INTRODUCTION: The reaction between alpha,beta-poly(aspartylhydrazide) (PAHy), a water soluble synthetic polymer and 3-(carboxypropyl)trimethyl-ammonium chloride (CPTACl) produced copolymers bearing permanent positive charges (PAHy-CPTA) with molecular weight of 10 kDa and PAHy-CPTA copolymers differing in positive charge amount (18-58%) were chosen for biological investigations. MATERIALS AND METHODS: Biophysical properties of DNA/PAHy-CPTA polyplexes were evaluated in terms of DNA condensation, zeta potential and size distribution. Cytotoxicity studies on Neuro2A murine neuroblastoma cells evidenced absence of toxicity of these copolymers up to 300 microg/ml unlike linear polyethylenimine (LPEI) that was highly toxic already at 20 microg/ml. RESULTS AND DISCUSSION: PAHy-CPTA copolymers did not induce any erythrocyte aggregation up to 1 mg/ml. Cellular interaction studies of PAHy-CPTA polyplexes evidenced a faster binding of these polyplexes with cells compared to DNA/LPEI polyplexes. The in vitro transfection ability of PAHy-CPTA polyplexes was strongly affected by experimental conditions reaching about 10% of the transfection efficiency of optimized LPEI polyplexes. CONCLUSIONS: Finally, in vivo application studies confirmed the biocompatibility of PAHy-CPTA copolymers. With LPEI, clear signs of microvesicular fatty liver were observed and with LPEI polyplexes significant weight loss. In strong contrast, PAHy-CPTA did not induce histopathological changes or weight loss.
INTRODUCTION: The reaction between alpha,beta-poly(aspartylhydrazide) (PAHy), a water soluble synthetic polymer and 3-(carboxypropyl)trimethyl-ammonium chloride (CPTACl) produced copolymers bearing permanent positive charges (PAHy-CPTA) with molecular weight of 10 kDa and PAHy-CPTA copolymers differing in positive charge amount (18-58%) were chosen for biological investigations. MATERIALS AND METHODS: Biophysical properties of DNA/PAHy-CPTA polyplexes were evaluated in terms of DNA condensation, zeta potential and size distribution. Cytotoxicity studies on Neuro2A murineneuroblastoma cells evidenced absence of toxicity of these copolymers up to 300 microg/ml unlike linear polyethylenimine (LPEI) that was highly toxic already at 20 microg/ml. RESULTS AND DISCUSSION: PAHy-CPTA copolymers did not induce any erythrocyte aggregation up to 1 mg/ml. Cellular interaction studies of PAHy-CPTA polyplexes evidenced a faster binding of these polyplexes with cells compared to DNA/LPEI polyplexes. The in vitro transfection ability of PAHy-CPTA polyplexes was strongly affected by experimental conditions reaching about 10% of the transfection efficiency of optimized LPEI polyplexes. CONCLUSIONS: Finally, in vivo application studies confirmed the biocompatibility of PAHy-CPTA copolymers. With LPEI, clear signs of microvesicular fatty liver were observed and with LPEI polyplexes significant weight loss. In strong contrast, PAHy-CPTA did not induce histopathological changes or weight loss.
Authors: Sabine Boeckle; Katharina von Gersdorff; Silke van der Piepen; Carsten Culmsee; Ernst Wagner; Manfred Ogris Journal: J Gene Med Date: 2004-10 Impact factor: 4.565