Djuric Zora, Bird Chloe E, Furumoto-Dawson Alice, Rauscher Garth H, Ruffin Mack T, Stowe Raymond P, Tucker Katherine L, Masi Christopher M
University of Michigan, Ann Arbor, MI.
Open Biomark J. 2008 Jan 1;1:7-19. doi: 10.2174/1875318300801010007.
Psychological stress can contribute to health disparities in populations that are confronted with the recurring stress of everyday life. A number of biomarkers have been shown to be affected by psychological stress. These biomarkers include allostatic load, which is a summary measure of the cumulative biological burden of the repeated attempts to adapt to daily stress. Allostatic load includes effects on the hypothalamic-pituitary axis, the sympathetic nervous system and the cardiovascular system. These in turn affect the immune system via bidirectional signaling pathways. Evidence is also building that psychological stress, perhaps via heightened inflammatory states, can increase oxidative stress levels and DNA damage. The inter-relationships of ethnicity, genotype, gene expression and ability to adequately mitigate stress response are just starting to be appreciated. The need to conduct these studies in disadvantaged populations is clear and requires methods to address potential logistical barriers. Biomarkers can help characterize and quantify the biological impact of psychological stress on the etiology of health disparities.
心理压力会导致面临日常生活反复压力的人群出现健康差异。已有多项生物标志物被证明会受到心理压力的影响。这些生物标志物包括应激负荷,它是对反复尝试适应日常压力所累积的生物学负担的一种综合衡量。应激负荷包括对下丘脑 - 垂体轴、交感神经系统和心血管系统的影响。这些又通过双向信号通路影响免疫系统。也有越来越多的证据表明,心理压力可能通过加剧炎症状态,增加氧化应激水平和DNA损伤。种族、基因型、基因表达与充分减轻应激反应能力之间的相互关系才刚刚开始被认识到。在弱势群体中开展这些研究的必要性是显而易见的,并且需要方法来解决潜在的后勤障碍。生物标志物有助于描述和量化心理压力对健康差异病因的生物学影响。