The role of innate immune system in modulating CHK1 inhibitor (CHK1i) response in BRCA wild-type (BRCAwt), platinum-resistant high-grade serous ovarian cancer (PR-HGSOC): Exploratory analysis from a phase II study of CHK1i prexasertib.

Abstract

5557 Background: Immune checkpoint blockade, e.g., anti-PD-1/PD-L1, demonstrated limited efficacy in HGSOC despite high levels of tumor-infiltrating lymphocytes, suggesting the innate, rather than adaptive, immune system may play a prominent role in anticancer response. Preclinical studies suggest CHK1i modulates the innate immune milieu. We previously showed clinical activity of prexasertib in BRCAwt, PR-HGSOC patients (pts). Here, we investigated the association of innate immunogenic features with CHK1i response. Methods: Prexasertib was given at 105 mg/m2 IV every 14 days in a 28-day cycle. Baseline (BL) fresh core biopsies were collected from pts enrolled in the biopsy (Bi) cohort for RNA sequencing. Computational immunogenomic analysis (CIBERSORT) was used for immune cell fractions quantification. Blood samples (BS) were obtained at BL and cycle 1 day 15 (C1D15) from pts enrolled in both Bi and non-Bi (nBi) cohorts for multiparametric flow cytometry (FC) analysis to evaluate dynamic changes in immune cell subsets. Mann-Whitney and Wilcoxon tests were used to compare unpaired and paired data, respectively. Results: 49 BRCAwt, PR-HGSOC pts were enrolled in the Bi cohort (n=25) and nBi cohort (n=24). 39 were evaluable per RECIST v1.1. 18/39 pts (46.2%) had a clinical benefit (CB), defined as progression-free survival≥6 months. Transcriptomic profiles of BL biopsies (n=15) met the quality control and assurance (Gene Similarity Index, Principal Component Analysis) for further in silico analysis. CIBERSORT analysis did not exhibit any differences in the immune cell fractions between CB and non-CB (NCB) groups at BL. FC analysis on paired BS (BL and C1D15) showed an increase of immunosuppressive monocytic myeloid-derived suppressor cells (M-MDSCs, p<0.001) and classical monocytes (CM, p=0.003) in the NCB group (18 paired BS). In the CB group (19 paired BS), CD141+ and CD1c+ dendritic cells (DCs) express higher rates of CD83, a marker of maturity and functionality (p<0.001 and p<0.001, respectively), despite no increase in the absolute number of DCs. At C1D15, a higher rate of M-MDSCs (median 7.8% vs. 5.52%; p=0.03) and CM (median 40.7% vs. 31.7%; p=0.03) were found in the NCB group (n=18) compared to the CB group (n=19); also, CM showed lower expression of HLA-DR in the NCB group (median 19.25% vs. 27.8%; p=0.02). Conclusions: Collectively, our data suggest the possible involvement of innate immunity in modulating CHK1i response. Increasing peripheral immunosuppressive cells and lower immunocompetence of the innate immune system may contribute to CHK1i resistance, whereas the functionality of DCs may be involved in the response. Enhancing innate immunity may represent a strategy to increase CHK1i response in this hard-to-treat population. Clinical trial information: NCT02203513 .