青少年时期环境和遗传对青春期发育、唾液睾酮和雌二醇的双生子模型研究。
Twin models of environmental and genetic influences on pubertal development, salivary testosterone, and estradiol in adolescence.
机构信息
Department of Psychology, University of Texas at Austin, Austin, TX, USA.
Department of Psychology, Northwestern University, Evanston, IL, USA.
出版信息
Clin Endocrinol (Oxf). 2018 Feb;88(2):243-250. doi: 10.1111/cen.13522. Epub 2017 Dec 14.
OBJECTIVE
Research on sources of variation in adolescent's gonadal hormone levels is limited. We sought to decompose individual differences in adolescent testosterone, estradiol, and pubertal status, into genetic and environmental components.
DESIGN
A sample of male and female adolescent twins from the greater Austin and Houston areas provided salivary samples, with a subset of participants providing longitudinal data at 2 waves.
PARTICIPANTS
The sample included 902 adolescent twins, 49% female, aged 13-20 years (M = 15.91) from the Texas Twin Project. Thirty-seven per cent of twin pairs were monozygotic; 30% were same-sex dizygotic (DZ) pairs; and 33% were opposite-sex DZ pairs.
MEASUREMENTS
Saliva samples were assayed for testosterone and estradiol using chemiluminescence immunoassays. Pubertal status was assessed using self-report. Biometric decompositions were performed using multivariate quantitative genetic models.
RESULTS
Genetic factors contributed substantially to variation in testosterone in males and females in the follicular phase of their menstrual cycle (h = 60% and 51%, respectively). Estradiol was also genetically influenced in both sexes, but was predominately influenced by nonshared environmental factors. The correlation between testosterone and estradiol was mediated by a combination of genetic and environmental influences for males and females. Genetic and environmental influences on hormonal concentrations were only weakly correlated with self-reported pubertal status, particularly for females.
CONCLUSIONS
Between-person variability in adolescent gonadal hormones and their interrelationship reflects both genetic and environmental processes, with both testosterone and estradiol containing sizeable heritable components.
目的
对青少年性腺激素水平变化的来源进行研究的相关文献有限。本研究旨在将青少年睾酮、雌二醇和青春期发育状态的个体差异分解为遗传和环境因素。
设计
来自奥斯汀和休斯顿地区的男性和女性青少年双胞胎样本提供了唾液样本,其中一部分参与者提供了 2 波的纵向数据。
参与者
样本包括来自德克萨斯州双胞胎项目的 902 名青少年双胞胎,其中 49%为女性,年龄在 13-20 岁(M=15.91)。37%的双胞胎是同卵双胞胎;30%是同性别异卵双胞胎(DZ);33%是异性别 DZ 双胞胎。
测量
使用化学发光免疫分析法测定唾液样本中的睾酮和雌二醇。使用自我报告评估青春期发育状况。使用多变量数量遗传模型进行生物测定分解。
结果
遗传因素对男性和女性在月经周期滤泡期的睾酮水平变化有很大影响(h 值分别为 60%和 51%)。在两性中,雌二醇也受到遗传影响,但主要受非共享环境因素影响。男性和女性的睾酮和雌二醇之间的相关性是由遗传和环境因素共同介导的。荷尔蒙浓度的遗传和环境影响与自我报告的青春期发育状况仅存在微弱相关性,特别是对于女性。
结论
青少年性腺激素的个体间变异性及其相互关系反映了遗传和环境过程,睾酮和雌二醇都包含大量可遗传的成分。
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