Estimation of genetic variation in vitiligo associated genes: Population genomics perspective.

IF 1.9 Q3 GENETICS & HEREDITY
Neeraj Bharti, Ruma Banerjee, Archana Achalare, Sunitha Manjari Kasibhatla, Rajendra Joshi
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Abstract

Background: Vitiligo is an auto-immune progressive depigmentation disorder of the skin due to loss of melanocytes. Genetic risk is one of the important factors for development of vitiligo. Preponderance of vitiligo in certain ethnicities is known which can be analysed by understanding the distribution of allele frequencies across normal populations. Earlier GWAS identified 108 risk alleles for vitiligo in Europeans and East Asians. In this study, 64 of these risk alleles were used for analysing their enrichment and depletion across populations (1000 Genomes Project and IndiGen) with reference to 1000 Genomes dataset. Genetic risk scores were calculated and Fisher's exact test was performed to understand statistical significance of their variation in each population with respect to 1000 Genomes dataset as reference. In addition to SNPs reported in GWAS, significant variation in allele frequencies of 1079 vitiligo-related genes were also analysed. Two-tailed Chi-square test and Bonferroni's multiple adjustment values along with fixation index (≥ 0.5) and minimum allele frequency (≥ 0.05) were calculated and used to prioritise the variants based on pairwise comparison across populations.

Results: Risk alleles rs1043101 and rs10768122 belong to 3 prime UTR of glutamate receptor gene SLC1A2 are found to be highly enriched in the South Asian population when compared with the 'global normal' population. Intron variant rs4766578 (ATXN2) was found to be deleted in SAS, EAS and AFR and enriched in EUR and AMR1. This risk allele is found to be under positive selection in SAS, AMR1 and EUR. From the ancillary vitiligo gene list, nonsynonymous variant rs16891982 was found to be enriched in the European and the Admixed American populations and depleted in all others. rs2279238 and rs11039155 belonging to the LXR-α gene involved in regulation of metalloproteinase 2 and 9 (melanocyte precursors) were found to be associated with vitiligo in the North Indian population (in earlier study).

Conclusion: The differential enrichment/depletion profile of the risk alleles provides insight into the underlying inter-population variations. This would provide clues towards prioritisation of SNPs associated with vitiligo thereby elucidating its preponderance in different ethnic groups.

估算白癜风相关基因的遗传变异:人群基因组学视角。
背景:白癜风是一种因黑色素细胞脱失而导致的自身免疫性进行性皮肤脱色疾病。遗传风险是白癜风发病的重要因素之一。通过了解正常人群中等位基因频率的分布情况,可以对某些种族的白癜风发病率进行分析。早期的全球基因组研究在欧洲人和东亚人中发现了108个白癜风风险等位基因。在本研究中,参考 1000 基因组数据集,使用其中的 64 个风险等位基因来分析它们在不同人群(1000 基因组计划和 IndiGen)中的富集和耗竭情况。计算遗传风险评分并进行费雪精确检验,以了解其在以 1000 基因组数据集为参照的各人群中的变异的统计学意义。除了全球基因组研究中报告的 SNPs 外,还分析了 1079 个白癜风相关基因等位基因频率的显著变化。计算了双尾卡方检验、Bonferroni多重调整值以及固定指数(≥ 0.5)和最小等位基因频率(≥ 0.05),并根据不同人群的配对比较对变异进行了优先排序:结果发现,与 "全球正常 "人群相比,属于谷氨酸受体基因 SLC1A2 3 prime UTR 的风险等位基因 rs1043101 和 rs10768122 在南亚人群中高度富集。在 SAS、EAS 和 AFR 中,发现内含子变异 rs4766578(ATXN2)被删除,而在 EUR 和 AMR1 中被富集。该风险等位基因在 SAS、AMR1 和 EUR 中处于正选择状态。在辅助白癜风基因列表中,发现非同义变异 rs16891982 在欧洲和美洲混血人群中富集,而在所有其他人群中则被删除。在北印度人群中,发现参与调节金属蛋白酶 2 和 9(黑色素细胞前体)的 LXR-α 基因的 rs2279238 和 rs11039155 与白癜风有关(在早期研究中):结论:风险等位基因的不同富集/耗竭特征有助于深入了解人群间的潜在差异。这将为确定与白癜风相关的 SNPs 的优先次序提供线索,从而阐明其在不同种族群体中的优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
4.90
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