Polymeric nanoparticles have shown great promise as attractive vehicles for drug delivery. In this study, we designed, prepared and characterized biodegradable amphiphilic triblock HPMA copolymer-doxorubicin (copolymer-DOX) conjugate based nanoparticle as enzyme-sensitive drug delivery vehicle. The enzyme-sensitive peptide GFLGKGLFG was introduced to the main chain of the copolymer with hydrophilic and hydrophobic blocks. The triblock HPMA polymer-DOX conjugate with high molecules (Mw 90 kDa) can be degraded to product with low molecule weight (Mw 44 kDa) below the renal threshold. The copolymer-DOX conjugate can self-assemble into compact nanoparticle, which was characterized by scanning electron microscope (SEM) and atomic force microscope (AFM) studies. This polymeric nanoparticle substantially enhanced antitumor efficacy compared to the free DOX, exhibiting much higher effects on inhibiting proliferation and inducing apoptosis on the 4T1 murine breast cancer model confirmed by the evidences from mice weight shifts, tumor growth curves, tumor growth inhibition (TGI), immunohistochemical analysis and histological assessment. The in vivo toxicity evaluation demonstrated that the polymeric nanoparticle reduced DOX-induced toxicities and presented no significant side effects to normal organs of both tumor bearing and healthy mice as measured by body weight shift, blood routine test and histological analysis. Therefore, the triblock HPMA copolymer-DOX conjugate based nanoparticle is promising as a potential drug delivery vehicle for breast cancer therapy.
Keywords: Biodegradation; Biosafety; Block polymer; Breast cancer; HPMA copolymer; Polymeric nanoparticle.
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