Institute of Biomedicine and Translational Medicine, University of Tartu, Ravila St. 19, Tartu 50411, Estonia.
Department of Obstetrics and Gynaecology, University of Tartu, L. Puusepa St. 8, Tartu 51014, Estonia.
Hum Reprod. 2018 May 1;33(5):954-966. doi: 10.1093/humrep/dey057.
Are the genetic variants FSHB -211 G>T (rs10835638), FSHR c.2039 A>G (Asn680Ser, rs6166) and FSHR -29 G>A (rs1394205) associated with serum FSH, LH and anti-Müllerian hormone (AMH) levels in reproductive age women, their menstrual cycle parameters and risk of infertility?
Only the FSHB -211 G>T variant was a major genetic determinant of serum gonadotropin levels in both, eumenorrheic healthy women and female infertility patients, and the T-allele carrier status was enriched among idiopathic infertility cases.
There are accumulating data on common genetic variants modulating reproductive parameters and fertility potential. FSHB -211 G>T represents the strongest acknowledged genetic factor contributing to male circulating gonadotropins levels. Respective data in women are limited and the two previously published studies have reached conflicting results. In addition, previous studies have consistently associated FSHR c.2039 A>G (but not FSHR -29 G>A) with female serum FSH level.
STUDY DESIGN, SIZE, DURATION: The study aimed to test robust and clinically meaningful genetic effects (if present) of the FSHB -211 G>T, FSHR c.2039 A>G and FSHR -29 G>A variants on female basal FSH, LH and AMH levels, and linked reproductive parameters. Genetic association testing was performed in two independent and clinically different study groups (i) eumenorrheic healthy women without known fertility problems (n = 169; 27.6 ± 6.1 years) and (ii) female partners of infertile couples (n = 186; 32.4 ± 4.7 years). The study groups were compared for allelic and genotypic distributions of the analysed variants.
PARTICIPANTS/MATERIALS, SETTING, METHODS: All participants were recruited during the HAPPY PREGNANCY study (2013-2015) at the Women's Clinic, Tartu University Hospital, Estonia. Serum FSH, LH and AMH were measured in the follicular phase (Days 2-6) of the menstrual cycle. All three single nucleotide polymorphisms (SNPs) were genotyped by PCR and Taqman allelic discrimination assay. The effect of the analysed variants on hormonal measurements and menstrual cycle data was assessed using linear regression under additive and recessive models adjusted by age, BMI and smoking status. Results of the two subgroups were combined in a meta-analysis applying the fixed effects model. Restricted maximum likelihood analysis was applied to estimate the proportion of total phenotypic variance of analysed reproductive parameters, explainable by the tested genetic variants. In case-control analysis, genetic association with infertility status was tested using Fisher's exact test and logistic regression adjusted by age, BMI and smoking status.
In both study groups, T-allele of the FSHB -211 G>T was associated with significantly higher serum levels of FSH and LH. Results of the meta-analysis (additive genetic model) remained significant after Bonferroni correction for multiple testing: FSH, T-allele effect 0.80 IU/L, P = 1.2 × 10-3; LH, 1.58 IU/L, P = 1.8×10-8. A more pronounced effect of T-allele of the FSHB -211 G>T on circulating LH was identified as a driving factor to increased LH/FSH ratio (meta-analysis, P = 4.7 × 10-3). In healthy women, the FSHB -211 G>T variant was estimated to explain 3.5 and 7.1% of the total variance of the measured serum FSH and LH levels, respectively. The corresponding numbers for the infertility patients were 1.6 and 10.5%. Women with idiopathic infertility compared to controls exhibited a doubled T-allele frequency (23.6 versus 12.4%; P = 8.9 × 10-3) and a >3-fold excess of TT homozygotes (5.6 versus 1.8%; P = 3.5 × 10-2). The only association of the FSHR c.2039 A>G was detected with serum FSH levels in eumenorrheic healthy women, explaining 3.9% of the total parameter variance (G-allele effect 0.56 IU/L, P = 4.6 × 10-3). In the study group of healthy reproductive age women, the highest serum FSH levels were detected among the FSHB -211 T-allele carriers with the FSHR c.2039 GG-genotype (median 7.7 IU/L). In contrast, the lowest hormone concentrations were measured for the women carrying the combination of the FSHB -211 GG- and the FSHR c.2039 AA-homozygosity (median 5.8 IU/L, P = 9.6 × 10-3). None of the analysed reproductive parameters was associated with the FSHR -29 G>A variant. In our study groups, the tested polymorphisms did not reach significant associations with serum AMH measurements, menstrual cycle length or age at menarche.
LIMITATIONS, REASONS FOR CAUTION: Small sample size and the design involving two clinical groups with different reproductive histories may have limited the capacity to replicate the associations with the age at menarche and length of menstrual cycle, initially reported in large genome-wide association studies. Small sample size may have also affected the accuracy in estimating the contribution of the tested variants to the total phenotypic variance of measured gonadotropin concentrations. The group of eumenorrheic healthy women had its limitations as a control to estimate the true effect of analysed genetic variants on individual's fertility potential as the recruitment strategy had been targeted mostly towards younger women, who may not yet have planned to conceive a child by this age.
We propose that like in men, also in women the FSHB -211 G>T represents a key genetic modulator of circulating gonadotropin, leading to various possible downstream effects on reproductive physiology. This claim is strongly supported by the reports of genome-wide association studies on various female reproductive traits and diseases. In perspective, FSHB -211 G>T may have a diagnostic value in fertility clinics to detect female patients with genetically inherited elevated basal FSH and LH levels.
