West Cancer Center and Research Institute, Memphis, TN, United States of America.
West Cancer Center and Research Institute, Memphis, TN, United States of America.
Gynecol Oncol. 2022 Nov;167(2):306-313. doi: 10.1016/j.ygyno.2022.09.022. Epub 2022 Oct 11.
Low grade serous ovarian cancer (LGSOC) differs from high grade serous in terms of pathogenesis, molecular, genetic, and clinical features. Molecular studies have been hampered by small sample sizes, heterogenous histology, and lack of comprehensive testing. We sought to molecularly profile LGSOC in a homogenously tested, histologically confirmed cohort.
Using hot-spot and whole exome next generation sequencing (NGS), fusion gene analysis interrogating RNA, fragment analysis, in situ hybridization and/or immunohistochemistry, 179 specimens were evaluated by Caris Life Sciences (Phoenix, AZ). A second independent histologic review confirmed histology in 153 specimens.
Most frequently mutated genes (5% or greater) were members of the mitogen-activated protein kinase (MAPK) pathway: KRAS (23.7%, n = 36), NRAS (11.2%, n = 19), NF1 (7.9%, n = 5), and BRAF (6.6%, n = 10). Class III mutations were seen in 3 of 10 BRAF mutations while 7 were Class I V600E. Overall, estrogen and progesterone receptor expression was 80.2% (n = 130) and 27.8% (n = 45), respectively. Of those that were hormone negative, nearly 50% contained KRAS or NF1 mutations. None were NRAS mutated. Markers of response to immunotherapy were low to absent.
BRAF mutations were seen to be lower than those traditionally reported. With increased MAPK activation resulting in ligand independent activation of ERα, a role of combination therapy with hormonal and targeted therapy should be considered as 49.2% of hormone negative specimens were KRAS or NF1 mutated. Absence of immunotherapy biomarkers suggest limited benefit to immunotherapeutic agents.
低级别浆液性卵巢癌(LGSOC)在发病机制、分子、遗传和临床特征方面与高级别浆液性卵巢癌不同。分子研究受到样本量小、组织学异质性和缺乏全面检测的限制。我们试图在经过均质测试和组织学确认的队列中对 LGSOC 进行分子分析。
使用热点和全外显子组下一代测序(NGS)、融合基因分析检测 RNA、片段分析、原位杂交和/或免疫组织化学,Caris Life Sciences(凤凰城,AZ)对 179 个标本进行了评估。第二次独立的组织学审查在 153 个标本中确认了组织学。
最常突变的基因(5%或更高)是丝裂原活化蛋白激酶(MAPK)途径的成员:KRAS(23.7%,n=36)、NRAS(11.2%,n=19)、NF1(7.9%,n=5)和 BRAF(6.6%,n=10)。在 10 个 BRAF 突变中,有 3 个为 Class III 突变,而 7 个为 Class I V600E。总体而言,雌激素和孕激素受体的表达率分别为 80.2%(n=130)和 27.8%(n=45)。在那些激素阴性的患者中,近 50%的患者含有 KRAS 或 NF1 突变。没有 NRAS 突变。免疫治疗反应的标志物较低或不存在。
BRAF 突变的发生率低于传统报道。由于 MAPK 激活增加导致 ERα配体非依赖性激活,因此应考虑联合激素和靶向治疗,因为 49.2%的激素阴性标本存在 KRAS 或 NF1 突变。缺乏免疫治疗生物标志物表明免疫治疗药物的获益有限。
