Abstract 108: Tumor-derived complement C3 is overexpressed in STK11 mutant non-small cell lung cancer and contributes to an immunosuppressive tumor microenvironment in a syngeneic mouse model

Abstract

Abstract Mutations in STK11 that lead to loss of its protein LKB1 occur in 15-20% of non-squamous non-small cell lung cancer (NSCLC) and are frequently co-mutated with oncogenic KRAS mutations. KRAS and STK11 co-mutant NSCLC is associated with poor prognosis, low PD-L1 expression, low T-cell infiltration, and poor response to immune-checkpoint inhibitors (ICI). Loss of LKB1 leads to altered transcriptional programs with the activation of CREB-dependent gene transcription and changes in the tumor microenvironment including recruitment of suppressive myeloid cells. We used the syngeneic Kras mutant murine CMT167 tumor cell line that is wild-type for Tp53 and Stk11 and sensitive to ICI and generated isogeneic Stk11 knockout cell lines (CMT167-Stk11-KO) by CRISPR/Cas-9 deletion. Loss of Stk11 recapitulated LKB1-loss transcriptional signatures and rendered CMT167 tumors resistant to ICI. Single-cell RNA sequencing (10x) of implanted tumors demonstrated significantly less CD8 T-cells and increased neutrophils (PMN) in Stk11-KO versus Stk11-WT tumors. Analysis of differentially expressed genes in the tumor compartment identified increased expression of complement pathway genes including the central mediator C3 in CMT-167-Stk11-KO tumors. Examination of a well characterized clinical cohort of human KRAS-mutant NSCLC patient samples with and without STK11 mutation confirmed the increased expression of complement C3 in STK11-mutant tumors. Analysis of a human NSCLC cell line panel demonstrated that C3 expression was modulated by LKB1. Knockout of C3 in CMT167-Stk11-KO tumor resulted in dramatic inhibition of tumor growth and re-sensitized CMT167-Stk11-KO tumors to ICI treatment in WT mice. Using C3-/- knockout mice, this effect was determined to be reliant on tumor-derived C3 and dependent on adaptive immunity as no difference in growth of CMT167-Stk11-KO tumors occurred in nude mice or in WT mice after CD8 T-cell depletion. We then compared the transcriptome of Stk11-KO tumor cells with and without C3 deletion, and observed that C3 upregulates the expression of Cxcl1, Cxcl2 and Cxcl3 which mediate PMN recruitment and activation. Since these chemokines ligate Cxcr2, we asked whether Cxcr2 mediated tumor growth and ICI resistance in Stk11-KO tumors. While treatment with single-agent Cxcr2 inhibitor and anti-PD-1 therapy had no effect on tumor growth, the combination resulted in significant suppression of tumor growth in vivo. These results support a role for tumor-derived C3 suppressing CD8 T-cell immunity, potentially indirectly through recruitment of PMN or inducing PMN suppressor function. Our results also provide rationale for targeting tumor-derived complement and inhibiting Cxcr2 to enhance ICI efficacy as novel therapeutic approaches in patients with STK11-mutant NSCLC. Citation Format: Sora Suzuki, Catrina Ting, Bojidar Kandar, Te-An Chen, Anm Nazmul Khan, Thejaswini Giridharan, Brahm Segal, Edwin H. Yau. Tumor-derived complement C3 is overexpressed in STK11 mutant non-small cell lung cancer and contributes to an immunosuppressive tumor microenvironment in a syngeneic mouse model [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 108.