Abstract
Multidrug-Resistant (MDR) cancers attenuate chemotherapeutic efficacy through drug efflux, a process that transports drugs from within a cell to the extracellular space via ABC (ATP-Binding Cassette) transporters, including P-glycoprotein 1 (P-gp or ABCB1/MDR1). Conversely, Toll-Like Receptor (TLR) agonist immunotherapies modulate activity of tumor-infiltrating immune cells in local proximity to cancer cells and could, therefore, benefit from the enhanced drug efflux in MDR cancers. However, the effect of acquired drug resistance on TLR agonist efflux is largely unknown. We begin to address this by investigating P-gp mediated efflux of TLR 7/8 agonists. First, we used functionalized liposomes to determine that imidazoquinoline TLR agonists Imiquimod, Resiquimod, and Gardiquimod are substrates for P-gp. Interestingly, the least potent imidazoquinoline (Imiquimod) was the best P-gp substrate. Next, we compared imidazoquinoline efflux in MDR cancer cell lines with enhanced P-gp expression relative to parent cancer cell lines. Using P-gp competitive substrates and inhibitors, we observed that imidazoquinoline efflux occurs through P-gp and, for Imiquimod, is enhanced as a consequence of acquired drug resistance. This suggests that enhancing efflux susceptibility could be an important consideration in the rational design of next generation immunotherapies that modulate activity of tumor-infiltrating immune cells.
Highlights
Multidrug-Resistant (MDR) cancers are implicated in over 90% of metastatic cancer deaths, including melanomas, breast cancer, and prostate cancer [1]
All three imidazoquinolines were tested at the same concentrations, from 1.56 to 200 μM
Cancer cell types chosen forfor this study were melanoma, TRAMP-C2 (TC2)
Summary
Multidrug-Resistant (MDR) cancers are implicated in over 90% of metastatic cancer deaths, including melanomas, breast cancer, and prostate cancer [1]. MDR cancers is enhanced drug efflux, a term describing the expression of transport proteins that traffic drugs from within a cell to the extracellular space, thereby lowering intracellular drug concentration [2]. In MDR cancers, drug efflux is facilitated by the ABC (ATP-Binding cassette) superfamily which consists of at least 48 distinct transport proteins [3,4]. P-glycoprotein (P-gp or ABCB1/MDR1) was the first discovered [5,6] and is the most well-studied [7,8]. P-gp is promiscuous, transporting structurally diverse compounds with minimal correlation other than a weak association with hydrophobicity [9,10,11,12,13].
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