Polyelectrolytes-stabilized liposomes for efficient encapsulation of Lactobacillus rhamnosus and improvement of its survivability under adverse conditions

Abstract

To improve the survivability of Lactobacillus rhamnosus probiotics, nanoliposomes (NLs) coated with chitosan (CH)-gelatin (GE) polyelectrolytes have been synthesized and characterized. The produced CH-GE-coated NLs containing L. rhamnosus had mean sizes in the range of 134.8–495.8 nm. HRTEM showed the smooth spherical shape of the vesicles. ATR-FTIR findings indicated the successful coating of the produced NLs by the used CH-GE polyelectrolytes. According to DSC results, CH-GE polyelectrolytes desorption on the surface of NLs altered the physical characteristics of the phospholipid bilayers. Here, an increase in the melting temperature (Tm) from 119.9 to 127.5 °C in L. rhamnosus-loaded CH-GE-coated NLs made this system more stable than uncoated liposomes. Furthermore, the CH-GE coated nanoparticles loaded with L. rhamnosus exhibited a significant enhancement in the viability of cells under simulated gastrointestinal fluids (SGF/SIF). These results may guide the potential application of polyelectrolytes-coated NLs as a carrier of probiotic cells in functional food development.