Lipid Encapsulation Enables the Effective Systemic Delivery of Polyplex Plasmid DNA

Overview

Journal Mol Ther

Publisher Cell Press

Specialties Molecular Biology
Pharmacology

Date 2007 Feb 15

PMID 17299407

Citations 23

Authors

James Heyes

Lorne Palmer

Kitty Chan

Cory Giesbrecht

Lloyd Jeffs

Ian MacLachlan

Affiliations

Soon will be listed here.

Abstract

Using a new controlled mixing process, highly transfection-competent polyplexes were formed and subsequently encapsulated within a lipid bilayer. The resulting "pre-condensed stable plasmid lipid particles" (pSPLPs) have small size (104+/-3 nm) and low surface charge characteristics. The formulation process equally enabled lipid encapsulation of either poly-L-lysine or poly(ethyleneimine) (PEI) condensed DNA, and the endosomolytic benefits of PEI were demonstrated in in vitro gene expression studies. The clearance properties of pSPLP were compared to similar formulations with an uncondensed payload (SPLP) in A/J mice bearing subcutaneous Neuro-2a tumors. Plasma clearance of pSPLP (t(1/2)=6.6 h) was similar to SPLP (t(1/2)=7.1 h), allowing significant accumulation at distal tumor target sites. Gene expression profiles were evaluated in vivo using the Neuro-2a model, and PEI-pSPLP formulations demonstrated a sixfold increase in reporter gene expression in tumors compared to SPLP. No significant gene expression was observed in the liver, lung, or spleen when mice were treated with either SPLP or pSPLP, and both formulations were equally well tolerated. The results support the lipid encapsulation of polyplex plasmid DNA as a means of changing its pharmacologic properties and enabling systemic delivery. The inclusion of endosomolytic DNA-condensing agents such as PEI greatly improves the potency of SPLP.

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