Issue 24, 2020

Engineering liposomal nanoparticles of cholesterol-tethered amphiphilic Pt(iv) prodrugs with prolonged circulation time in blood

Abstract

Cisplatin is a platinum-based chemotherapeutic agent widely used in the treatment of various solid tumors. However, a major challenge in the use of cisplatin and in the development of cisplatin derivatives, namely Pt(IV) prodrugs, is their premature reduction in the bloodstream before reaching cancer cells. To circumvent this problem, we designed liposomal nanoparticles coupled with a cholesterol-tethered amphiphilic Pt(IV) prodrug. The addition of cholesterol served to stabilize the formation of the liposome, while selectively incorporating cholesterol as the axial ligand also allowed the Pt(IV) prodrug to readily migrate into the liposomal bilayer. Notably, upon embedding into the nanoparticles, the Pt(IV) prodrug showed marked resistance against premature reduction in human plasma in vitro. Pharmacokinetic analysis in a mouse model also showed that the nanoparticles significantly extend the half-life of the Pt(IV) prodrug to 180 min, which represents a >6-fold increase compared to cisplatin. Importantly, such lipid modification did not compromise the genotoxicity of cisplatin, as the Pt(IV) prodrug induced DNA damage and apoptosis in ovarian cancer cell lines efficiently. Taken together, our strategy provides a novel insight as to how to stabilize a platinum-based compound to increase the circulation time in vivo, which is expected to enhance the efficacy of drug treatment.

Graphical abstract: Engineering liposomal nanoparticles of cholesterol-tethered amphiphilic Pt(iv) prodrugs with prolonged circulation time in blood

Supplementary files

Article information

Article type
Paper
Submitted
08 Apr 2020
Accepted
14 May 2020
First published
28 May 2020

Dalton Trans., 2020,49, 8107-8113

Engineering liposomal nanoparticles of cholesterol-tethered amphiphilic Pt(IV) prodrugs with prolonged circulation time in blood

P. Datta, S. Bang, Z. Yue, T. Beach, M. Stilgenbauer, H. Wang, D. J. Bowers, M. Kurokawa, H. Xiao and Y. Zheng, Dalton Trans., 2020, 49, 8107 DOI: 10.1039/D0DT01297A

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