Synthesis and properties of a new micellar polyphosphazene-platinum(II) conjugate drug

Authors
Avaji, Prakash G.Joo, Hye InPark, Jung HyunPark, Kyung SuJun, Yong JooLee, Hwa JeongSohn, Youn Soo
Issue Date
2014-11
Publisher
ELSEVIER SCIENCE INC
Citation
JOURNAL OF INORGANIC BIOCHEMISTRY, v.140, pp.45 - 52
Abstract
Aiming at tumor targeting delivery of oxaliplatin using polymer therapy, a new monomeric platinum(II) complex (dach)Pt[HEDM] (dach: trans-(+/-)-1,2-diaminocyclohexane; HEDM: 2-hydroxyethoxydiethylmalate) was designed to include the antitumor moiety (dach)Pt and HEDM as a linker to the polyphosphazene backbone. This monomeric Pt-complex could easily be grafted to the PEGylated polyphosphazene backbone to prepare a novel polyphosphazene-Pt conjugate, [NP(MPEG550)(dach)Pt(EM)](n), [MPEG550: methoxy poly(ethylene glycol) with an average molecular weight of 550; EM: ethoxymalate]. This amphiphilic polyphosphazene-Pt conjugate was found to self-assemble into stable polymeric micelles of a mean diameter of 130 nm, which is suitable for passive tumor targeting by enhanced permeability and retention (EPR) effect. Pharmacokinetic study of this polymer conjugate exhibited long blood circulation as expected and longer half-life (t(1/2)beta = 9.52 h) compared with oxaliplatin (3.47 h), and much larger AUC (area under the curve) value (25,831 ng.h/mL) compared with oxaliplatin (1194 ng.h/mL). Biodistribution study of the polymer conjugate has shown excellent tumor selectivity with the tumor to tissue ratio of 3.84 at 2 h post injection and 11.7 at 24 h post injection probably due to the EPR effect of the polymer conjugate while no tumor selectivity was observed for monomeric oxaliplatin. Furthermore, accumulation of this polymer conjugate in kidney was much lower compared with oxaliplatin. Also the nude mouse xenograft trial of the polymer conjugate has shown higher antitumor efficacy compared with oxaliplatin. (C) 2014 Elsevier Inc. All rights reserved.
Keywords
ANTITUMOR-ACTIVITY; CISPLATIN; DELIVERY; NEPHROTOXICITY; PERMEABILITY; NANOCAPSULES; COPOLYMER; ANTITUMOR-ACTIVITY; CISPLATIN; DELIVERY; NEPHROTOXICITY; PERMEABILITY; NANOCAPSULES; COPOLYMER; Platinum drug; Polymer conjugate; Polyphosphazene; Polymer micelle; Oxaliplatin
ISSN
0162-0134
URI
https://pubs.kist.re.kr/handle/201004/126175
DOI
10.1016/j.jinorgbio.2014.06.014
Appears in Collections:
KIST Article > 2014
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