Defects in genes involved in the DNA damage response cause homologous recombination repair deficiency(HRD).HRD is found in a subgroup of cancer patients for several tumor types,and it has a clinical relevance to cance...Defects in genes involved in the DNA damage response cause homologous recombination repair deficiency(HRD).HRD is found in a subgroup of cancer patients for several tumor types,and it has a clinical relevance to cancer prevention and therapies.Accumulating evidence has identified HRD as a biomarker for assessing the therapeutic response of tumor cells to poly(ADP-ribose)polymerase inhibitors and platinum-based chemotherapies.Nevertheless,the biology of HRD is complex,and its applications and the benefits of different HRD biomarker assays are controversial.This is primarily due to inconsistencies in HRD assessments and definitions(gene-level tests,genomic scars,mutational signatures,or a combination of these methods)and difficulties in assessing the contribution of each genomic event.Therefore,we aim to review the biological rationale and clinical evidence of HRD as a biomarker.This review provides a blueprint for the standardization and harmonization of HRD assessments.展开更多
基金supported by the National Key R&D Program of China(Grant No.2022YFC2409902)the National Natural Science Foundation of China(Grant No.82172876)+2 种基金the Beijing Nova Program of Science and Technology(Grant No.Z191100001119095)the Chinese Academy of Medical Sciences(CAMS)Innovation Fund for Medical Sciences(Grant No.2021-I2M-1-066)the Beijing Hope Run Special Fund of Cancer Foundation of China(Grant No.LC2019L04).
文摘Defects in genes involved in the DNA damage response cause homologous recombination repair deficiency(HRD).HRD is found in a subgroup of cancer patients for several tumor types,and it has a clinical relevance to cancer prevention and therapies.Accumulating evidence has identified HRD as a biomarker for assessing the therapeutic response of tumor cells to poly(ADP-ribose)polymerase inhibitors and platinum-based chemotherapies.Nevertheless,the biology of HRD is complex,and its applications and the benefits of different HRD biomarker assays are controversial.This is primarily due to inconsistencies in HRD assessments and definitions(gene-level tests,genomic scars,mutational signatures,or a combination of these methods)and difficulties in assessing the contribution of each genomic event.Therefore,we aim to review the biological rationale and clinical evidence of HRD as a biomarker.This review provides a blueprint for the standardization and harmonization of HRD assessments.
