De novo cytogenetic alterations in spermatozoa of subfertile males might be due to genome instability associated with idiopathic male infertility: Experimental evidences and Review of the literature

H. Mozdarani, S. Mozdarani
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引用次数: 3

Abstract

Abstract Male infertility is caused by many factors including genetics. Although part of genetic damages are inherited and could be traced in blood leukocytes, but those de novo alterations induced in spermatogenesis are not part of diagnostic work up. De novo alterations might be the cause of many idiopathic conditions of male infertility. The aim of this study was to evaluate DNA damage, sex chromosomal aneuploidy and DAZ microdeletion in sperms of subfertile males in comparison with normal healthy individuals. Whole blood and semen samples were obtained from 75 subfertile and 45 normal men. Semen samples from karyotypically normal subfertile and normal individuals were used for DNA fragmentation, sex chromosome aneuploidy and DAZ microdeletion analysis. Sperm DNA damage was assessed by alkaline comet assay, chromosome aneuploidy and DAZ microdeletion was assessed using a combined primed in situ labeling and fluorescent in situ hybridization (PRINS-FISH) method. A significantly high percentage of DNA fragmentation was observed in subfertile patients compared to control. Similar observation was observed for sex chromosome aneuploidy and DAZ microdeletion (p < 0.01). A relatively small interindividual difference was seen in all three assays performed. However DAZ microdeletion was observed as mosaic form in Y bearing sperms. Results indicate that subfertile males experience higher genome instability in spermatogenesis expressed as DNA damage and consequently sperm chromosomal 220 AIMS Genetics Volume 3, Issue 4, 219-238. aneuploidy or microdeletions. Occurrence of de novo genetic alterations caused by environmental chemico-physical genotoxic agents during spermatogenesis might be one of the causes of idiopathic male infertility.
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不育男性精子的新生细胞遗传学改变可能是由于与特发性男性不育相关的基因组不稳定:实验证据和文献综述
男性不育是由遗传等多种因素引起的。尽管部分基因损伤是遗传的,可以在血液白细胞中追踪到,但那些在精子发生过程中引起的新生改变并不是诊断工作的一部分。新生改变可能是许多男性不育症的特发性疾病的原因。本研究的目的是评估DNA损伤,性染色体非整倍体和DAZ微缺失在不育男性精子与正常健康个体的比较。从75名不育男性和45名正常男性中采集全血和精液样本。对核型正常、低育和正常个体的精液进行DNA片段化、性染色体非整倍体和DAZ微缺失分析。采用碱性彗星法评估精子DNA损伤,采用引物原位标记和荧光原位杂交(PRINS-FISH)联合方法评估染色体非整倍性和DAZ微缺失。与对照组相比,在不育患者中观察到明显高百分比的DNA断裂。性染色体非整倍体和DAZ微缺失也有类似的观察结果(p < 0.01)。在所有三种分析中,个体间差异相对较小。而在携带Y染色体的精子中,DAZ微缺失以镶嵌形式存在。结果表明,不育雄性在精子发生过程中经历了更高的基因组不稳定性,表现为DNA损伤,从而导致精子染色体220。非整倍体或微缺失。环境化学-物理遗传毒性物质在精子发生过程中引起的新生遗传改变可能是男性特发性不育的原因之一。
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AIMS Genetics
AIMS Genetics GENETICS & HEREDITY-
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