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expHRD: an individualized, transcriptome-based prediction model for homologous recombination deficiency assessment in cancer

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Authors

Lee, Jae Jun; Kang, Hyun Ju; Kim, Donghyo; Lim, Si On; Kim, Stephanie S.; Kim, Gahyun; Kim, Sanguk; Lee, Jin-Ku; Kim, Jinho

Issue Date
2024-07
Publisher
BioMed Central
Citation
BMC Bioinformatics, Vol.25 No.1, p. 236
Abstract
BackgroundHomologous recombination deficiency (HRD) stands as a clinical indicator for discerning responsive outcomes to platinum-based chemotherapy and poly ADP-ribose polymerase (PARP) inhibitors. One of the conventional approaches to HRD prognostication has generally centered on identifying deleterious mutations within the BRCA1/2 genes, along with quantifying the genomic scars, such as Genomic Instability Score (GIS) estimation with scarHRD. However, the scarHRD method has limitations in scenarios involving tumors bereft of corresponding germline data. Although several RNA-seq-based HRD prediction algorithms have been developed, they mainly support cohort-wise classification, thereby yielding HRD status without furnishing an analogous quantitative metric akin to scarHRD. This study introduces the expHRD method, which operates as a novel transcriptome-based framework tailored to n-of-1-style HRD scoring.ResultsThe prediction model has been established using the elastic net regression method in the Cancer Genome Atlas (TCGA) pan-cancer training set. The bootstrap technique derived the HRD geneset for applying the expHRD calculation. The expHRD demonstrated a notable correlation with scarHRD and superior performance in predicting HRD-high samples. We also performed intra- and extra-cohort evaluations for clinical feasibility in the TCGA-OV and the Genomic Data Commons (GDC) ovarian cancer cohort, respectively. The innovative web service designed for ease of use is poised to extend the realms of HRD prediction across diverse malignancies, with ovarian cancer standing as an emblematic example.ConclusionsOur novel approach leverages the transcriptome data, enabling the prediction of HRD status with remarkable precision. This innovative method addresses the challenges associated with limited available data, opening new avenues for utilizing transcriptomics to inform clinical decisions.
ISSN
1471-2105
URI
https://hdl.handle.net/10371/209013
DOI
https://doi.org/10.1186/s12859-024-05854-y
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  • College of Medicine
  • Department of Medicine
Research Area 3D drug screening, Cancer Organoid, Precision Oncologuy

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