Department of Psychology.
Dev Psychol. 2022 Oct;58(10):1832-1848. doi: 10.1037/dev0001393. Epub 2022 Jun 30.
Dysregulation of biological stress response, as measured by cortisol output, has been a primary candidate mechanism for how social experiences become biologically embedded. Cortisol is the primary output of the hypothalamic pituitary adrenal (HPA) axis. Cortisol levels vary systematically across the day and change in response to both sudden, acute stress experiences as well as prolonged exposure to environmental stress. Using data from 8- to 15-year-old twins in the Texas Twin Project, we investigate the extent to which genetic influences are shared across different measures of cortisol output: chronic cortisol accumulations in hair ( = 1,104), diurnal variation in salivary output ( = 488), and salivary response to a standardized, acute in-laboratory stressor ( = 537). Multivariate twin models indicate that genetic factors regulating cortisol response to the in-laboratory stressor are separable from those regulating baseline cortisol levels, naturally occurring diurnal variation in cortisol, and hair cortisol levels. These findings illustrate that novel environments can reveal unique genetic variation, reordering people in terms of their observed phenotype rather than only magnifying or mitigating preexisting differences. (PsycInfo Database Record (c) 2022 APA, all rights reserved).
生物应激反应的失调,如皮质醇的分泌,可以作为社会经历在生物学上被嵌入的主要候选机制。皮质醇是下丘脑-垂体-肾上腺 (HPA) 轴的主要输出物。皮质醇水平在一天中会有规律地变化,并对突发的急性应激体验以及长时间暴露于环境应激做出反应。利用来自德克萨斯州双胞胎项目的 8 至 15 岁双胞胎的数据,我们研究了遗传影响在不同皮质醇输出测量指标上的共享程度:头发中的慢性皮质醇积累(n = 1,104)、唾液分泌的日间变化(n = 488)以及唾液对标准化急性实验室应激源的反应(n = 537)。多变量双胞胎模型表明,调节皮质醇对实验室应激源反应的遗传因素与调节基础皮质醇水平、皮质醇自然发生的日间变化以及头发皮质醇水平的因素是可分离的。这些发现表明,新环境可以揭示独特的遗传变异,根据观察到的表型对人进行重新排序,而不仅仅是放大或减轻先前存在的差异。(PsycInfo 数据库记录(c)2022 APA,保留所有权利)。
