George Au-Yeung scite author profile

Patients with high-grade serous ovarian cancer (HGSC) have experienced little improvement in overall survival, and standard treatment has not advanced beyond platinum-based combination chemotherapy, during the past 30 years. To understand the drivers of clinical phenotypes better, here we use whole-genome sequencing of tumour and germline DNA samples from 92 patients with primary refractory, resistant, sensitive and matched acquired resistant disease. We show that gene breakage commonly inactivates the tumour suppressors RB1, NF1, RAD51B and PTEN in HGSC, and contributes to acquired chemotherapy resistance. CCNE1 amplification was common in primary resistant and refractory disease. We observed several molecular events associated with acquired resistance, including multiple independent reversions of germline BRCA1 or BRCA2 mutations in individual patients, loss of BRCA1 promoter methylation, an alteration in molecular subtype, and recurrent promoter fusion associated with overexpression of the drug efflux pump MDR1.

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Synthetic lethality betweenCCNE1amplification and loss ofBRCA1

Etemadmoghadam

Weir

Au-Yeung

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

198

163

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High-grade serous ovarian cancers (HGSCs) are characterized by a high frequency of TP53 mutations, BRCA1/2 inactivation, homologous recombination dysfunction, and widespread copy number changes. Cyclin E1 (CCNE1) gene amplification has been reported to occur independently of BRCA1/2 mutation, and it is associated with primary treatment failure and reduced patient survival. Insensitivity of CCNE1-amplified tumors to platinum cross-linking agents may be partly because of an intact BRCA1/2 pathway. Both BRCA1/2 dysfunction and CCNE1 amplification are known to promote genomic instability and tumor progression. These events may be mutually exclusive, because either change provides a path to tumor development, with no selective advantage to having both mutations. Using data from a genome-wide shRNA synthetic lethal screen, we show that BRCA1 and members of the ubiquitin pathway are selectively required in cancers that harbor CCNE1 amplification. Furthermore, we show specific sensitivity of CCNE1-amplified tumor cells to the proteasome inhibitor bortezomib. These findings provide an explanation for the observed mutual exclusivity of CCNE1 amplification and BRCA1/2 loss in HGSC and suggest a unique therapeutic approach for treatment-resistant CCNE1-amplified tumors.RNAi | pan-cancer | CDK2 | cell cycle | DNA repair E pithelial ovarian cancer is complex and histologically diverse but still largely treated as a single disease with limited stratification based on histological or molecular characteristics. High-grade serous ovarian cancer (HGSC) accounts for the majority of epithelial ovarian cancer-related deaths (>60%), and almost no improvement in survival has been observed in the last 20 y (1). Widespread copy number changes are a hallmark of HGSC, including focal amplification of Cyclin E1 (encoded by CCNE1), which is associated with primary treatment failure (2) and reduced survival (3). Amplification of CCNE1 is one of very few well-defined molecular targets in HGSC.Cyclin E1 forms a complex with cyclin-dependent kinase 2 (CDK2) to regulate G1/S transition as well as having kinase-independent functions, including in DNA replication (4). Ovarian cell lines with CCNE1 amplification show a specific dependency for maintenance of CCNE1 expression (5, 6). We have validated CDK2 as a therapeutic target by showing selective sensitivity to suppression either by gene knockdown or using small molecule inhibitors (7), consistent with findings in breast cancer (8).Recent genomic studies have revealed a high frequency of BRCA1/2 (Breast cancer 1/2, early onset) inactivation and homologous recombination (HR) dysfunction in HGSC (9). Alterations of genes in the HR pathway include germ-line and somatic mutations of BRCA1 or BRCA2 (∼20% of patients) and epigenetic silencing of BRCA1 by hypermethylation (∼10%). Other genes inactivated by deletion, mutation, or hypermethylation include ATM, ATR, RAD51C, and PTEN (∼10%), key Fanconi anemia members (∼5%), and amplification or mutation of EMSY (∼8%). Collectively, at least 50% of HGSCs are...

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The molecular origin and taxonomy of mucinous ovarian carcinoma

et al. 2019

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Mucinous ovarian carcinoma (MOC) is a unique subtype of ovarian cancer with an uncertain etiology, including whether it genuinely arises at the ovary or is metastatic disease from other organs. In addition, the molecular drivers of invasive progression, high-grade and metastatic disease are poorly defined. We perform genetic analysis of MOC across all histological grades, including benign and borderline mucinous ovarian tumors, and compare these to tumors from other potential extra-ovarian sites of origin. Here we show that MOC is distinct from tumors from other sites and supports a progressive model of evolution from borderline precursors to high-grade invasive MOC. Key drivers of progression identified are TP53 mutation and copy number aberrations, including a notable amplicon on 9p13. High copy number aberration burden is associated with worse prognosis in MOC. Our data conclusively demonstrate that MOC arise from benign and borderline precursors at the ovary and are not extra-ovarian metastases.

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George Au-Yeung

Whole–genome characterization of chemoresistant ovarian cancer

Synthetic lethality betweenCCNE1amplification and loss ofBRCA1

The molecular origin and taxonomy of mucinous ovarian carcinoma

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