Wolf Erika J, Chen Ci-Di, Zhao Xiang, Zhou Zhenwei, Morrison Filomene G, Daskalakis Nikolaos P, Stone Annjanette, Schichman Steven, Grenier Jaclyn Garza, Fein-Schaffer Dana, Huber Bertrand R, Abraham Carmela R, Miller Mark W, Logue Mark W
National Center for PTSD at VA Boston Healthcare System, Boston, MA, USA.
Department of Psychiatry, Boston University School of Medicine, Boston, MA, USA.
Neuropsychopharmacology. 2021 Mar;46(4):721-730. doi: 10.1038/s41386-020-00884-5. Epub 2020 Oct 23.
This study examined the klotho (KL) longevity gene polymorphism rs9315202 and psychopathology, including posttraumatic stress disorder (PTSD), depression, and alcohol-use disorders, in association with advanced epigenetic age in three postmortem cortical tissue regions: dorsolateral and ventromedial prefrontal cortices and motor cortex. Using data from the VA National PTSD Brain Bank (n = 117), we found that rs9315202 interacted with PTSD to predict advanced epigenetic age in motor cortex among the subset of relatively older (>=45 years), white non-Hispanic decedents (corrected p = 0.014, n = 42). An evaluation of 211 additional common KL variants revealed that only variants in linkage disequilibrium with rs9315202 showed similarly high levels of significance. Alcohol abuse was nominally associated with advanced epigenetic age in motor cortex (p = 0.039, n = 114). The rs9315202 SNP interacted with PTSD to predict decreased KL expression via DNAm age residuals in motor cortex among older white non-Hispanics decedents (indirect β = -0.198, p = 0.027). Finally, in dual-luciferase enhancer reporter system experiments, we found that inserting the minor allele of rs9315202 in a human kidney cell line HK-2 genomic DNA resulted in a change in KL transcriptional activities, likely operating via long noncoding RNA in this region. This was the first study to examine multiple forms of psychopathology in association with advanced DNA methylation age across several brain regions, to extend work concerning the association between rs9315202 and advanced epigenetic to brain tissue, and to identify the effects of rs9315202 on KL gene expression. KL augmentation holds promise as a therapeutic intervention to slow the pace of cellular aging, disease onset, and neuropathology, particularly in older, stressed populations.
本研究在三个死后皮质组织区域(背外侧前额叶皮质、腹内侧前额叶皮质和运动皮质)中,考察了klotho(KL)长寿基因多态性rs9315202与包括创伤后应激障碍(PTSD)、抑郁症和酒精使用障碍在内的精神病理学,以及与表观遗传年龄增加之间的关联。利用来自退伍军人事务部国家PTSD脑库的数据(n = 117),我们发现rs9315202与PTSD相互作用,可预测相对年长(≥45岁)的非西班牙裔白人死者亚组中运动皮质的表观遗传年龄增加(校正p = 0.014,n = 42)。对另外211个常见的KL变体进行评估发现,只有与rs9315202处于连锁不平衡的变体显示出同样高的显著性水平。酒精滥用与运动皮质的表观遗传年龄增加呈名义上的关联(p = 0.039,n = 114)。rs9315202单核苷酸多态性与PTSD相互作用,可预测老年非西班牙裔白人死者运动皮质中通过DNA甲基化年龄残差导致的KL表达降低(间接β = -0.198,p = 0.027)。最后,在双荧光素酶增强子报告系统实验中,我们发现将rs9315202的次要等位基因插入人肾细胞系HK-2基因组DNA中会导致KL转录活性发生变化,可能是通过该区域的长链非编码RNA起作用。这是第一项在多个脑区考察多种形式的精神病理学与DNA甲基化年龄增加之间关联的研究,将关于rs9315202与表观遗传年龄增加之间关联的研究扩展到脑组织,并确定rs9315202对KL基因表达的影响。增加KL有望成为一种治疗干预措施,以减缓细胞衰老、疾病发作和神经病理学的进程,特别是在年长、压力大的人群中。