Longitudinal genomic profiling of chemotherapy-related CHIP variants in patients with ovarian cancer

Longitudinal genomic profiling of chemotherapy-related CHIP variants in patients with ovarian cancer

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IntroductionClonal hematopoiesis (CH) is characterized by the presence of hematopoietic stem cells (HSCs) with the potential of clonally expanding and giving rise to hematological malignancies.Clonal hematopoiesis of indeterminate potential (CHIP) is the outgrowth of a single HSC clone with an acquired somatic mutation in the absence of hematological abnormalities.CHIP variants occur with a variant allele frequency (VAF) of at least 2% in peripheral blood.This definition does not account for less frequent mutations that give rise to hematopoietic clones.Previous studies indicate an association between CH and secondary hematologic malignancies in cancer patients who receive chemotherapy.

MethodsTo discover novel candidate CHIP mutations, including those with extremely low VAFs, we performed an in-depth characterization of low-frequency CHIP variants in a highly selected group of patients with BUTTERCUP BLOND PWD high-grade serous ovarian cancer (HGSC) before and after neoadjuvant chemotherapy (NACT).We performed comprehensive ultra-high-depth whole-exome sequencing of circulating free DNA (cfDNA) and matched white blood cell (WBC) DNA from pre- (n=9) and post-NACT (n=9) samples from HGSC patients who had excellent response (ER; n=4) or poor response (PR; n=5) to NACT.ResultsVariants present in both the WBC DNA and cfDNA from a patient were considered candidate CHIP variants.We identified 93,088 candidate CHIP variants in 13,780 genes.Compared with pre-NACT samples, post-NACT samples tended to have fewer CHIP mutations with VAFs of less than 5%, which may reflect the negative selective pressure of chemotherapy on rare hematopoietic clones.

Finally, we identified CHIP variants in Incense tumor samples matched to the liquid biopsies.DiscussionOur innovative sequencing approach enabled the discovery of a large number of novel low-frequency candidate CHIP mutations, whose frequency and composition are affected by chemotherapy, in the cfDNA of patients with HGSC.The CHIP variants that were enriched after chemotherapy, if validated, might become essential predictive markers for therapy-related myeloid neoplasia.