Brucine PEGylated nanoemulsion: In vitro and in vivo evaluation

Cancer represents one of the most life threatening disease worldwide. Poly ethylene glycol nanoemulsion (PEG NE), a new drug delivery system (DDS) is widely utilized for encapsulating water insoluble drugs and delivering it into cancerous tissue following its intravenous injection. Brucine (BRU) is an effective anti-carcinogenic agent toward different cancer cell lines; however, its low solubility represents a great obstacle in its formulation. The objective of this investigation was to develop and evaluate BRU-PEG-NE. Physicochemical evaluation including, viscosity, particle size and entrapment efficiency investigations were performed. Quantitative and qualitative estimation of total serum protein adsorbed onto the surface of BRU-NE were performed. in vitro release studies of BRU-NE with and without serum incubation were assayed. Formulations were tested for their cytotoxic activity using MTT assay. Finally, in-vivo anticancer effect was evaluated in tumor-inoculated mice. Homogenous NEs were obtained with particle size less than 140 nm and viscosity less than 3.3 cP for BRU-PEG-NE. Total serum protein adsorbed was less than 17.33 +/- 0.76 mu g/mu mol total lipid for BRU-PEG-NE. in vitro drug release was less than 65 % over 24 h for PEG-NE. As well, PEG-NEs could achieve significant inhibition for the viability of cancer cells. Finally, significant reduction in tumor growth rate and mortality rate for BRU PEG-NE formulations were obtained. The obtained results suggested that BRU PEG NE could be considered as a potential mean for cancer therapy.

Automated summary

The study successfully developed BRU-PEG-NE, which showed potential anticancer effects through evaluation of its physicochemical properties, encapsulation efficiency, and protein adsorption. BRU PEG NE was found to effectively inhibit the growth and proliferation of cancer cells, suggesting its potential as a cancer therapy mean.