Abstract
The systemic toxicity of anticancer drugs regularly restricts the use of conventional chemotherapy to treat cancer. In this study, the limitations overcome by profitably fabricating a multifunctional nanocarrier system to carry the anticancer drug into the specific location of the cancer cells. The polyethylene glycol (PEG) was functionalized in the carboxylated multiwalled carbon nanotubes (MWCNT-COOH) through an esterification reaction (MWCNT-PEG). The targeting ligand of folic acid (FA) was covalently bonded with hyperbranched poly-L-lysine (HBPLL) using adipic acid (AA) as a cross-linking agent. Doxorubicin (DOX), an anticancer drug, was effectively loaded on MWCNT-PEG-AA-HBPLL-FA carrier loading, and in-vitro drug release was investigated by UV–Vis spectrophotometer. The chemical functionalization, morphological properties, crystalline nature, surface charge, and thermal stability of the synthesized materials were studied by FT-IR, FE-SEM, HR-TEM, DLS, and TGA techniques. In-vitro cytotoxicity and anticancer properties of DOX-loaded nanocarrier were studied in human liver cancer (HepG2) cells and human embryonic kidney (HEK293) cells. The activities of caspases (caspase −3, −8 & −9) were analyzed using luminometry. The intrinsic apoptosis pathway proteins (Bcl-2 & BAX) were determined by western blot and RT-PCR analysis. The synthesized DOX-loaded nanocarriers exhibited increased cytotoxicity and apoptosis in liver HepG2 cells. The results suggest that the DOX-loaded nanocarrier possesses strong anticancer properties and could be an applicable and potential drug carrier for liver cancer chemotherapy.
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