Abstract

Abstract Despite significant advances in outcomes with immunotherapy, most cancer patients do not benefit from currently approved immune checkpoint inhibitors (ICI). The reasons for ICI resistance are multi-faceted and suggest that additional immunomodulation is required to improve outcomes. MTL-CEBPA is a novel immunotherapy based on RNA activation that upregulates expression of a master myeloid transcription factor, CEBPA. The small activating RNA for CEBPA is encapsulated within a NOV340 liposome that targets the myeloid cell lineage. MTL-CEBPA has shown favorable safety and promising clinical activity in combination with tyrosine kinase inhibitors (Sorafenib) in hepatocellular carcinoma (NCT-02716012) [Hashimoto et al, CCR 2021; Sarker et al, CCR 2020]. We recently reported preliminary clinical data from the ongoing multi-center phase 1 TIMEPOINT study (NCT-04105335) evaluating the safety, pharmacokinetics, immunomodulation, and clinical activity of MTL-CEBPA in combination with pembrolizumab in patients with solid tumors who have exhausted standard therapy. This demonstrated a favorable safety profile and initial clinical activity [Plummer et al, JITC 2021]. Here we report the findings from a biomarker pharmacodynamic analysis of paired baseline and cycle 2 tumor sample biopsies in 23 patients from the TIMEPOINT trial. Brightplex® IHC and digital pathology analyses of the samples for myeloid and T cell panels were undertaken, alongside gene expression (Nanostring I/O 360). Prior to study treatment, nine patients out of 23 had an immune cold tumor microenvironment (TME) at baseline as measured by the Immunosign®21 score. Following the combination of MTL-CEBPA with pembrolizumab, seven of these patients converted to an inflamed TME by Immunosign®21 (P=0.008). This change in the TME was associated with infiltration of CD8 and cytotoxic T cells (CD8+, GrzB+, Ki-67+) (P=0.1). GSEA analysis indicated that a Tstem-like signature was enriched post-treatment. A Brightplex® IHC analysis of myeloid cells in these patients indicated that, post treatment, there was a significant influx of HLA-DR+ myeloid cells into the TME (P=0.04). We also observed a significant increase in the expression of CXCL9, 10, and 11. The remaining 14 patients had an inflamed TME at baseline. Here, we also observed an increase in HLA-DR+ cells, T cells, and chemokines, though to a lesser extent. Further, however, in these inflamed tumors—which have significantly greater infiltration of myeloid-derived suppressor cells (MDSCs) than desert tumors—we observed a reduction in 8/10 patients with detectable PMN-MDSCs (P=0.1) post treatment, consistent with the mechanism of action of CEBPA. An expression signature based on 18 genes significantly enriched for clinical response across all patients. Collectively, these data suggest a positive immunomodulatory TME effect of the combination of MTL-CEBPA with pembrolizumab. In both hot and cold TME tumors, the combination drives directed differentiation of progenitor monocytes into HLA-DR+ myeloid cells secreting chemokines that stimulate the ingress of T cells into the TME. We observe a significant positive correlation between the change in cytotoxic T cells and HLA-DR+ myeloid cells post treatment (P=0.004). These effects are most pronounced in cold tumors. Citation Format: Ruth Plummer, Mikael Sodergren, Brid Ryan, Ilian Tchakov, Nina Raulf, Rose Hodgson, CP Tan, Joanna P. Nicholls, Alison Adderkin, N Vasileiadou, Vikash Reebye, Tim Meyer, David J. Pinato, Debashis Sarker, Bristi Basu, Sarah Blagden, Natalie Cook, Jeff Evans, Jeffrey Yachnin, Cheng Ean Chee, Dan Li, Anthony El-Khoueiry, Maria Diab, Kai-Wen Huang, Marcus S. Noel, Bridget Keenan, Devalingam Mahalingam, Melanie Grosso, Denis Arnaud, Aurelie Auguste, Jan Storkholm, Iain McNeish, Robert Habib, John J. Rossi, Nagy Habib. MTL-CEBPA in combination with pembrolizumab converts an immune desert to an inflamed TME in solid tumors resistant to checkpoint blockade [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 2 (Clinical Trials and Late-Breaking Research); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(8_Suppl):Abstract nr LB192.

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