Department of Epidemiology, Rollins School of Public Health, 1518 Clifton Rd., Atlanta, GA 30322, United States.
Department of Psychiatry, Johns Hopkins University School of Medicine, Baltimore, MD, United States.
Prog Neuropsychopharmacol Biol Psychiatry. 2019 Jun 8;92:133-147. doi: 10.1016/j.pnpbp.2018.12.019. Epub 2019 Jan 2.
T. gondii (TOXO) infects over one billion people worldwide, yet the literature lacks a Genome Wide Association Study (GWAS) focused on genetic variants controlling the persistence of TOXO infection. To identify putative T. gondii susceptibility genes, we performed a GWAS using IgG seropositivity as the outcome variable in a discovery sample (n = 790) from an Ashkenazi dataset, and a second sample of predominately African Americans (The Grady Trauma Project, n = 285). We also performed a meta-analyses of the 2 cohorts. None of the SNPs in these analyses was statistically significant after Bonferroni correction for multiple comparisons. In the Ashkenazi population, the gene region of CHIA (chitinase) showed the most nominally significant association with TOXO. Prior studies have shown that the production of chitinase by macrophages in the brain responding to TOXO infection is crucial for controlling the burden of T. gondii cysts. We found a surprising number of genes involved in neurodevelopment and psychiatric disorders among our top hits even though our outcome variable was TOXO infection. In the meta-analysis combining the Ashkenazi and Grady Trauma Project samples, there was enrichment for genes implicated in schizophrenia spectrum disorders (p < .05). Upon limiting our sample to those without mental illness, two schizophrenia related genes (CNTNAP2, GABAR2) still had significant TOXO-associated variants at the p < .05 level, but did not pass the genome wide significance threshold after correction for multiple comparisons. Using Ingenuity Systems molecular network analysis, we identified molecular nodes suggesting that while different genetic variants associated with TOXO in the two population samples, the molecular pathways for TOXO susceptibility nevertheless converged on common pathways. Molecular nodes in these common pathways included NOTCH1, CD44, and RXRA. Prior studies show that CD44 participates in TOXO-induced immunopathology and that RXRA is instrumental in regulating T-helper immune responses. These data provide new insights into the pathophysiology of this common neurotropic parasite.
刚地弓形虫(TOXO)感染了全球超过 10 亿人,但文献中缺乏针对控制 TOXO 感染持续存在的遗传变异的全基因组关联研究(GWAS)。为了确定潜在的弓形虫易感性基因,我们使用 IgG 血清阳性作为来自阿什肯纳兹数据集的发现样本(n=790)的结果变量进行了 GWAS,以及主要是非洲裔美国人的第二个样本(The Grady Trauma Project,n=285)。我们还对这两个队列进行了荟萃分析。在进行多重比较的 Bonferroni 校正后,这些分析中的没有 SNP 具有统计学意义。在阿什肯纳兹人群中,CHIA(几丁质酶)基因区域与 TOXO 显示出最名义上的关联。先前的研究表明,TOXO 感染时大脑中巨噬细胞产生的几丁质酶对于控制弓形虫包囊的负担至关重要。即使我们的结果变量是 TOXO 感染,我们在最高命中中也发现了数量惊人的与神经发育和精神疾病相关的基因。在结合阿什肯纳兹和 Grady Trauma Project 样本的荟萃分析中,精神分裂症谱系障碍相关基因(p<.05)存在富集。当我们将样本限制为没有精神疾病的人群时,两个与精神分裂症相关的基因(CNTNAP2,GABAR2)在 p<.05 水平上仍然具有与 TOXO 相关的显著变异,但在进行多重比较校正后并未达到全基因组显著水平。使用 Ingenuity Systems 分子网络分析,我们确定了分子节点,表明尽管两个人群样本中与 TOXO 相关的遗传变异不同,但 TOXO 易感性的分子途径仍然集中在共同途径上。这些共同途径中的分子节点包括 NOTCH1、CD44 和 RXRA。先前的研究表明,CD44 参与 TOXO 诱导的免疫病理学,而 RXRA 对调节辅助性 T 细胞免疫反应至关重要。这些数据为这种常见的神经滋养寄生虫的病理生理学提供了新的见解。
