Liposomal Black Mulberry Extract Loaded-Nanofibers: Preparation, Characterisation, and Bioaccessibility of Phenolics by Simulated <i>in Vitro</I> Digestion Combined With the Caco-2 Cell Model

Abstract

Black mulberry extract (BME) is rich in phenolics; however, their health benefits are restricted by their instability and poor absorption in the small intestine. Liposomal BME-loaded pullulan/pectin nanofibers were developed to enhance the in vitro bioaccessibility of BME. The liposomes with BME (0.8%, w/v), were produced by the thin-film hydration and ultrasonication method with a size of 76.41 +/- 1.23 nm and encapsulated 79.40 +/- 0.99%.of the BME. Scanning electron microscopy (SEM) and confocal laser scanning microscopy (CLSM) images showed that the uniform distribution of liposomes within the defect-free fiber structure. Liposomal BME loading elevated the mucoadhesiveness of the nanofibers compared to free BME loading. Liposomal BME-loaded nanofiber demonstrated a nearly two-fold increase in the bioaccessibility of anthocyanins. The cellular release of all four different anthocyanins by Caco-2 cells was significantly higher (3.92%-10.50%) in liposomal BME-loaded nanofiber. Therefore, liposomal nanofibers show great potential as a method for delivering phenolics, specifically anthocyanins.