STUDY FUNDING/COMPETING INTEREST(S): The study was supported by Estonian Science Foundation Grant (ETF9030 for M.L.); Institutional Research Grant (IUT34-12 for M.L.) and European Union through the European Regional Development Fund (project HAPPY PREGNANCY, 3.2.0701.12-0047; for M.L. and K.R.). The funders had no role in study design, data collection and analysis, decision to publish or preparation of the article. We have no competing interests to declare.
Not applicable.
FSHB-211 G>T(rs10835638)、FSHR c.2039 A>G(Asn680Ser,rs6166)和 FSHR-29 G>A(rs1394205)这三种基因变体是否与生殖年龄女性的血清 FSH、LH 和抗苗勒管激素(AMH)水平、月经周期参数以及不孕风险相关?
只有 FSHB-211 G>T 变体是影响 eumenorrheic 健康女性和女性不孕患者血清促性腺激素水平的主要遗传决定因素,并且 T 等位基因携带者在特发性不孕病例中更为丰富。
越来越多的研究数据表明,常见的遗传变异可以调节生殖参数和生育能力。FSHB-211 G>T 是最强的公认遗传因素,可影响男性循环促性腺激素水平。女性相关数据有限,先前的两项研究结果存在冲突。此外,先前的研究一致表明 FSHR c.2039 A>G(但不是 FSHR-29 G>A)与女性血清 FSH 水平相关。
研究设计、规模、持续时间:本研究旨在检测 FSHB-211 G>T、FSHR c.2039 A>G 和 FSHR-29 G>A 这三种变体对女性基础 FSH、LH 和 AMH 水平以及相关生殖参数的稳健且具有临床意义的遗传效应(如果存在)。在两个独立的且具有不同临床特征的研究组中(i)生育能力正常的健康女性(n=169;27.6±6.1 岁)和(ii)不孕夫妇的女性伴侣(n=186;32.4±4.7 岁)中进行了遗传关联测试。比较了分析变体的等位基因和基因型分布。
参与者/材料、设置、方法:所有参与者均于 2013-2015 年在爱沙尼亚塔尔图大学医院妇女诊所参加了 HAPPY PREGNANCY 研究。在月经周期的卵泡期(第 2-6 天)测量血清 FSH、LH 和 AMH。使用聚合酶链反应和 Taqman 等位基因鉴别检测所有三种单核苷酸多态性(SNP)。使用线性回归在年龄、BMI 和吸烟状态的基础上,以加性和隐性模型评估分析变体对激素测量和月经周期数据的影响。将两个亚组的结果合并在采用固定效应模型的荟萃分析中。使用限制性最大似然分析估计分析生殖参数的总表型变异中,可由测试的遗传变体解释的比例。在病例对照分析中,使用 Fisher 精确检验和逻辑回归(调整年龄、BMI 和吸烟状态)检测遗传与不孕状况的关联。
在两个研究组中,FSHB-211 G>T 的 T 等位基因均与血清 FSH 和 LH 水平显著升高相关。经 Bonferroni 校正多重检验后,荟萃分析(加性遗传模型)的结果仍然显著:FSH,T 等位基因效应 0.80IU/L,P=1.2×10-3;LH,1.58IU/L,P=1.8×10-8。FSHB-211 G>T 对循环 LH 的影响更为明显,这是导致 LH/FSH 比值升高的驱动因素(荟萃分析,P=4.7×10-3)。在健康女性中,FSHB-211 G>T 变体分别解释了所测量的血清 FSH 和 LH 水平总方差的 3.5%和 7.1%。不孕患者的相应数值分别为 1.6%和 10.5%。与对照组相比,特发性不孕女性的 FSHB-211 G>T 变体的 T 等位基因频率增加了两倍(23.6%对 12.4%;P=8.9×10-3),TT 纯合子的频率增加了三倍以上(5.6%对 1.8%;P=3.5×10-2)。唯一与 FSHR c.2039 A>G 相关的是 eumenorrheic 健康女性的血清 FSH 水平,其 G-等位基因效应为 0.56IU/L(P=4.6×10-3),解释了 3.9%的总参数方差。在健康育龄女性研究组中,携带 FSHB-211 T-等位基因且具有 FSHR c.2039 GG-基因型的女性血清 FSH 水平最高(中位数 7.7IU/L)。相反,携带 FSHB-211 GG-和 FSHR c.2039 AA-纯合性的女性的激素浓度最低(中位数 5.8IU/L,P=9.6×10-3)。在我们的研究组中,分析的多态性与血清 AMH 测量值、月经周期长度或初潮年龄均无显著关联。
局限性、谨慎的原因:小样本量和涉及两组具有不同生殖史的临床组的设计可能限制了对最初在大型全基因组关联研究中报告的与初潮年龄和月经周期长度相关的关联的复制能力。小样本量也可能影响测试变体对测量促性腺激素浓度的总表型方差的贡献的准确性。生育能力正常的健康女性组存在其局限性,因为其招募策略主要针对年轻女性,她们可能还没有在这个年龄段计划怀孕。
我们提出,与男性一样,女性的 FSHB-211 G>T 也是循环促性腺激素的关键遗传调节剂,可能导致各种可能的下游生殖生理影响。这一说法得到了大量关于各种女性生殖特征和疾病的全基因组关联研究的报告的有力支持。从前景来看,FSHB-211 G>T 可能在生育诊所具有诊断价值,可用于检测具有遗传继承性基础 FSH 和 LH 水平升高的女性患者。
研究资金/利益冲突:本研究由爱沙尼亚科学基金会(ETF9030,用于 ML)和爱沙尼亚科学基金会(IUT34-12,用于 ML 和 KR)以及欧盟通过欧洲区域发展基金(项目 HAPPY PREGNANCY,3.2.0701.12-0047;用于 ML 和 KR)提供支持。研究人员在研究设计、数据收集和分析、发表决定以及准备文章方面没有任何利益冲突。我们没有竞争利益需要申报。
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