Dual ionotropic crosslinked biopolymer magnetic nanocomposites as 5‐Fluorouracil nanocarrier for potential colorectal cancer treatment

Abstract

AbstractThis study aimed to synthesize dual‐crosslinked chitosan‐alginate nanocomposites (Cs‐Alg/IO NCs) using green‐synthesized iron oxide nanoparticles (IO, Fe3O4 NPs) for drug delivery application. The NCs, formed via ionotropic gelation with sodium tripolyphosphate (TPP) and calcium chloride (CaCl2) as crosslinking agents for Cs and Alg, respectively, and further characterized for physiochemical properties. The presence of Fe3O4 NPs and 5‐Fluorouracil (5FU) increased hydrodynamic size (153.12 ± 0.57 to 207.64 ± 3.59 nm). Morphological studies revealed NC agglomeration within nanoscales. 5FU‐loaded Cs‐Alg/IO NCs (Cs‐Alg/IO 5FU NCs) exhibited superparamagnetic behavior and sustained drug release under various pH conditions. Cytotoxicity assays on colon cancer cells (HCT116 and HT‐29) and normal colon cells (CCD‐112) indicated higher cancer cell selectivity (selectivity index, SI = 1.91) in 2D models. Elevated IC50 values in 3D models were linked to lower drug loading capacity (LC) and encapsulation efficiency (EE). Overall, the study highlights the potential of dual‐crosslinked biopolymer NCs with green‐synthesized Fe3O4 NPs for developing an anticancer drug delivery system in colorectal cancer treatment.Highlights Synthesis of 5FU‐loaded dual crosslinked Cs‐Alg/IO NCs and Cs‐Alg IPN. Physicochemical characterization of cross‐linked magnetic nanocarriers. Investigation of sustained drug release using superparamagnetic nanocarriers. Evaluation of selective cytotoxicity for Cs‐Alg/IO 5FU NCs.