蛋白的分析表明,Nsun7的水平降低。同样,对PCR产物的直接测序及其分析证实,弱精子症男性中Nsun7基因第11337位的腺嘌呤缺失突变。Nsun7正常和突变蛋白结构的比较表明,外显子4的A11337缺失导致正常精子症中具有GTA密码子的缬氨酸残基-157被弱精子症样本中的TAG提前终止密码子取代,产生一种氨基酸序列比正常短的无功能蛋白产物。蛋白质的二级结构、蛋白质折叠和配体结合位点发生了变化,表明蛋白质功能受损。
结论
由于Nsun7基因产物在精子活力中起作用,如果该基因发生突变,将导致蛋白质活性和精子鞭毛活力受损以及男性不育。
Zotero 插件