Departments of Obstetrics and Gynecology, National Cheng Kung University College of Medicine, Tainan City, Taiwan, Republic of China.
Fertil Steril. 2010 Jan;93(1):141-9. doi: 10.1016/j.fertnstert.2008.09.030. Epub 2008 Nov 5.
To establish a multilocus model for studying the effect of estrogen-related genes on impaired spermatogenesis.
Prospective study.
University-based reproductive clinics and genetics laboratory.
PATIENT(S): A total of 183 oligozoospermatic (sperm count <20 x 10(6)/mL) or azoospermatic males and 120 fertile control males were included.
INTERVENTION(S): A total of 16 single nucleotide polymorphisms (SNPs) from nine genes (estrogen receptors [ER-alpha, ER-beta], estrogen synthesizing/metabolizing genes [CYP17, CYP19A1, HSD17B2, CYP1A1, CYP1B1, COMT], and transport genes [SHBG]) were genotyped. The combinatorial effect of multiple genetic variants was assessed using the multilocus model.
MAIN OUTCOME MEASURE(S): Significantly associated SNPs and odds ratio (OR).
RESULT(S): Six SNPs from five genes (rs180113 of ER-alpha gene, rs1256049 of ER-beta gene, rs1048943 of CYP1A1 gene, rs8191246 of HSD17B2 gene, and rs1799941 along with rs6259 of SHBG gene) were found to be significantly associated with spermatogenic defect. The genes were further divided into three categories according to their functions (receptors, synthesis and metabolism, and transporter). Based on our multilocus risk model, men with risk alleles in two of the three gene families had increased risk of impaired sperm production (OR = 10.5). The OR further increased to 34.6 for men with unfavorable alleles for all three gene families.
CONCLUSION(S): Polymorphisms of estrogen-related genes jointly confer susceptibility to human spermatogenic defect at the prereceptor, receptor, and postreceptor levels in the Taiwanese Han population.
建立多基因模型,研究雌激素相关基因对生精障碍的影响。
前瞻性研究。
大学附属医院生殖门诊和遗传实验室。
共纳入 183 例少精子症(精子计数<20×10⁶/ml)或无精子症男性和 120 例生育能力正常的男性对照。
对来自 9 个基因(雌激素受体[ER-α、ER-β]、雌激素合成/代谢基因[CYP17、CYP19A1、HSD17B2、CYP1A1、CYP1B1、COMT]和转运基因[SHBG])的 16 个单核苷酸多态性(SNP)进行基因分型。使用多基因模型评估多个遗传变异的组合效应。
有统计学意义的 SNP 及比值比(OR)。
从 5 个基因(ER-α 基因的 rs180113、ER-β 基因的 rs1256049、CYP1A1 基因的 rs1048943、HSD17B2 基因的 rs8191246 及 SHBG 基因的 rs1799941 和 rs6259)中发现 6 个 SNP 与生精障碍显著相关。这些基因根据其功能(受体、合成和代谢、转运体)进一步分为 3 类。基于我们的多基因风险模型,在这 3 个基因家族中有 2 个风险等位基因的男性发生精子生成受损的风险增加(OR=10.5)。对于所有 3 个基因家族均具有不利等位基因的男性,OR 进一步增加至 34.6。
在台湾汉族人群中,雌激素相关基因的多态性共同导致了受体前、受体和受体后水平的人类生精障碍易感性。
