Department of Psychology, The University of Texas at Austin.
Population Research Center, The University of Texas at Austin.
Psychol Sci. 2023 Feb;34(2):170-185. doi: 10.1177/09567976221122760. Epub 2022 Dec 2.
Children's cognitive functioning and educational performance are socially stratified. Social inequality, including classism and racism, may operate partly via epigenetic mechanisms that modulate neurocognitive development. Following preregistered analyses of data from 1,183 participants, ages 8 to 19 years, from the Texas Twin Project, we found that children growing up in more socioeconomically disadvantaged families and neighborhoods and children from marginalized racial/ethnic groups exhibit DNA methylation profiles that, in previous studies of adults, were indicative of higher chronic inflammation, lower cognitive functioning, and a faster pace of biological aging. Furthermore, children's salivary DNA methylation profiles were associated with their performance on in-laboratory tests of cognitive and academic skills, including processing speed, general executive function, perceptual reasoning, verbal comprehension, reading, and math. Given that the DNA methylation measures that we examined were originally developed in adults, our results suggest that children show molecular signatures that reflect the early life social determinants of lifelong disparities in health and cognition.
儿童的认知功能和教育表现存在社会分层。社会不平等,包括阶级主义和种族主义,可能部分通过调节神经认知发展的表观遗传机制起作用。根据对来自德克萨斯双胞胎项目的 1183 名 8 至 19 岁参与者数据的预先注册分析,我们发现,在社会经济条件较差的家庭和社区中成长的儿童以及来自边缘化种族/族裔群体的儿童,其 DNA 甲基化谱与先前在成年人中研究表明的更高慢性炎症、更低认知功能和更快的生物学衰老速度有关。此外,儿童的唾液 DNA 甲基化谱与他们在认知和学术技能的实验室测试中的表现相关,包括处理速度、一般执行功能、感知推理、语言理解、阅读和数学。鉴于我们检查的 DNA 甲基化测量最初是在成年人中开发的,我们的结果表明,儿童表现出反映终身健康和认知差异的早期生活社会决定因素的分子特征。