Diagnosis of Ovarian Carcinoma Homologous Recombination DNA Repair Deficiency From Targeted Gene Capture Oncology Assays

Overview

Journal JCO Precis Oncol

Specialty Oncology

Date 2023 May 17

PMID 37196218

Authors

Niklas Krumm

Nithisha S Khasnavis

Marc Radke

Kalyan Banda

Helen R Davies

Christopher Pennil

Kathryn McLean

Vera A Paulson

Eric Q Konnick

Winslow C Johnson

Grogan Huff

Serena Nik-Zainal

Elizabeth M Swisher

Christina M Lockwood

Stephen J Salipante

Affiliations

Soon will be listed here.

Abstract

Purpose: Homologous recombination DNA repair deficiency (HRD) is a therapeutic biomarker for sensitivity to platinum and poly(ADP-ribose) polymerase inhibitor therapies in breast and ovarian cancers. Several molecular phenotypes and diagnostic strategies have been developed to assess HRD; however, their clinical implementation remains both technically challenging and methodologically unstandardized.

Methods: We developed and validated an efficient and cost-effective strategy for HRD determination on the basis of calculation of a genome-wide loss of heterozygosity (LOH) score through targeted, hybridization capture and next-generation DNA sequencing augmented with 3,000 common, polymorphic single-nucleotide polymorphism (SNP) sites distributed genome-wide. This approach requires minimal sequence reads and can be readily integrated into targeted gene capture workflows already in use for molecular oncology. We interrogated 99 ovarian neoplasm-normal pairs using this method and compared results with patient mutational genotypes and orthologous predictors of HRD derived from whole-genome mutational signatures.

Results: LOH scores of ≥11% had >86% sensitivity for identifying tumors with HRD-causing mutations in an independent validation set (90.6% sensitivity for all specimens). We found strong agreement of our analytic approach with genome-wide mutational signature assays for determining HRD, yielding an estimated 96.7% sensitivity and 50% specificity. We observed poor concordance with mutational signatures inferred using only mutations detected by the targeted gene capture panel, suggesting inadequacy of the latter approach. LOH score did not significantly correlate with treatment outcomes.

Conclusion: Targeted sequencing of genome-wide polymorphic SNP sites can be used to infer LOH events and subsequently diagnose HRD in ovarian tumors. The methods presented here are readily generalizable to other targeted gene oncology assays and could be adapted for HRD diagnosis in other tumor types.

Citing Articles

Current HRD assays in ovarian cancer: differences, pitfalls, limitations, and novel approaches.

Guffanti F, Mengoli I, Damia G Front Oncol. 2024; 14:1405361.

PMID: 39220639 PMC: 11361952. DOI: 10.3389/fonc.2024.1405361.

A phase 2 trial exploring the significance of homologous recombination status in patients with platinum sensitive or platinum resistant relapsed ovarian cancer receiving combination cediranib and olaparib.

Liu J, Xiong N, Wenham R, Wahner-Hendrickson A, Armstrong D, Chan N Gynecol Oncol. 2024; 187:105-112.

PMID: 38759516 PMC: 11309890. DOI: 10.1016/j.ygyno.2024.05.002.

NRG-GY012: Randomized phase 2 study comparing olaparib, cediranib, and the combination of cediranib/olaparib in women with recurrent, persistent, or metastatic endometrial cancer.

Rimel B, Enserro D, Bender D, Gunderson Jackson C, Tan A, Alluri N Cancer. 2023; 130(8):1234-1245.

PMID: 38127487 PMC: 11168450. DOI: 10.1002/cncr.35151.

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