Preparation and characterizations of self-assembled PEGylated gelatin nanoparticles

The PEGylated gelatin nanoparticles were prepared by self-assembling method and characterized. The gelatin drug carrier was proposed as a targeting drug delivery system with the hypothesis that the gelatin carrier could be degraded by the matrix metalloprotease (MMP) and release the anticancer drug loaded inside carriers around the cancer site. The gelatin nanoparticles proposed in this study were composed of deoxycholic acid (DOCA), monomethoxy polyethylene glycol (MPEG), and gelatin. The carboxyl groups of DOCA and carboxylated MPEG were coupled with amine group of gelatin by dichlorohexylcarbodiimide (DCC) method. One molecule of gelatin coupled with 205 molecules of MPEG and 275 molecules of DOCA. The synthesized gelatin/ DOCA/MPEG conjugates (GDM) were ultrasonicated to produce self-assembled nanoparticles. DOCA acted as the hydrophobic core, thereby aggregating gelatin molecules and hydrophilic MPEG chains located at the surface of the nanoparticles. The concentration of GDM, intensity of sonication, sonication time and temperature, all affected to control the particle size in the ultrasonication. The optimum condition was obtained as 1.0 mg/mL of GDM, 28 W for sonication intensity, 3 min of sonication time, and room temperature. The size distribution of particle was found to be 100-1000 nm in this condition. The particles which had a broad size distribution were filtered by 0.2 p.m membrane. The product yield of particles having below 200 nm of size was about 30%. After filtration, an average diameter of GDM nanoparticle was 176 nm (155-200 nm).