Inhibition of a Mitochondrial Potassium Channel in Combination with Gemcitabine and Abraxane Drastically Reduces Pancreatic Ductal Adenocarcinoma in an Immunocompetent Orthotopic Murine Model

Simple Summary Treatment of pancreas ductal adenocarcinoma (PDAC) remains challenging due to the late stage of presentation, limited efficacy of cytotoxic chemotherapies, and aggressive tumor biology. Novel therapeutic targets are desperately needed. The voltage-gated potassium channel, Kv1.3, is one such unique target. It has been extensively studied in many cancers but less is known in pancreas cancer. In this study, we evaluated the tissue expression of Kv1.3 in resected PDAC and tumor inhibition using novel Kv1.3 inhibitors developed by our group (PCARBTP and PAPTP) with cytotoxic chemotherapies. We found that Kv1.3 is expressed in early stage, non-metastatic, resectable pancreas cancer specimens. Treatment with novel mitochondrial Kv1.3 inhibitors resulted in 95% reduced tumor growth when combined with cytotoxic chemotherapies. This near complete eradication of tumors using this treatment strategy shows that Kv1.3 represents an innovative therapeutic target for pancreas cancer therapy. Pancreas ductal adenocarcinoma (PDAC) is one the most aggressive cancers and associated with very high mortality, requiring the development of novel treatments. The mitochondrial voltage-gated potassium channel, Kv1.3 is emerging as an attractive oncologic target but its function in PDAC is unknown. Here, we evaluated the tissue expression of Kv1.3 in resected PDAC from 55 patients using immunohistochemistry (IHC) and show that all tumors expressed Kv1.3 with 60% of tumor specimens having high Kv1.3 expression. In Pan02 cells, the recently developed mitochondria-targeted Kv1.3 inhibitors PCARBTP and PAPTP strongly reduced cell survival in vitro. In an orthotopic pancreas tumor model (Pan02 cells injected into C57BL/6 mice) in immune-competent mice, injection of PAPTP or PCARBTP resulted in tumor reductions of 87% and 70%, respectively. When combined with clinically used Gemcitabine plus Abraxane (albumin-bound paclitaxel), reduction reached 95% and 80% without resultant organ toxicity. Drug-mediated tumor cell death occurred through the p38-MAPK pathway, loss of mitochondrial membrane potential, and oxidative stress. Resistant Pan02 clones to PCARBTP escaped cell death through upregulation of the antioxidant system. In contrast, tumor cells did not develop resistance to PAPTP. Our data show that Kv1.3 is highly expressed in resected human PDAC and the use of novel mitochondrial Kv1.3 inhibitors combined with cytotoxic chemotherapies might be a novel, effective treatment for PDAC.

Automated summary

The study evaluated the expression of Kv1.3 potassium channel in pancreatic ductal adenocarcinoma (PDAC) and found that it could be a novel therapeutic target for PDAC treatment. The use of Kv1.3 inhibitors in combination with cytotoxic chemotherapies showed significant reduction in tumor growth.