Trametinib potentiates anti-PD-1 efficacy in tumors established from chemotherapy-primed pancreatic cancer cells.

Despite advances in immune checkpoint inhibitors (ICIs), chemotherapy remains the standard therapy for patients with pancreatic ductal adenocarcinoma (PDAC). As the combinations of chemotherapy, including the FOLFIRINOX (5-fluorouracil (5FU), irinotecan, and oxaliplatin) regimen, and ICIs have failed to demonstrate clinical benefit in patients with metastatic PDAC tumors, there is increasing interest in identifying therapeutic approaches to potentiate ICI efficacy in PDAC patients. In this study, we report that neoadjuvant FOLFRINOX-treated human PDAC tumors exhibit increased MEK/ERK activation. We also show elevated MEK/ERK signaling in ex vivo PDAC slice cultures and cell lines treated with a combination of 5FU (F), irinotecan (I), and oxaliplatin (O) (FIO). In addition, we find that the KPC-FIO cells, established from repeated treatment of mouse PDAC cell lines with 6-8 cycles of FIO, display enhanced ERK phosphorylation and demonstrate increased sensitivity to MEK inhibition in vitro and in vivo. Significantly, the KPC-FIO cells develop tumors with a pro-inflammatory immune profile similar to human PDAC tumors following neoadjuvant FOLFIRINOX treatment. Furthermore, we found that the MEK inhibitor Trametinib enables additional infiltration of highly functional CD8+ T cells into the KPC-FIO tumors and potentiates the efficacy of anti-PD-1 antibody in syngeneic mouse models. Our findings provide a rationale for combining Trametinib and anti-PD-1 antibodies in PDAC patients following neoadjuvant or short-term FOLFIRINOX treatment to achieve effective anti-tumor responses.

Targeting BCL2 with Venetoclax Enhances the Efficacy of the KRASG12D Inhibitor MRTX1133 in Pancreatic Cancer.

MRTX1133 is currently being evaluated in patients with pancreatic ductal adenocarcinoma (PDAC) tumors harboring a KRASG12D mutation. Combination strategies have the potential to enhance the efficacy of MRTX1133 to further promote cell death and tumor regression. In this study, we demonstrated that MRTX1133 increased the levels of the pro-apoptotic protein BIM in PDAC cells and conferred sensitivity to the FDA-approved BCL2 inhibitor venetoclax. Combined treatment with MRTX1133 and venetoclax resulted in cell death and growth suppression in 3D cultures. BIM was required for apoptosis induced by the combination treatment. Consistently, BIM was induced in tumors treated with MRTX1133, and venetoclax enhanced the efficacy of MRTX1133 in vivo. Venetoclax could also re-sensitize MRTX1133-resistant PDAC cells to MRTX1133 in 3D cultures, and tumors established from resistant cells responded to the combination of MRTX1133 and venetoclax. These results provide a rationale for the clinical testing of MRTX1133 and venetoclax in PDAC patients.