A Nanoparticle System Specifically Designed to Deliver Short Interfering RNA Inhibits Tumor Growth in Vivo

Overview

Journal Cancer Res

Specialty Oncology

Date 2009 Aug 6

PMID 19654315

Citations 32

Authors

Nobuhiro Yagi

Ichiro Manabe

Tsuneaki Tottori

Atsushi Ishihara

Fusa Ogata

Jong Heon Kim

Satoshi Nishimura

Katsuhito Fujiu

Yumiko Oishi

Keiji Itaka

Yasuki Kato

Masahiro Yamauchi

Ryozo Nagai

Affiliations

Soon will be listed here.

Abstract

Use of short interfering RNA (siRNA) is a promising new approach thought to have a strong potential to lead to rapid development of gene-oriented therapies. Here, we describe a newly developed, systemically injectable siRNA vehicle, the "wrapsome" (WS), which contains siRNA and a cationic lipofection complex in a core that is fully enveloped by a neutral lipid bilayer and hydrophilic polymers. WS protected siRNA from enzymatic digestion, providing a long half-life in the systemic circulation. Moreover, siRNA/WS leaked from blood vessels within tumors into the tumor tissue, where it accumulated and was subsequently transfected into the tumor cells. Because the transcription factor KLF5 is known to play a role in tumor angiogenesis, we designed KLF5-siRNA to test the antitumor activity of siRNA/WS. KLF5-siRNA/WS exhibited significant antitumor activity, although neither WS containing control scrambled-siRNA nor saline containing KLF5-siRNA affected tumor growth. KLF5-siRNA/WS inhibited Klf5 expression within tumors at both mRNA and protein levels, significantly reducing angiogenesis, and we detected no significant acute or long-term toxicity. Our findings support the idea that siRNA/WS can be used to knock down specific genes within tumors and thereby exert therapeutic effects against cancers.

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