Department of Medicine, Memorial Sloan Kettering Cancer Center, New York, New York, USA.
Department of Medicine, Weill Cornell Medical Center, New York, New York, USA.
Cancer. 2024 Mar 1;130(5):692-701. doi: 10.1002/cncr.35074. Epub 2023 Oct 21.
Genetic ancestry (GA) refers to population hereditary patterns that contribute to phenotypic differences seen among race/ethnicity groups, and differences among GA groups may highlight unique biological determinants that add to our understanding of health care disparities.
A retrospective review of patients with renal cell carcinoma (RCC) was performed and correlated GA with clinicopathologic, somatic, and germline molecular data. All patients underwent next-generation sequencing of normal and tumor DNA using Memorial Sloan Kettering-Integrated Mutation Profiling of Actionable Cancer Targets, and contribution of African (AFR), East Asian (EAS), European (EUR), Native American, and South Asian (SAS) ancestry was inferred through supervised ADMIXTURE. Molecular data was compared across GA groups by Fisher exact test and Kruskal-Wallis test.
In 953 patients with RCC, the GA distribution was: EUR (78%), AFR (4.9%), EAS (2.5%), SAS (2%), Native American (0.2%), and Admixed (12.2%). GA distribution varied by tumor histology and international metastatic RCC database consortium disease risk status (intermediate-poor: EUR 58%, AFR 88%, EAS 74%, and SAS 73%). Pathogenic/likely pathogenic germline variants in cancer-predisposition genes varied (16% EUR, 23% AFR, 8% EAS, and 0% SAS), and most occurred in CHEK2 in EUR (3.1%) and FH in AFR (15.4%). In patients with clear cell RCC, somatic alteration incidence varied with significant enrichment in BAP1 alterations (EUR 17%, AFR 50%, SAS 29%; p = .01). Comparing AFR and EUR groups within The Cancer Genome Atlas, significant differences were identified in angiogenesis and inflammatory pathways.
Differences in clinical and molecular data by GA highlight population-specific variations in patients with RCC. Exploration of both genetic and nongenetic variables remains critical to optimize efforts to overcome health-related disparities.
遗传血统(GA)是指导致不同种族/族群之间出现表型差异的人群遗传模式,而 GA 群体之间的差异可能突出了独特的生物学决定因素,有助于我们理解医疗保健差异。
对肾细胞癌(RCC)患者进行回顾性研究,并将 GA 与临床病理、体细胞和种系分子数据相关联。所有患者均接受了使用 Memorial Sloan Kettering-Integrated Mutation Profiling of Actionable Cancer Targets 的正常和肿瘤 DNA 的下一代测序,通过监督 ADMIXTURE 推断出非洲裔(AFR)、东亚裔(EAS)、欧洲裔(EUR)、美洲原住民和南亚裔(SAS)血统的贡献。通过 Fisher 精确检验和 Kruskal-Wallis 检验比较 GA 组之间的分子数据。
在 953 例 RCC 患者中,GA 分布为:EUR(78%)、AFR(4.9%)、EAS(2.5%)、SAS(2%)、美洲原住民(0.2%)和混合(12.2%)。GA 分布因肿瘤组织学和国际转移性 RCC 数据库联盟疾病风险状况而异(中低危:EUR58%、AFR88%、EAS74%和 SAS73%)。癌症易感性基因中的致病性/可能致病性种系变异不同(EUR16%、AFR23%、EAS8%和 SAS0%),且大多数发生在 EUR 中的 CHEK2(3.1%)和 AFR 中的 FH(15.4%)。在透明细胞 RCC 患者中,体细胞改变的发生率存在显著差异,BAP1 改变明显富集(EUR17%、AFR50%、SAS29%;p=0.01)。在 The Cancer Genome Atlas 中比较 AFR 和 EUR 组,在血管生成和炎症途径中发现了显著差异。
GA 临床和分子数据的差异突出了 RCC 患者的人群特异性差异。探索遗传和非遗传变量仍然是关键,有助于优化克服与健康相关的差异的努力。