Novel branched poly(ethylenimine)-cholesterol water-soluble lipopolymers for gene delivery. Academic Article uri icon

Overview

abstract

  • A novel water-soluble lipopolymer was synthesized by linking cholesteryl chloroformate to the secondary amino groups of branched poly(ethylenimine) (PEI) of 1,800 and 10,000 Da. Conjugation through PEI secondary amines gives this newly synthesized lipopolymer (abbreviated as PEI-Chol) special advantage over our previously synthesized lipopolymers, which utilized the primary amino groups for conjugation, as the primary amino groups have a significant role in DNA condensation. Also, significantly, only one cholesterol molecule was grafted onto each PEI molecule (confirmed by (1)H NMR and MALDI-TOF mass spectrometry), leaving enough space for the steric interactions of the PEI's primary amines with the DNA. The PEI-Chol lipopolymer was characterized for the critical micellar concentration (cmc), buffer capacity, DNA condensation (by band retardation and circular dichroism), in vitro transfection efficiency, and cell viability. The cmcs of PEI-Chol 1,800 and PEI-Chol 10,000 were 496.6 and 1,330.5 microg/mL, respectively. The acid-base titration indicated high buffering capacity of the polymers around the pH range of 5-7, which indicated their potential for buffering in the acidic pH environment of the endosomes. The band retardation studies indicated that efficient condensation of the plasmid DNA could be achieved using these lipopolymers. The circular dichroism spectra indicated a change in DNA conformation and adoption of lower energy state upon condensation with these lipopolymers when an N/P ratio of 2.5/1 or above was formulated. The mean particle size of these complexes was in the range 110-205 nm, except for the complexes prepared using PEI of 1,800 Da, which had a mean particle size of 384 +/- 300 nm. The zeta potential of DNA complexes prepared using PEI-Chol 1,800, PEI-Chol 10,000 and PEI of 1,800, 10,000, and 25,000 Da at an N/P ratio of 15/1 was in the range 23-30 mV and was dependent on the N/P ratios. The in vitro transfection of PEI-Chol/pCMS-EGFP complexes in Jurkat cells showed high levels of expressed Green Fluorescent Protein (GFP) with little toxicity as determined by flow cytometry. These novel water-soluble lipopolymers provided good transfection efficiency with other desirable characteristics such as water solubility, free primary amino groups for efficient DNA condensation and high buffer capacity that indicated the possibility of efficient endosomal release.

publication date

  • November 1, 2002

Research

keywords

  • Liposomes
  • Transfection

Identity

Scopus Document Identifier

  • 0036858462

PubMed ID

  • 12425656

Additional Document Info

volume

  • 3

issue

  • 6