Multifunctional engineering of Mangifera indica L. peel extract-modified bacterial cellulose hydrogel: Unveiling novel strategies for enhanced heavy metal sequestration and cytotoxicity evaluation
Ahmed K. Saleh, K.M. Aboelghait, Esmail M. El‐Fakharany, Hamada El‐Gendi
Abstract
The escalating interest in bacterial cellulose (BC) confronts a substantial obstacle due to its biologically inert properties. Hence, BC was modified with ethanolic mango peel extract (EEMP) for various industrial and medical applications of the novel nanocomposite (BC/EEMP). High-performance liquid chromatography (HPLC) delineated the phenolic composition of EEMP, revealing a repertoire of polyphenolic compounds , notably chlorogenic acid , gallic acid , catechin , and ellagic acid . EEMP exhibited broad-spectrum antimicrobial activity against Candida albicans and Staphylococcus aureus , with MIC of 0.018 mg/mL and 0.009 mg/mL, respectively. The removal mechanism of Pb 2+ and Ni 2+ by BC/EEMP nanocomposite membrane via SEM, EDX , FT-IR, and XRD was characterized, indicating deposition and aggregation of heavy metals with diminished porosity. Heavy metal removal optimization using the Box-Behnken design achieved maximal removal of 95.5 % and 90 % for Pb 2+ and Ni 2+ , respectively. Moreover, BC/EEMP nanocomposite demonstrated selective dose-dependent anticancer activity toward hepatoma (HepG-2, IC 50 of 208.8 μg/mL), skin carcinoma (A431, IC 50 of 216.7 μg/mL), and breast carcinoma (MDA, IC 50 of 197.5 μg/mL), attributed to the enhanced availability of biologically active polyphenolic compounds and physical characteristics of BC. This study underscores the remarkable potential of BC/EEMP nanocomposite for multifaceted industrial and biomedical applications, marking a pioneering contribution to the field.