Department of Oncology, St. Jude Children's Research Hospital and the University of Tennessee Health Sciences Center, Memphis, TN.
Center for Applied Bioinformatics, St. Jude Children's Research Hospital, Memphis, TN.
Blood. 2023 Mar 16;141(11):1293-1307. doi: 10.1182/blood.2022016056.
Familial aggregation of Hodgkin lymphoma (HL) has been demonstrated in large population studies, pointing to genetic predisposition to this hematological malignancy. To understand the genetic variants associated with the development of HL, we performed whole genome sequencing on 234 individuals with and without HL from 36 pedigrees that had 2 or more first-degree relatives with HL. Our pedigree selection criteria also required at least 1 affected individual aged <21 years, with the median age at diagnosis of 21.98 years (3-55 years). Family-based segregation analysis was performed for the identification of coding and noncoding variants using linkage and filtering approaches. Using our tiered variant prioritization algorithm, we identified 44 HL-risk variants in 28 pedigrees, of which 33 are coding and 11 are noncoding. The top 4 recurrent risk variants are a coding variant in KDR (rs56302315), a 5' untranslated region variant in KLHDC8B (rs387906223), a noncoding variant in an intron of PAX5 (rs147081110), and another noncoding variant in an intron of GATA3 (rs3824666). A newly identified splice variant in KDR (c.3849-2A>C) was observed for 1 pedigree, and high-confidence stop-gain variants affecting IRF7 (p.W238∗) and EEF2KMT (p.K116∗) were also observed. Multiple truncating variants in POLR1E were found in 3 independent pedigrees as well. Whereas KDR and KLHDC8B have previously been reported, PAX5, GATA3, IRF7, EEF2KMT, and POLR1E represent novel observations. Although there may be environmental factors influencing lymphomagenesis, we observed segregation of candidate germline variants likely to predispose HL in most of the pedigrees studied.
家族性霍奇金淋巴瘤(HL)在大型人群研究中已得到证实,这表明遗传易感性与这种血液系统恶性肿瘤有关。为了了解与 HL 发病相关的遗传变异,我们对 36 个家系的 234 名 HL 患者和非 HL 患者进行了全基因组测序,这些家系中有 2 个或更多一级亲属患有 HL。我们的家系选择标准还要求至少有 1 名年龄<21 岁的受影响个体,诊断时的中位年龄为 21.98 岁(3-55 岁)。我们使用连锁和过滤方法,通过家系分离分析来鉴定编码和非编码变异。使用我们的分层变异优先级算法,我们在 28 个家系中鉴定出 44 个 HL 风险变异,其中 33 个是编码变异,11 个是非编码变异。前 4 个高频复发风险变异分别是编码变异 KDR(rs56302315)、5'非翻译区变异 KLHDC8B(rs387906223)、内含子变异 PAX5(rs147081110)和内含子变异 GATA3(rs3824666)。在 1 个家系中观察到 KDR 中的一个新鉴定的剪接变异(c.3849-2A>C),还观察到影响 IRF7(p.W238∗)和 EEF2KMT(p.K116∗)的高可信度无义变异。在 3 个独立的家系中也发现了 POLR1E 中的多个截断变异。尽管 KDR 和 KLHDC8B 先前已被报道,但 PAX5、GATA3、IRF7、EEF2KMT 和 POLR1E 代表新的观察结果。尽管可能存在影响淋巴瘤发生的环境因素,但我们观察到大多数研究的家系中候选种系变异的分离,这些变异可能导致 HL。
