全面分析与男性不育症相关的染色体断点和候选基因:细胞遗传学研究和表达分析的启示。

IF 2.7 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Mammalian Genome Pub Date : 2024-12-01 Epub Date: 2024-10-02 DOI:10.1007/s00335-024-10074-z
Melika Hossein Garakani, Kianoush Kakavand, Marjan Sabbaghian, Azadeh Ghaheri, Najmeh Sadat Masoudi, Maryam Shahhoseini, Vahideh Hassanzadeh, Mohammadreza Zamanian, Anahita Mohseni Meybodi, Shabnam Zarei Moradi
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引用次数: 0

摘要

该研究旨在调查在染色体平衡结构异常中发现的普遍染色体断点,并确定与男性不育有关的潜在候选基因。这项研究采用了一种结合 RNA-seq 和芯片数据分析的综合方法,能够精确识别候选基因。研究人员对 2009 年至 2022 年期间转诊至罗扬研究所的 2500 名不育男性的细胞遗传学数据进行了分析,其中 391 例符合染色体平衡重排的纳入标准。其中,193 个病例表现出正常变异,被排除在分析之外。通过研究断点,提出了潜在的候选基因。在剩余的 198 例患者中,互变是最常见的异常(129 例),其次是罗伯逊易位(43 例)、倒位(34 例)和插入(3 例)。染色体异常最常见于 13 号染色体(21.1%)、14 号染色体(20.1%)和 1 号染色体(16.3%),其中 13q12、14q12 和 1p36.3 分别是最常见的断裂点。1号染色体对互变(20.2%)和倒位(17.6%)的影响最大,而14号染色体对罗伯逊易位的影响最大(82.2%)。研究结果表明,1p36.3和14q12的断点可能与妊娠前不孕有关,而13q12的断点可能与妊娠和妊娠前不孕都有关。位于共同断点上的几个候选基因被认为可能与男性不育有关。我们利用三个数据库进行了生物信息学分析,研究了与各种不育原因有关的 78 个候选基因的表达模式。在无精子症患者中,19个基因的表达出现了显著差异:15个基因表达下调(TSSK2、SPINK2、TSSK4、CDY1、CFAP70、BPY2、BTG4、FKBP6、PPP2R1B、SPECC1L、CENPJ、SKA3、FGF9、NODAL、CLOCK),4个基因表达上调(HSPB1、MIF、PRF1、ENTPD6)。在无精子症中,有 7 个基因(PRF1、DDX21、KIT、SRD5A3、MTCH1、DDX50、NODAL)出现显著上调。虽然没有畸形精子症的RNA-seq数据,但微阵列数据显示了6个基因的差异表达:3个基因下调(BUB1、KLK4、PIWIL2),3个基因上调(AURKC、NPM2、RANBP2)。这些发现加深了我们对男性不育症分子基础的了解,并为未来的诊断和治疗策略提供了宝贵的见解。
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Comprehensive analysis of chromosomal breakpoints and candidate genes associated with male infertility: insights from cytogenetic studies and expression analyses.

The study aimed to investigate prevalent chromosomal breakpoints identified in balanced structural chromosomal anomalies and to pinpoint potential candidate genes linked with male infertility. This was acchieved through a comprehensive approach combining RNA-seq and microarray data analysis, enabling precise identification of candidate genes. The Cytogenetics data from 2,500 infertile males referred to Royan Research Institute between 2009 and 2022 were analyzed, with 391 cases meeting the inclusion criteria of balanced chromosomal rearrangement. Of these, 193 cases exhibited normal variations and were excluded from the analysis. By examining the breakpoints, potential candidate genes were suggested. Among the remaining 198 cases, reciprocal translocations were the most frequent anomaly (129 cases), followed by Robertsonian translocations (43 cases), inversions (34 cases), and insertions (3 cases).Some patients had more than one chromosomal abnormality. Chromosomal anomalies were most frequently observed in chromosomes 13 (21.1%), 14 (20.1%), and 1 (16.3%) with 13q12, 14q12, and 1p36.3 being the most prevalent breakpoints, respectively. Chromosome 1 contributed the most to reciprocal translocations (20.2%) and inversions (17.6%), while chromosome 14 was the most involved in the Robertsonian translocations (82.2%). The findings suggested that breakpoints at 1p36.3 and 14q12 might be associated with pregestational infertility, whereas breakpoints at 13q12 could be linked to both gestational and pregestational infertility. Several candidate genes located on common breakpoints were proposed as potentially involved in male infertility. Bioinformatics analyses utilizing three databases were conducted to examine the expression patterns of 78 candidate genes implicated in various causes of infertility.‏ In azoospermic individuals, significant differential expression was observed in 19 genes: 15 were downregulated (TSSK2, SPINK2, TSSK4, CDY1, CFAP70, BPY2, BTG4, FKBP6, PPP2R1B, SPECC1L, CENPJ, ‏SKA3, FGF9, NODAL, CLOCK), while four genes were upregulated ‏(‏HSPB1, MIF, PRF1, ENTPD6). In the case of Asthenozoospermia, seven genes showed significant upregulation (PRF1, DDX21, KIT, SRD5A3, MTCH1, DDX50, NODAL). Though RNA-seq data for Teratozoospermia were unavailable, microarray data revealed differential expression insix genes: three downregulated (BUB1, KLK4, PIWIL2) and three upregulated (AURKC, NPM2, RANBP2). These findings enhance our understanding of the molecular basis of male infertility and could provide valuable insights for future diagnostic and therapeutic strategies.

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来源期刊
Mammalian Genome
Mammalian Genome 生物-生化与分子生物学
CiteScore
4.00
自引率
0.00%
发文量
33
审稿时长
6-12 weeks
期刊介绍: Mammalian Genome focuses on the experimental, theoretical and technical aspects of genetics, genomics, epigenetics and systems biology in mouse, human and other mammalian species, with an emphasis on the relationship between genotype and phenotype, elucidation of biological and disease pathways as well as experimental aspects of interventions, therapeutics, and precision medicine. The journal aims to publish high quality original papers that present novel findings in all areas of mammalian genetic research as well as review articles on areas of topical interest. The journal will also feature commentaries and editorials to inform readers of breakthrough discoveries as well as issues of research standards, policies and ethics.
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