Icahn School of Medicine at Mount Sinai, One Gustave L. Levy Place, New York, NY 10029 United States.
Icahn School of Medicine at Mount Sinai, One Gustave L. Levy Place, New York, NY 10029 United States.
Mult Scler Relat Disord. 2022 Oct;66:104065. doi: 10.1016/j.msard.2022.104065. Epub 2022 Jul 18.
Multiple sclerosis (MS) is a chronic neurodegenerative disease, which has a strong genetic component and is more prevalent in women. MS is caused by an autoimmunity initiated inflammatory response which leads to axon demyelination, followed by axon loss, plaque formation and neurodegeneration. The goal of this article was to explore X-linked genetic factors that are associated with MS susceptibility.
Using UK Biobank microarray, we analyzed the prevalence of alleles on the X chromosome to identify variants potentially involved in MS. Overall, 488,225 patients across 18,857 markers were analyzed using PLINK.
Our results identify 20 SNPs that are significantly more abundant in persons with MS. The genes associated with these SNPs belong to immunity (LAMP2, AVPR2, MTMR8, F8, BCOR, PORCN, and ELF4) and remyelination (NSDHL, HS6ST2, RBM10, TAZ, and AR) pathways that are potentially of great significance for understanding the onset and progression of multiple sclerosis. We further identified a significant 20-fold increase in incidence of MS cases in women with co-occurrences of SNPs associated with myelination and immunity functions.
Our analysis provides novel insights into the roles of X-linked genes in the onset and presentation of multiple sclerosis, identifying 20 SNPs in 14 genes involved primarily in immunity and myelination functions that are significantly more abundant in persons with MS. Our co-occurrence analysis suggests that concurrent disruption of both myelination and immune systems significantly increases the risk of MS onset in women.
多发性硬化症(MS)是一种慢性神经退行性疾病,具有很强的遗传成分,在女性中更为常见。MS 是由自身免疫引发的炎症反应引起的,导致轴突脱髓鞘,随后轴突丢失、斑块形成和神经退行性变。本文的目的是探讨与 MS 易感性相关的 X 连锁遗传因素。
使用 UK Biobank 微阵列,我们分析了 X 染色体上等位基因的流行情况,以确定可能与 MS 相关的变体。使用 PLINK 分析了跨越 18857 个标记的 488225 名患者的总体情况。
我们的结果确定了 20 个 SNP,这些 SNP 在 MS 患者中更为丰富。与这些 SNP 相关的基因属于免疫(LAMP2、AVPR2、MTMR8、F8、BCOR、PORCN 和 ELF4)和髓鞘形成(NSDHL、HS6ST2、RBM10、TAZ 和 AR)途径,对于理解多发性硬化症的发病和进展具有重要意义。我们进一步发现,在与髓鞘形成和免疫功能相关的 SNP 同时发生的女性中,MS 病例的发病率显著增加了 20 倍。
我们的分析提供了 X 连锁基因在多发性硬化症发病和表现中的作用的新见解,确定了 14 个基因中的 20 个 SNP,这些基因主要参与免疫和髓鞘形成功能,在 MS 患者中更为丰富。我们的共发生分析表明,髓鞘形成和免疫系统的同时破坏显著增加了女性 MS 发病的风险。
