Kaya Kurt Tubanur, Suzen Alev, Ozdemir Cilem, Edgunlu Tuba, Kurt Muhammed, Gungormus Ramazan
Muğla Sıtkı Koçman University, Faculty of Medicine, Department of Pediatric Surgery, Muğla, Turkey.
Muğla Sıtkı Koçman University, Faculty of Medicine, Department of Pediatric Surgery, Muğla, Turkey.
J Pediatr Urol. 2025 Apr;21(2):497-503. doi: 10.1016/j.jpurol.2024.12.008. Epub 2024 Dec 14.
Cryptorchidism impairs sperm development and increases the risk of infertility and testicular cancer. Estrogen signalling is critical for proper descent of the testicles, and hormonal imbalances play a role in cryptorchidism. CYP19, also known as aromatase, encodes an enzyme that converts testosterone, a male sex hormone, into estradiol, the main form of estrogen. While estrogen receptors can be activated by estrogen, CYP19 plays an important role in regulating local estrogen levels in tissues such as the testes, as it affects cellular processes controlled by estrogen receptors.
We aimed to investigate the relationship between polymorphisms in the CYP19 (rs2414096) and ESR2 (rs4986938) and susceptibility to cryptorchidism.
We genotyped CYP19 (rs2414096) and ESR2 (rs4986938) polymorphisms using PCR-RFLP in DNA isolated from blood samples of cryptorchid children (n = 41) and healthy controls (n = 42). The differences in genotype and allele frequencies between the cryptorchidism and control groups were calculated using the chi-square (χ2).
In cryptorchidism patients, genotypes (p < 0.05) and allele frequencies (p < 0.05) of CYP19 (rs2414096) and ESR2 (rs4986938) polymorphisms showed significant differences compared to controls. CYP19 (rs2414096) and ESR2 (rs4986938), the AA genotype and A allele frequency may be risk factors for cryptorchidism, while the GG genotype and G allele may be protective against cryptorchidism.
Our study provides compelling evidence for a significant association between polymorphisms in the CYP19 (rs2414096) and ESR2 (rs4986938) polymorphisms and cryptorchidism susceptibility. These findings extend previous research implicating genetic factors in testicular descent but go further by identifying specific polymorphisms associated with increased risk. While previous studies have suggested a role for estrogen imbalance in cryptorchidism, our results provide concrete genetic evidence supporting this hypothesis. The relatively small sample size necessitates replication in larger cohorts to further validate our findings. Additionally, functional studies are warranted to elucidate the precise mechanisms by which these genetic variants influence cryptorchidism risk. Despite these limitations, our results represent a significant step in unravelling the complex aetiology of this common birth defect.
Our findings show that polymorphisms in CYP19 (rs2414096) and ESR2 (rs4986938), which play a role in estrogen production, are significantly associated with cryptorchidism susceptibility, highlighting the potential role of estrogen pathway variations in testicular descent.
隐睾症会损害精子发育,增加不孕不育和睾丸癌的风险。雌激素信号传导对于睾丸的正常下降至关重要,激素失衡在隐睾症中起作用。CYP19,也称为芳香化酶,编码一种将男性性激素睾酮转化为雌激素的主要形式雌二醇的酶。虽然雌激素受体可以被雌激素激活,但CYP19在调节睾丸等组织中的局部雌激素水平方面起着重要作用,因为它影响由雌激素受体控制的细胞过程。
我们旨在研究CYP19(rs2414096)和ESR2(rs4986938)基因多态性与隐睾症易感性之间的关系。
我们使用聚合酶链反应-限制性片段长度多态性(PCR-RFLP)对从隐睾儿童(n = 41)和健康对照(n = 42)的血液样本中分离的DNA进行CYP19(rs2414096)和ESR2(rs4986938)基因多态性基因分型。使用卡方检验(χ2)计算隐睾症组和对照组之间基因型和等位基因频率的差异。
在隐睾症患者中,CYP19(rs2414096)和ESR2(rs4986938)基因多态性的基因型(p < 0.05)和等位基因频率(p < 0.05)与对照组相比有显著差异。CYP19(rs2414096)和ESR2(rs4986938),AA基因型和A等位基因频率可能是隐睾症的危险因素,而GG基因型和G等位基因可能对隐睾症有保护作用。
我们的研究为CYP19(rs2414096)和ESR2(rs4986938)基因多态性与隐睾症易感性之间的显著关联提供了有力证据。这些发现扩展了先前关于遗传因素参与睾丸下降的研究,但通过识别与风险增加相关的特定多态性进一步深入。虽然先前的研究表明雌激素失衡在隐睾症中起作用,但我们的结果提供了支持这一假设的具体遗传证据。相对较小的样本量需要在更大的队列中进行重复以进一步验证我们的发现。此外,有必要进行功能研究以阐明这些基因变异影响隐睾症风险的确切机制。尽管有这些局限性,我们的结果代表了在揭示这种常见出生缺陷的复杂病因方面迈出的重要一步。
我们的研究结果表明,在雌激素产生中起作用的CYP19(rs2414096)和ESR2(rs4986938)基因多态性与隐睾症易感性显著相关,突出了雌激素途径变异在睾丸下降中的潜在作用。
