BACKGROUND AND PURPOSE: Induction of multidrug resistance by doxorubicin (DOX), together with non-specific toxicities, has restricted DOX-based chemotherapy. Recently, we demonstrated that DOX conjugated with an EGF receptor-binding peptide (DOX-EBP) had enhanced anticancer efficacy and reduced systemic toxicity when targeting EGF receptor-overexpressing tumours. Here we investigated whether DOX-EBP is able to overcome drug resistance and the underlying molecular mechanisms. EXPERIMENTAL APPROACH: DOX-resistant SW480/DOX cells were derived from non-resistant SW480 cells by stepwise exposure to increasing concentrations of DOX, and P-glycoprotein overexpression induced by DOX was confirmed by Western blotting. Cytotoxicity and intracellular distribution of drugs were evaluated by MTT assay and fluorescence microscopy respectively. EGF receptor-mediated endocytosis was determined in EGF receptor and endocytosis inhibition assays. Drug accumulation in tumour cells and murine xenografts was determined by HPLC. KEY RESULTS: The cytotoxicity and accumulation of DOX-EBP in SW480/DOX cells were almost the same as in SW480 cells, but those of free DOX were reduced. DOX-EBP accumulation was prevented by inhibitors of both EGF receptors and endocytosis, suggesting EGF receptors mediate endocytotic uptake. Tumour accumulation of DOX-EBP was significantly higher than free DOX in mice, and the levels of DOX-EBP were similar in DOX-resistant and non-resistant tumour tissues. Importantly, DOX-EBP, but not free DOX, was effective at inhibiting solid tumour growth and increased survival rate in both sensitive and resistant models. CONCLUSION AND IMPLICATIONS: DOX-EBP can overcome DOX resistance of tumour cells and increase in vivo antitumour efficacy. Therefore, it has the potential to be a potent therapeutic agent for treating drug-resistant cancers.
BACKGROUND AND PURPOSE: Induction of multidrug resistance by doxorubicin (DOX), together with non-specific toxicities, has restricted DOX-based chemotherapy. Recently, we demonstrated that DOX conjugated with an EGF receptor-binding peptide (DOX-EBP) had enhanced anticancer efficacy and reduced systemic toxicity when targeting EGF receptor-overexpressing tumours. Here we investigated whether DOX-EBP is able to overcome drug resistance and the underlying molecular mechanisms. EXPERIMENTAL APPROACH: DOX-resistant SW480/DOX cells were derived from non-resistant SW480 cells by stepwise exposure to increasing concentrations of DOX, and P-glycoprotein overexpression induced by DOX was confirmed by Western blotting. Cytotoxicity and intracellular distribution of drugs were evaluated by MTT assay and fluorescence microscopy respectively. EGF receptor-mediated endocytosis was determined in EGF receptor and endocytosis inhibition assays. Drug accumulation in tumour cells and murine xenografts was determined by HPLC. KEY RESULTS: The cytotoxicity and accumulation of DOX-EBP in SW480/DOX cells were almost the same as in SW480 cells, but those of free DOX were reduced. DOX-EBP accumulation was prevented by inhibitors of both EGF receptors and endocytosis, suggesting EGF receptors mediate endocytotic uptake. Tumour accumulation of DOX-EBP was significantly higher than free DOX in mice, and the levels of DOX-EBP were similar in DOX-resistant and non-resistant tumour tissues. Importantly, DOX-EBP, but not free DOX, was effective at inhibiting solid tumour growth and increased survival rate in both sensitive and resistant models. CONCLUSION AND IMPLICATIONS: DOX-EBP can overcome DOX resistance of tumour cells and increase in vivo antitumour efficacy. Therefore, it has the potential to be a potent therapeutic agent for treating drug-resistant cancers.
Authors: Wenyuan Wu; Yunping Luo; Chengzao Sun; Yuan Liu; Paul Kuo; Janos Varga; Rong Xiang; Ralph Reisfeld; Kim D Janda; Thomas S Edgington; Cheng Liu Journal: Cancer Res Date: 2006-01-15 Impact factor: 12.701
Authors: Phillip H Abbosh; John S Montgomery; Jason A Starkey; Milos Novotny; Eleanor G Zuhowski; Merrill J Egorin; Annie P Moseman; Adam Golas; Kate M Brannon; Curtis Balch; Tim H M Huang; Kenneth P Nephew Journal: Cancer Res Date: 2006-06-01 Impact factor: 12.701
Authors: Sibu P Kuruvilla; Gopinath Tiruchinapally; A Colleen Crouch; Mohamed E H ElSayed; Joan M Greve Journal: PLoS One Date: 2017-08-22 Impact factor: 3.240