| The extended use of doxorubicin(DOX)could be limited due to the emergence of drug resistance associated with its treatment.In addition to the overexpression of ATP-binding cassette(ABC)transporters such as P-glycoprotein(P-gp),other mechanisms including apoptosis evasion and tumor cell survival may also be important contributors to drug resistance.Within this context,targeting extracellular signal-regulated kinases(ERK),one of the principle protein molecules in cell apoptosis has emerged as an attractive therapeutic concept.In this study,a dual-targeting hybrid peptide HAIYPRHGGCGMPKKKPTPIQLNP(T10-ERK),which is composed of ERK peptide inhibitor MPKKKPTPIQLNP,a thiol spacer(i.e.,GGCG)and transferrin receptor(TfR)-binding peptide HAIYPRH,was designed.Then,this thiol-modified hybrid peptide was conjugated to DOXO-EMCH((6-maleimidocaproyl)hydrazone of DOX),forming a novel peptide-DOX conjugate T10-ERK-DOX.The structure and properties of this conjugate were characterized using 1H NMR,mass spectrometry and HPLC.Using MCF-7/ADR cells as an in vitro model system and nude mice bearing MCF-7/ADR xenografts as an in vivo model,the ability of T10-ERK-DOX to reverse drug resistance was accessed as compared with free DOX and T10-DOX.As a result,T-ERK-DOX demonstrated a much lower in vitro IC50(20.8 ± 1.1 mM)and its in vivo extent of inhibition in mice was more evident(72.2 ± 4.6%)· Induction of various apoptosis pathways was also observed.Furthermore,the potency of ERK peptide inhibitor to reverse drug resistance was individually assessed,given the pronounced efficacy of T10-DOX indicated by our previous work.The results provided evidence of its additive effect with T10-DOX,which leads to greater efficacy and less susceptibility to drug resistance.Finally,the success of multi-targeting strategy in the present study implied that multi-target drugs with rational design could be more promising in cancer therapy. |
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