Halder A, Kumar P, Jain M, Iyer V K
Department of Reproductive Biology, All India Institute of Medical Sciences, New Delhi, India.
Department of Pathology, All India Institute of Medical Sciences, New Delhi, India.
Andrology. 2017 May;5(3):460-472. doi: 10.1111/andr.12330. Epub 2017 Feb 19.
Testicular maturation arrest is characterized by interruption of germ cell development and differentiation. Genetic factors play important role in the causation of human disease, including male infertility. The objective was to study copy number variations in testicular maturation arrest using single nucleotide polymorphism (SNP) microarray technique. Conventional cytogenetics, targeted fluorescence in situ hybridization (FISH) and sequence-tagged site (STS) polymerase chain reaction (PCR) were used to confirm some of the SNP microarray findings. SNP microarray on 68 cases of testicular maturation arrest detected copy number variations (CNVs) mostly on sex chromosomes involving pseudoautosomal regions (PAR) 1, 2 and 3 as well as azoospermic factors (AZFs) besides three cases of chromosomal abnormalities (two Klinefelter syndromes and one case of dicentric Y). The AZF deletion was observed in 14 (20.6%) cases and the AZFc gain was observed in 6 (8.8%) cases. PAR 1 and 2 CNVs was observed in 5 (7.3%) cases. PAR 3 CNVs was detected in 19 cases and 2 controls. The TSPY2 gene gain (within PAR 3 CNVs) was observed in 16 cases and 1 control. CNV containing autosomal genes possibly associated with male infertility in this study was SPATA31A2-A5 (9p12) in five cases. In this study, SNP microarray identified possible underlying aetiology in 55.9% (38/68) cases besides identifying minimal critical region of AZFc deletion as 0.51 mb (Y:24356128-24873665) involving TTY5, RBMY2FP, RBMY1F, RBMY1J, TTY6 and PRY genes. SNP microarray seems superior, sensitive, specific as well as cost-effective method and has potential to be the first tier investigations to explore underlying genomic factors of testicular maturation arrest. The present study is an attempt to find out probable genomic factors with idiopathic testicular maturation arrest.
睾丸成熟停滞的特征是生殖细胞发育和分化的中断。遗传因素在包括男性不育症在内的人类疾病病因中起着重要作用。目的是使用单核苷酸多态性(SNP)微阵列技术研究睾丸成熟停滞中的拷贝数变异。采用传统细胞遗传学、靶向荧光原位杂交(FISH)和序列标签位点(STS)聚合酶链反应(PCR)来证实一些SNP微阵列的发现。对68例睾丸成熟停滞病例进行SNP微阵列检测,发现拷贝数变异(CNV)大多发生在性染色体上,涉及假常染色体区域(PAR)1、2和3以及无精子症因子(AZF),此外还有3例染色体异常(2例克兰费尔特综合征和1例双着丝粒Y)。在14例(20.6%)病例中观察到AZF缺失,在6例(8.8%)病例中观察到AZFc增加。在5例(7.3%)病例中观察到PAR 1和2的CNV。在19例病例和2例对照中检测到PAR 3的CNV。在16例病例和1例对照中观察到TSPY2基因增加(在PAR 3的CNV内)。本研究中,含有可能与男性不育相关的常染色体基因的CNV是5例中的SPATA31A2 - A5(9p12)。在本研究中,SNP微阵列除了确定AZFc缺失的最小关键区域为0.51 Mb(Y:24356128 - 24873665),涉及TTY5、RBMY2FP、RBMY1F、RBMY1J、TTY6和PRY基因外,还在55.9%(38/68)的病例中确定了可能的潜在病因。SNP微阵列似乎是一种优越、灵敏、特异且具有成本效益的方法,有潜力成为探索睾丸成熟停滞潜在基因组因素的一线研究方法。本研究旨在找出特发性睾丸成熟停滞可能的基因组因素。
