Homozygosity Analysis in Autoimmunity Affected Individuals and Multiplex Autoimmune Disease Families

Immunome research Pub Date : 2017-01-01 DOI:10.4172/1745-7580.10000136

J. Castiblanco, J. Anaya

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Abstract

Autoimmune diseases (AD) are responsible for a substantial amount of disability and morbidity worldwide. Research generally focuses on a single disease, although autoimmune phenotypes could represent pleiotropic outcomes of non-specific disease genes underlying similar immunogenetic mechanisms. This report examined the effect and importance of the homozygosity status, using genome-wide interspersed markers, in individuals and multiplex families affected with AD. This study presented two approaches: (I) a case-control comparison and evaluation on the effect of homozygosity at the genome-wide level and per marker, including 453 unrelated individuals (121 late-, 79 early-onset AD, 40 polyautoimmunity (PolyA), 30 multiple autoimmune syndrome (MAS) and 183 healthy control individuals); and (II) a model-free affected pair linkage approach which included 35 MAS, 49 polyA, 104 late-, and 83 early-onset multiplex families. A total of 372 genome-wide markers were used in the analysis. The standardized observed homozygosity (SOH) was calculated and the association of the homozygosity status and the autoimmune trait was evaluated. The multipoint model-free linkage analysis was applied by using RELPAL from S.A.G.E v6.3. Results for the SOH showed significant differences between controls and early-onset individuals, where early-onset affected individuals showed lower homozygosity relative to controls. No differences were observed relative to controls for MAS, polyA and late-onset disease at the genome-wide level. The local marker homozygosity effect showed share and specific risk and/or protective effects for 24 markers. The model-free affected pair linkage approach lacked any suggestive linkage signals, but marginal signals displayed excess allele sharing for extreme phenotypes in autoimmunity. This study presumed autoimmunity as a trait rather than a clinical phenotype and tried to approach AD as a continuous trait presenting extreme phenotypes. Future approaches would be expected to dwell on the data presented here to corroborate and expand on sample size, marker coverage and their effects.

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自身免疫影响个体与多重自身免疫性疾病家族的纯合性分析

自身免疫性疾病(AD)是造成世界范围内大量残疾和发病率的原因。研究通常集中在单一疾病上，尽管自身免疫表型可以代表类似免疫遗传机制下的非特异性疾病基因的多效性结果。本报告使用全基因组散布标记研究了阿尔茨海默病个体和多重家族中纯合子状态的影响和重要性。本研究采用两种方法:(I)在全基因组水平和每个标记上对纯合子的影响进行病例对照比较和评估，包括453名不相关个体(121名晚发型AD, 79名早发型AD, 40名多重自身免疫(PolyA)， 30名多重自身免疫综合征(MAS)和183名健康对照个体);(II)无模型影响对连锁方法，包括35个MAS, 49个polyA, 104个晚发和83个早发多重家族。共使用372个全基因组标记进行分析。计算标准化观察纯合子(SOH)，并评估纯合子状态与自身免疫性状的相关性。采用S.A.G.E v6.3中的RELPAL软件进行多点无模型联动分析。结果显示，SOH在对照组和早发个体之间存在显著差异，早发个体的纯合性较低。在全基因组水平上，与对照组相比，在MAS、polyA和晚发性疾病方面没有观察到差异。局部标记纯合效应对24个标记表现出共同的和特定的风险和/或保护作用。无模型影响对连锁方法缺乏任何提示的连锁信号，但边缘信号显示了自身免疫中极端表型的过多等位基因共享。本研究假设自身免疫是一种特征而不是临床表型，并试图将AD作为一种呈现极端表型的连续特征。预计未来的方法将集中在这里提供的数据上，以证实和扩展样本量、标记覆盖率及其影响。

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Immunome research

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