Resistance to chemotherapy, molecular targeted therapy as well as radiation therapy is a major obstacle for cancer treatment. Cancer resistance may be exerted through multiple different mechanisms which may be orchestrated as observed in multidrug resistance (MDR). Cancer resistance may be intrinsic or acquired and often leaves patients without any treatment options. Strategies for alternative treatment modalities for resistant cancer are therefore highly warranted. Photochemical internalization (PCI) is a technology for cytosolic delivery of macromolecular therapeutics based on the principles of photodynamic therapy (PDT). The present report reviews the current knowledge of PCI of therapy-resistant cancers. In summary, PCI may be able to circumvent several of the major mechanisms associated with resistance towards chemotherapeutics including increased expression of drug efflux pumps, altered intracellular drug distribution and increased ROS scavenging. Current data also suggest PCI of targeted toxins as highly effective in cancers resistant to clinically available targeted therapy such as monoclonal antibodies (mAbs) and tyrosine kinase inhibitors (TKIs). PCI may therefore, in general, represent a future treatment option for cancers resistant to other therapies.
HER2-targeted therapy has been shown to have limited efficacy in ovarian cancer despite frequent overexpression of this receptor. Photochemical internalization (PCI) is a modality for cytosolic drug delivery, currently undergoing clinical evaluation. In the present project we studied the application of PCI in combination with the HER2-targeted recombinant fusion toxin, MH3-B1/rGel, for the treatment of ovarian cancer. The SKOV-3 cell line, resistant to trastuzumab- and MH3-B1/rGel- monotherapy, was shown to respond strongly to PCI of MH3-B1/rGel to a similar extent as observed for the treatment-sensitive SK-BR-3 breast cancer cells. Extensive hydrolytic degradation of MH3-B1/rGel in acidic endocytic vesicles was indicated as the mechanism of MH3-B1/rGel resistance in SKOV-3 cells. This was shown by the positive Pearson's correlation coefficient between Alexa488-labeled MH3-B1/rGel and Lysotracker in SKOV-3 cells in contrast to the negative Pearson's correlation coefficient in SK-BR-3 cells. The application of PCI to induce the release of MH3-B1/rGel was also demonstrated to be effective on SKOV-3 xenografts. Application of PCI with MH3-B1/rGel was further found highly effective in the HER2 expressing HOC-7 and NuTu-19 ovarian cancer cell lines. The presented results warrant future development of PCI in combination with MH3-B1/rGel as a novel therapeutic approach in preclinical models of ovarian cancer.
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