Abstract
A cisplatin-loaded nanoconjugate, poly(γ, l-glutamic acid)-citric acid-cisplatin [γ-PGA-CA-CDDP], as a tumor-targeted drug delivery system with sustained release capacity was successfully synthesized and characterized, and its antitumor activity was evaluated. The particle size (107 ± 6.3 nm) and average molecular weight (66 kDa) were determined by dynamic light scattering (DLS) and gel permeation chromatography (GPC), respectively. The nanoconjugate delivery system released platinum in a sustained manner in PBS at 37 °C with an initial burst release during the first 8 h and 50% cumulative release within 48 h. Both in-vitro and in-vivo studies showed that the toxicity of γ-PGA-CA-CDDP nanoconjugate significantly decreased by comparison to that of unconjugated CDDP. The maximum tolerated dose (MTD) of γ-PGA-CA-CDDP nanoconjugate was about 38 mg/kg versus 8 mg/kg for CDDP. No apathy or acute adverse reactions were observed in γ-PGA-CA-CDDP nanoconjugate groups while mice expressed apathy at all dose levels with CDDP treatment. In ICR mice, the area under the curve and total body clearance values for γ-PGA-CA-CDDP nanoconjugate were 9-fold and one-twentieth of the values for CDDP, respectively. With the aid of near-infrared fluorescence (NIRF) imaging system, it was demonstrated that γ-PGA-CA-CDDP nanoconjugate gradually accumulated at the tumor site within 15 min postinjection and exhibited prolonged retention for more than 8 h. In H22-implanted mice, γ-PGA-CA-CDDP showed a significantly higher antitumor activity versus CDDP. These results reveal that γ-PGA-CA-CDDP nanoconjugate with improved stability, reduced toxicity and prolonged in-vivo retention time holds great potential in terms of clinical application to cancer therapy.
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