Epigenetic priming enhances antitumor immunity in platinum-resistant ovarian cancer
Siqi Chen, … , Bin Zhang, Daniela Matei
Siqi Chen, … , Bin Zhang, Daniela Matei
Published June 7, 2022
Citation Information: J Clin Invest. 2022;132(14):e158800. https://doi.org/10.1172/JCI158800.
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Clinical Research and Public Health Immunology Oncology

Epigenetic priming enhances antitumor immunity in platinum-resistant ovarian cancer

Abstract

Background Immune checkpoint inhibitors (ICIs) have modest activity in ovarian cancer (OC). To augment their activity, we used priming with the hypomethylating agent guadecitabine in a phase II study.Methods Eligible patients had platinum-resistant OC, normal organ function, measurable disease, and received up to 5 prior regimens. The treatment included guadecitabine (30 mg/m2) on days 1–4, and pembrolizumab (200 mg i.v.) on day 5, every 21 days. The primary endpoint was the response rate. Tumor biopsies, plasma, and PBMCs were obtained at baseline and after treatment.Results Among 35 evaluable patients, 3 patients had partial responses (8.6%), and 8 (22.9%) patients had stable disease, resulting in a clinical benefit rate of 31.4% (95% CI: 16.9%–49.3%). The median duration of clinical benefit was 6.8 months. Long-interspersed element 1 (LINE1) was hypomethylated in post-treatment PBMCs, and methylomic and transcriptomic analyses showed activation of antitumor immunity in post-treatment biopsies. High-dimensional immune profiling of PBMCs showed a higher frequency of naive and/or central memory CD4+ T cells and of classical monocytes in patients with a durable clinical benefit or response (CBR). A higher baseline density of CD8+ T cells and CD20+ B cells and the presence of tertiary lymphoid structures in tumors were associated with a durable CBR.Conclusion Epigenetic priming using a hypomethylating agent with an ICI was feasible and resulted in a durable clinical benefit associated with immune responses in selected patients with recurrent OC.Trial registration ClinicalTrials.gov NCT02901899.Funding US Army Medical Research and Material Command/Congressionally Directed Medical Research Programs (USAMRMC/CDMRP) grant W81XWH-17-0141; the Diana Princess of Wales Endowed Professorship and LCCTRAC funds from the Robert H. Lurie Comprehensive Cancer Center; Walter S. and Lucienne Driskill Immunotherapy Research funds; Astex Pharmaceuticals; Merck & Co.; National Cancer Institute (NCI), NIH grants CCSG P30 CA060553, CCSG P30 CA060553, and CA060553.

Authors

Siqi Chen, Ping Xie, Matthew Cowan, Hao Huang, Horacio Cardenas, Russell Keathley, Edward J. Tanner, Gini F. Fleming, John W. Moroney, Alok Pant, Azza M. Akasha, Ramana V. Davuluri, Masha Kocherginsky, Bin Zhang, Daniela Matei

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Figure 5

Identification of metaclusters in PBMCs with a significant difference between patients with a durable CBR and nonresponders before treatment with G+P.

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Identification of metaclusters in PBMCs with a significant difference be...
(A) Exemplified tSNE visualization of overlaid unsupervised metaclusters in PBMCs using the FlowSOM algorithm from an extended cohort of nonresponders (n = 9) and patients with a durable CBR (n = 6) at C1D1, prior to therapy. (B) edgeR analysis identified metaclusters with significant differences in relative abundance between nonresponders and patients with a durable CBR. (C) Differences in the percentages of unsupervised metaclusters in PBMCs from nonresponders and patients with a durable CBR at C1D1. Data indicate the mean ± standard deviation. *P < 0.05 and **P < 0.01, by 2-tailed t test with multiple-comparison correction using the Benjamini-Hochberg adjustment. (D) Heatmap represents the median expression levels of the indicated markers within the metaclusters that had significant differences in relative abundance between nonresponders and patients with a durable CBR.