Cationic liposomes as carriers of natural compounds from plant extract

Lipid-based nanocarriers provide versatile platforms for the encapsulation and delivery of many different bioactive compounds to improve the solubility, stability and therapeutic efficacy of bioactive phyto-compounds. In this study, liposomes were used to load leaf extract of Coffea Arabica, which is known to be rich beneficial substances such as alkaloids, flavonoids, etc. The aim of this work is to optimize the valorization of agricultural wastes containing natural antioxidants. The physico-chemical properties of the liposomes loaded with chlorogenic acid or Coffea arabica leaf extract were evaluated. The average size of empty and loaded liposomes was found to range of 120–150 nm, which is consistent with the fact that the addition of chlorogenic acid or Coffea arabica leaf extract can change the average size of the vesicles without affecting the physicochemical properties of the lipid bilayer, which remain stable systems. A structural and morphological characterization as well as an evaluation of biological properties such as viability in normal human dermal fibroblasts, is also been carried out. The cationic liposomes show a good average size and low polydispersity index values, indicating that the liposomes tend to be monodisperse and therefore stable. In particular, DOPC/DOTAP liposomes generally have better properties than DOPC/DDAB liposomes for use as encapsulation systems for natural plant extracts.