Elaine Wong-Ho scite author profile

Background Homologous recombination deficiency (HRD) is a phenotype that is characterized by the inability of a cell to effectively repair DNA double-strand breaks using the homologous recombination repair (HRR) pathway. Loss-of-function genes involved in this pathway can sensitize tumors to poly(adenosine diphosphate [ADP]-ribose) polymerase (PARP) inhibitors and platinum-based chemotherapy, which target the destruction of cancer cells by working in concert with HRD through synthetic lethality. However, to identify patients with these tumors, it is vital to understand how to best measure homologous repair (HR) status and to characterize the level of alignment in these measurements across different diagnostic platforms. A key current challenge is that there is no standardized method to define, measure, and report HR status using diagnostics in the clinical setting. Methods Friends of Cancer Research convened a consortium of project partners from key healthcare sectors to address concerns about the lack of consistency in the way HRD is defined and methods for measuring HR status. Results This publication provides findings from the group’s discussions that identified opportunities to align the definition of HRD and the parameters that contribute to the determination of HR status. The consortium proposed recommendations and best practices to benefit the broader cancer community. Conclusion Overall, this publication provides additional perspectives for scientist, physician, laboratory, and patient communities to contextualize the definition of HRD and various platforms that are used to measure HRD in tumors.

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Unconventional Sequence Requirement for Viral Late Gene Core Promoters of Murine Gammaherpesvirus 68

Wong-Ho

Davis

et al. 2014

J Virol

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f Infection with the human gammaherpesviruses, Epstein-Barr virus (EBV) and Kaposi's sarcoma-associated herpesvirus (KSHV), is associated with several cancers. During lytic replication of herpesviruses, viral genes are expressed in an ordered cascade. However, the mechanism by which late gene expression is regulated has not been well characterized in gammaherpesviruses. In this study, we have investigated the cis element that mediates late gene expression during de novo lytic infection with murine gammaherpesvirus 68 (MHV-68). A reporter system was established and used to assess the activity of viral late gene promoters upon infection with MHV-68. It was found that the viral origin of lytic replication, orilyt, must be on the reporter plasmid to support activation of the late gene promoter. Furthermore, the DNA sequence required for the activation of late gene promoters was mapped to a core element containing a distinct TATT box and its neighboring sequences. The critical nucleotides of the TATT box region were determined by systematic mutagenesis in the reporter system, and the significance of these nucleotides was confirmed in the context of the viral genome. In addition, EBV and KSHV late gene core promoters could be activated by MHV-68 lytic replication, indicating that the mechanisms controlling late gene expression are conserved among gammaherpesviruses. Therefore, our results on MHV-68 establish a solid foundation for mechanistic studies of late gene regulation.

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Abstract 1701: Improvement of tumor mutation burden measurement by removal of deaminated bases in FFPE DNA

Tom

Chaudhary

Mittal

et al. 2019

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Tumor mutation burden (TMB) is a positive predictive factor for response to immune-checkpoint inhibitors in certain types of cancer. The Oncomine™ Tumor Mutation Load Assay, a 1.7Mb targeted next generation sequencing (NGS) panel, measures TMB and detects mutations in 409 cancer genes. The TMB values obtained using targeted sequencing are positively correlated with TMB measured by whole exome sequencing in NSCLC, colorectal, endometrial and gastric cancers. TMB from these tumor samples are correlated with other phenotypes associated with genomic instability, specifically microsatellite instability (MSI) and mutations involved in mismatch repair and cancer related genes. Analysis of the Oncomine™ TML Assay results with Torrent Suite and Ion Reporter software uniquely measures the degree of deamination of cytosines to uracils in fixed tissues. FFPE preservation methods can lead to significant cytosine deamination of the isolated DNA, resulting in decreased sequencing quality. In these samples, uracils are propagated as thymines and result in false C>T substitutions. To minimize the influence that excess deamination has on TMB results, we have incorporated a UDG enzyme treatment to eliminate damaged targets and improve usable TMB values of DNA from damaged FFPE tumor tissue. The Oncomine™ TML assay for TMB on Ion GeneStudio™ S5 in conjunction with MSI detection is informative and potentially predictive for the use of checkpoint inhibitors in multiple cancer types. Citation Format: Warren Tom, Ruchi Chaudhary, Vinay Mittal, Dinesh Cyanam, Iris Casuga, Elaine Wong-Ho, Rob Bennett, Fiona Hyland, Seth Sadis, Janice Au-Young. Improvement of tumor mutation burden measurement by removal of deaminated bases in FFPE DNA [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 1701.

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Validation of a Targeted Next-Generation Sequencing Panel for Tumor Mutation Burden Analysis

Fenizia

Alborelli

Costa

et al. 2021

The Journal of Molecular Diagnostics

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P46.07 An Extended Targeted RNA Sequencing for Fusion Detection with Oncomine Comprehensive Assay Plus

Marcovitz

Gottimukkala

Bee

et al. 2021

Journal of Thoracic Oncology

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Elaine Wong-Ho

Homologous Recombination Deficiency: Concepts, Definitions, and Assays

Unconventional Sequence Requirement for Viral Late Gene Core Promoters of Murine Gammaherpesvirus 68

Abstract 1701: Improvement of tumor mutation burden measurement by removal of deaminated bases in FFPE DNA

Validation of a Targeted Next-Generation Sequencing Panel for Tumor Mutation Burden Analysis

P46.07 An Extended Targeted RNA Sequencing for Fusion Detection with Oncomine Comprehensive Assay Plus

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