Redouane Salaheddine, Harmak Houda, El Hamouchi Adil, Charoute Hicham, Louanjli Noureddine, Malki Abderrahim, Barakat Abdelhamid, Rouba Hassan
Laboratory of Genomics and Human Genetics, Institut Pasteur du Maroc, Casablanca, Morocco.
Genomic Sequencing Laboratory, Institut Pasteur du Maroc, Casablanca, Morocco.
Mol Biol Rep. 2025 Jan 22;52(1):148. doi: 10.1007/s11033-025-10234-7.
Male infertility (MI) is a polygenic condition mainly induced by spermatogenic failure/arrest or systemic disease with a large clinical spectrum. Lately, genetic sequencing allowed the identification of several variants implicated in both aforesaid situations.
In this case study, we performed whole exome sequencing (WES) on the genomic DNA of a 37-year-old Moroccan man with Non-Obstructive Azoospermia. Results revealed two variants in genes highly expressed in testicular tissue. The first was a heterozygous frameshift variant in the AURKC gene, causing a premature stop codon at position 71 of the AURKC protein, critical for spermatogenesis. The second was a hemizygous missense variant in the ABCD1 gene, resulting in an H299R substitution in the ABCD1 protein, essential for transporting Very Long Chain Fatty Acids (VLCFAs) into peroxisomes. ABCD1 variants are linked to X-linked Adrenoleukodystrophy (X-ALD), a disease caused by VLCFAs accumulation in cells. The patient's family pedigree suggests X-linked transmission of MI, which may be a subclinical form of late-onset X-ALD in affected members, indicating that the ABCD1 variant likely affects spermatogenesis. This hypothesis is supported by literature linking X-ALD to MI, ABCD1's high expression in human testes, and the significant impact of the H299R substitution on ABCD1 transporter's molecular dynamics.
These insights highlight the role of genetic mutations in male infertility, demonstrating that spermatogenesis can be disrupted either directly by specific mutations or indirectly through broader genetic disorders, underscoring the importance of comprehensive genetic testing.
男性不育症(MI)是一种多基因疾病,主要由生精功能衰竭/停滞或全身性疾病引起,临床表现范围广泛。最近,基因测序使得能够鉴定出与上述两种情况均相关的多种变异。
在本病例研究中,我们对一名37岁患有非梗阻性无精子症的摩洛哥男性的基因组DNA进行了全外显子组测序(WES)。结果显示在睾丸组织中高表达的基因中有两个变异。第一个是AURKC基因中的杂合移码变异,导致AURKC蛋白第71位出现过早的终止密码子,这对精子发生至关重要。第二个是ABCD1基因中的半合子错义变异,导致ABCD1蛋白中发生H299R替代,这对于将极长链脂肪酸(VLCFAs)转运到过氧化物酶体中至关重要。ABCD1变异与X连锁肾上腺脑白质营养不良(X-ALD)相关,X-ALD是一种由VLCFAs在细胞中积累引起的疾病。患者的家族谱系提示MI为X连锁遗传,这可能是受影响成员中迟发性X-ALD的亚临床形式,表明ABCD1变异可能影响精子发生。将X-ALD与MI联系起来的文献、ABCD1在人类睾丸中的高表达以及H299R替代对ABCD1转运蛋白分子动力学的重大影响均支持这一假说。
这些见解突出了基因突变在男性不育症中的作用,表明精子发生可通过特定突变直接受到受到更更广泛的遗传疾病间接受到破坏,强调了全面基因检测的重要性。
