A strategy toward therapeutic improvement of electric feld-sensitive gemcitabine prodrugs in 2D metal–organic frameworks in view of their structure and interactions

چکیده مقاله

Gemcitabine, among other chemotherapeutic agents, helps to save many lives in fghting cancers of various types. Nevertheless, many side effects arise from the high dosage required for effective treatment. Nanotechnology-based drug delivery systems (DDSs) are among the newly proposed strategies proposed to send chemotherapeutic agents directly to tumor cells and reduce their hazardous concentrations in healthy tissues. In this paper, through density functional theory (DFT) calculations and molecular dynamics (MD) simulations, a new DDS is designed in which gemcitabine is conjugated to an electric feld-responsive polymer called polypyrrole and loaded on a metal–organic nanosheet (MON). DFT calculations reveal that covalent bonding between the drug and polymer has a limited impact on the chemical properties of the drug. On the other hand, the MD simulation suggested that the adsorption of the drug on the CuBDC nanoparticle is highly improved by conjunction with polymer. The interaction energy of the drug-polymer complex with MON is approximately 138 kJ/mol stronger than the corresponding value for the free drug. Furthermore, implementation of a lower magnitude of the external electric feld may reduce the adsorption interaction energies, while a higher value will help in better absorption.