Abstract A039: Silencing MICAL2 expression in pancreatic cancer cells reduces IL-1A expression and inhibits tumor growth through a CD8+ T cell dependent mechanism

Abstract

Abstract Introduction: Pancreatic cancer is characterized by desmoplastic, fibroinflammatory stroma. The crosstalk between cancer cells and their surrounding tumor microenvironment (TME) promotes disease progression, metastasis, and chemoresistance. We identified MICAL2 as a super-enhancer-associated gene in pancreatic cancer. MICAL2 (molecule interacting with Cas-L) proteins are flavin monooxygenases that promote actin depolymerization and indirectly regulate SRF transcription. In other work, we have found that MICAL2 promotes pancreatic cancer growth and progression. This study evaluated how MICAL2 pancreatic cancer cell expression modulates the PDAC tumor microenvironment. Methods: RNA-Seq analysis performed on human pancreas cancer cells (AsPC-1) before and after MICAL2 KD revealed differential regulation of IL-1α. We validated the expression of IL-1α in multiple human and mouse pancreas cancer cell lines by q-PCR. We next exposed human (h) and mouse (m) PSCs to conditioned media (CM) from cancer cells before and after MICAL2 KD and checked the expression of a-SMA, fibronectin, and Col1A and IL-6 genes by qPCR. KrasG12D/+; Trp53R172H/+; Pdx1-cre (KPC) cells with and without MICAL2 were orthotopically injected to assess the in vivo tumor growth and metastasis. Sc-RNA seq and Immunophenotyping were performed on Shcontrol (ShCNT) and MICAL2 (M2KD) KD tumors. CD8+ T cell depletion was done using an antibody-mediated approach. The adoptive transfer of CD8+ T cells extracted from MICAL2 KD tumors was done by tail vein injection. Results: MICAL2 KD resulted in the downregulation of the IL-1α gene in both human and mouse pancreas cancer cell lines (50% reduction, p<0.05). Human and mouse pancreatic stellate cells (hPSCs and mPSCs) co-cultured with cancer cells CM showed significant downregulation of a-SMA, fibronectin, Col1A, and IL-6 upon MICAL2 KD as compared to hPSCs and mPSCs co-cultured with ShCNT cells. Orthotopic injections of KPC MICAL2 KD cells led to decreased tumor growth as compared to ShCNT (0.26 gm vs. 1 gm, p = 0.008). Immunofluorescence (IF) revealed less α-SMA, PDGF-α, and IL-6 expression and reduced deposition of collagen and fibronectin in MICAL2 KD tumors. Single-cell RNA seq and flow cytometry studies of tumors harvested from both groups showed significantly increased infiltration of activated cytotoxic CD8+ T cells in MICAL2 KD tumors which was further confirmed by IF. Antibody-mediated depletion of CD8+ T cells in MICAL2 KD tumors abrogated their reduced tumor growth in both immune-hot and immune-cold KPC cell lines. Adoptive transfer of CD8+ T cells extracted from M2KD tumors significantly reduced ShCNT flank tumor growth. Conclusion: These data reveal that MICAL2 expression mediates tumor-stromal crosstalk through IL1A and creates an immunosuppressive environment in PDAC and suggests MICAL2 may be an attractive immunomodulatory target for pancreatic cancer therapy. Ongoing work is focused on dissecting the role of MICAL2 in priming the metastatic niche through the remodeling of the TME. Citation Format: Bharti Garg, EvanGeline Mose, Edgar Esparza, Jay Patel, Sarah Sass, Alexei Martsinkovskiy, Dawn Jacquish, Herve Tiriac, Andrew M. Lowy. Silencing MICAL2 expression in pancreatic cancer cells reduces IL-1A expression and inhibits tumor growth through a CD8+ T cell dependent mechanism [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Pancreatic Cancer; 2023 Sep 27-30; Boston, Massachusetts. Philadelphia (PA): AACR; Cancer Res 2024;84(2 Suppl):Abstract nr A039.