妇科癌肉瘤的种系驱动因素。
Germline drivers of gynecologic carcinosarcomas.
机构信息
Gynecology Service, Department of Surgery, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
Department of Pathology and Laboratory Medicine, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
出版信息
Gynecol Oncol. 2023 Jul;174:34-41. doi: 10.1016/j.ygyno.2023.04.024. Epub 2023 May 5.
OBJECTIVES
To describe the prevalence of germline pathogenic variants (gPVs) in endometrial and ovarian carcinosarcomas and determine if gPVs are drivers of carcinosarcoma.
METHODS
Patients with endometrial or ovarian carcinosarcomas who underwent clinical tumor-normal sequencing from 1/1/2015 to 6/1/2021 and consented to germline assessment of ≥76 cancer predisposition genes were included. In patients with gPVs, biallelic inactivation was identified through analysis of loss of heterozygosity and somatic pathogenic alterations.
RESULTS
Of 216 patients identified, 167 (77%) were diagnosed with endometrial carcinosarcoma and 49 (23%) with ovarian carcinosarcoma. Overall, 33 gPVs were observed in 29 patients (13%); 20 gPVs (61%) had biallelic loss in tumors. The rate of high-penetrance gPVs overall was 7% (16 of 216); 88% of high-penetrance gPVs had biallelic loss. In the endometrial carcinosarcoma cohort, 22 gPVs were found in 19 (11%) of 167 patients; 12 gPVs (55%) had biallelic loss in tumors, including 8 (89%) of 9 in high-penetrance gPVs. Among the ovarian carcinosarcoma cohort, 11 gPVs were found in 10 (20%) of 49 patients; 8 gPVs (73%) had biallelic loss in tumors, and all evaluable high-penetrance gPVs (n = 6) had biallelic loss. All gPVs in homologous recombination (BRCA1, BRCA2, RAD51C) and Lynch syndrome (MSH2, MSH6) genes had biallelic loss in tumors (n = 15).
CONCLUSIONS
gPVs in genes affecting homologous recombination- or Lynch-associated mismatch repair exhibited biallelic inactivation within tumors, suggesting likely drivers of gynecologic carcinosarcoma. Our data support germline testing for patients with gynecologic carcinosarcomas, given implications for treatment and risk-reduction in patients and at-risk family members.
目的
描述子宫内膜和卵巢癌肉瘤中种系致病性变异(gPVs)的流行情况,并确定 gPVs 是否为癌肉瘤的驱动因素。
方法
纳入了 2015 年 1 月 1 日至 2021 年 6 月 1 日期间接受临床肿瘤-正常测序且同意对≥76 种癌症易感性基因进行种系评估的患有子宫内膜或卵巢癌肉瘤的患者。在存在 gPVs 的患者中,通过分析杂合性丢失和体细胞致病性改变来确定双等位基因失活。
结果
在确定的 216 名患者中,167 名(77%)诊断为子宫内膜癌肉瘤,49 名(23%)为卵巢癌肉瘤。总体而言,在 29 名患者中观察到 33 个 gPVs(13%);20 个 gPVs(61%)在肿瘤中有双等位基因缺失。高外显率 gPVs 的总体发生率为 7%(216 例中有 16 例);88%的高外显率 gPVs 有双等位基因缺失。在子宫内膜癌肉瘤队列中,在 167 名患者中的 19 名(11%)中发现了 22 个 gPVs;在肿瘤中,12 个 gPVs(55%)有双等位基因缺失,其中 9 个高外显率 gPVs 中有 8 个(89%)有双等位基因缺失。在卵巢癌肉瘤队列中,在 49 名患者中的 10 名(20%)中发现了 11 个 gPVs;在肿瘤中,8 个 gPVs(73%)有双等位基因缺失,并且所有可评估的高外显率 gPVs(n=6)都有双等位基因缺失。所有影响同源重组或 Lynch 相关错配修复的基因中的 gPVs(BRCA1、BRCA2、RAD51C)和 Lynch 综合征基因(MSH2、MSH6)中的 gPVs 在肿瘤中均有双等位基因缺失(n=15)。
结论
在影响同源重组或 Lynch 相关错配修复的基因中的 gPVs 在肿瘤中表现出双等位基因失活,这表明它们可能是妇科癌肉瘤的驱动因素。鉴于对患者及其有风险的家庭成员的治疗和降低风险的影响,我们的数据支持对妇科癌肉瘤患者进行种系检测。
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