Herein, we developed a new gene delivery vector by grafting
a betaine
monomer (N,N-dimethyl(acrylamidopropyl)ammonium
propane sulfonate, DMAAPS) onto 25 KDa polyethylenimine (PEI 25K)
via the Michael addition reaction. The graft ratio for betaine on
PEI polymer could be readily controlled, and in this study three PEI-betaine
conjugates PEI-DMAAPS23%, PEI-DMAAPS55%, and
PEI-DMAAPS95% were prepared with their graft ratios of
23, 55, and 95%, respectively. The PEI-betaine conjugates exhibited
much lower protein adsorption and cytotoxicities compared with PEI
25K, and they also showed little or no hemolytic effect. Moreover,
the PEI-betaine conjugates display satisfactory DNA condensation capability;
and in the absence and presence of serum, PEI-DMAAPS23%/pEGFP and PEI-DMAAPS55%/pEGFP complexes exhibited remarkable
gene transfection efficiencies determined by flow cytometry, which
are in general several times higher than that of PEI 25K. With these
favorable properties, the PEI-betaine conjugates hold great potential
for use as efficient gene delivery vectors. This study suggests that
the betaine monomer may serve as a biocompatible modifying agent and
this facile strategy may provide a facile and effective way for constructing
some other biocompatible materials.