Abstract
Targeted delivery of anticancer drugs to tumor cells using monoclonal antibodies against oncogenic cell surface receptors is an emerging therapeutic strategy. These strategies include drugs directly conjugated to monoclonal antibodies through chemical linkers (Antibody-Drug Conjugates, ADCs) or those encapsulated within nanoparticles that in turn are conjugated to targeting antibodies (Antibody-Nanoparticle Conjugates, ANPs). The recent FDA approval of the ADC Trastuzumab-TDM1 (Kadcyla®; Genentech; San Francisco) for the treatment of ErbB2-overexpressing metastatic breast cancer patients has validated the strong potential of these strategies. Even though the activity of ANPs and ADCs is dependent on lysosomal traffic, the roles of the endocytic route traversed by the targeted receptor and of cancer cell-specific alterations in receptor dynamics on the efficiency of drug delivery have not been considered in these new targeted therapies. For example, constitutive association with the molecular chaperone HSP90 is thought to either retard ErbB2 endocytosis or to promote its recycling, traits undesirable for targeted therapy with ANPs and ADCs. HSP90 inhibitors are known to promote ErbB2 ubiquitination, targeting to lysosome and degradation. We therefore hypothesized that ErbB2-targeted drug delivery using Trastuzumab-conjugated nanoparticles could be significantly improved by HSP90 inhibitor-promoted lysosomal traffic of ErbB2. Studies reported here validate this hypothesis and demonstrate, both in vitro and in vivo, that HSP90 inhibition facilitates the intracellular delivery of Trastuzumab-conjugated ANPs carrying a model chemotherapeutic agent, Doxorubicin, specifically into ErbB2-overexpressing breast cancer cells, resulting in improved antitumor activity. These novel findings highlight the need to consider oncogene-specific alterations in receptor traffic in the design of targeted drug delivery strategies. We suggest that combination of agents that enhance receptor endocytosis and lysosomal routing can provide a novel strategy to significantly improve therapy with ANPs and ADCs.
Highlights
Selective overexpression of certain plasma membrane receptors on cancer cells presents opportunities for targeted delivery of cytotoxic agents that are either directly linked to targeting ligands/antibodies or are encapsulated within nanometer-sized drug delivery vehicles decorated with targeting ligands/antibodies [1]
Even though the activity of antibody-conjugated drug nanoparticles (ANPs) and ADCs is dependent on lysosomal traffic, the roles of the endocytic route traversed by the targeted receptor and of cancer cell-specific alterations in receptor dynamics on the efficiency of drug delivery have not been considered in these new targeted therapies
Receptor tyrosine kinases such as EGFR and ErbB2 are overexpressed in many cancers and are being increasingly targeted with targeted drug delivery modalities, including Antibody-Drug-Conjugates (ADCs) and nano-particulate drug delivery systems
Summary
Selective overexpression of certain plasma membrane receptors on cancer cells presents opportunities for targeted delivery of cytotoxic agents that are either directly linked to targeting ligands/antibodies or are encapsulated within nanometer-sized drug delivery vehicles decorated with targeting ligands/antibodies [1]. Receptor tyrosine kinases such as EGFR and ErbB2 are overexpressed in many cancers and are being increasingly targeted with targeted drug delivery modalities, including Antibody-Drug-Conjugates (ADCs) and nano-particulate drug delivery systems. We illustrate the importance of receptor traffic on targeted drug delivery, using ErbB2-overexpressing breast tumor targeting through Trastuzumab as a model
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