Shared genomic segment analysis in a large high-risk chronic lymphocytic leukemia pedigree implicates CXCR4 in inherited risk.

Journal of translational genetics and genomics Pub Date : 2021-01-01 Epub Date: 2021-06-15 DOI:10.20517/jtgg.2021.05

Julie E Feusier, Michael J Madsen, Brian J Avery, Justin A Williams, Deborah M Stephens, Boyu Hu, Afaf E G Osman, Martha J Glenn, Nicola J Camp

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Abstract

Aim: Chronic lymphocytic leukemia (CLL) has been shown to cluster in families. First-degree relatives of individuals with CLL have an ~8 fold increased risk of developing the malignancy. Strong heritability suggests pedigree studies will have good power to localize pathogenic genes. However, CLL is relatively rare and heterogeneous, complicating ascertainment and analyses. Our goal was to identify CLL risk loci using unique resources available in Utah and methods to address intra-familial heterogeneity.

Methods: We identified a six-generation high-risk CLL pedigree using the Utah Population Database. This pedigree contains 24 CLL cases connected by a common ancestor. We ascertained and genotyped eight CLL cases using a high-density SNP array, and then performed shared genomic segment (SGS) analysis - a method designed for extended high-risk pedigrees that accounts for heterogeneity.

Results: We identified a genome-wide significant region (P = 1.9 × 10^-7, LOD-equivalent 5.6) at 2q22.1. The 0.9 Mb region was inherited through 26 meioses and shared by seven of the eight genotyped cases. It sits within a ~6.25 Mb locus identified in a previous linkage study of 206 small CLL families. Our narrow region intersects two genes, including CXCR4 which is highly expressed in CLL cells and implicated in maintenance and progression.

Conclusion: SGS analysis of an extended high-risk CLL pedigree identified the most significant evidence to-date for a 0.9 Mb CLL disease locus at 2q22.1, harboring CXCR4. This discovery contributes to a growing literature implicating CXCR4 in inherited risk to CLL. Investigation of the segregating haplotype in the pedigree will be valuable for elucidating risk variant(s).

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大型高风险慢性淋巴细胞白血病血统中的共享基因组片段分析显示，CXCR4 与遗传风险有关。

目的：慢性淋巴细胞白血病（CLL）有家族聚集现象。CLL 患者的一级亲属罹患这种恶性肿瘤的风险增加了约 8 倍。强大的遗传性表明，血统研究将具有很好的定位致病基因的能力。然而，CLL 相对罕见且具有异质性，这使得确定和分析变得复杂。我们的目标是利用犹他州的独特资源和解决家族内异质性的方法来确定 CLL 风险位点：我们利用犹他州人口数据库确定了一个六代高风险 CLL 血统。该血统包含由共同祖先连接的 24 个 CLL 病例。我们使用高密度 SNP 阵列确定了 8 例 CLL 病例并对其进行了基因分型，然后进行了共享基因组片段（SGS）分析--这是一种专为考虑异质性的扩展高风险血统而设计的方法：我们在 2q22.1 处发现了一个全基因组重要区域（P = 1.9 × 10-7，LOD-equivalent 5.6）。这个 0.9 Mb 的区域通过 26 次减数分裂遗传，8 个基因分型病例中有 7 个共享该区域。它位于先前对 206 个小型 CLL 家系进行的一项连锁研究中确定的 ~6.25 Mb 位点内。我们的狭窄区域与两个基因相交，其中包括在 CLL 细胞中高表达的 CXCR4 基因，该基因与 CLL 的维持和发展有关：对一个扩展的高危 CLL 家系的 SGS 分析发现了迄今为止最重要的证据，即在 2q22.1 处有一个 0.9 Mb 的 CLL 疾病基因座，其中包含 CXCR4。这一发现为越来越多的有关 CXCR4 与 CLL 遗传风险有关的文献做出了贡献。调查血统中的分离单倍型对阐明风险变异非常有价值。

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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来源期刊

Journal of translational genetics and genomics

CiteScore

2.70

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0.00%

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