Sorption Studies of Tetracycline Antibiotics on Hydroxyapatite (001) Surface-A First-Principles Insight.
Jiaming SongNaiyu CuiXuran MaoQixuan HuangEui-Seok LeeHeng-Bo JiangPublished in: Materials (Basel, Switzerland) (2022)
Owing to the limitations of traditional systemic drug delivery in the treatment of bone diseases with side effects on normal cells, the selection of materials with high affinities for bones, as targeting ligands to modify drug carriers, has become an important research topic. Tetracyclines (TCs) have an adsorption effect on hydroxyapatite (HAp). Thus, they can be used as bone-targeting ligands and combined with drug carriers. In this study, density functional theory is used to analyze the interaction mechanism of TC, oxytetracycline (OTC), chlortetracycline, and HAp. We calculate the electrostatic potential (ESP) and molecular orbitals to predict the possible binding sites of TCs on the HAp surface. The adsorption energy is used to compare the affinities of the three TCs to HAp. An independent gradient model analysis is performed to study the weak interaction between TCs and HAp. The coordination bond between TCs and the HAp surface is evaluated by conducting a charge density difference analysis. The results show that OTC has the highest affinity to HAp because the introduction of hydroxyl groups change the adsorption configuration of OTC. Thus, OTC adsorbed on HAp in a broken-line shape exposes more binding sites. This study provides a theoretical basis for TCs as bone-targeting ligands in treating bone diseases and in improving the safety of treatment by selecting different bone-targeting ligands.
Keyphrases
- bone mineral density
- density functional theory
- bone regeneration
- drug delivery
- cancer therapy
- soft tissue
- emergency department
- molecular dynamics
- postmenopausal women
- risk assessment
- oxidative stress
- climate change
- induced apoptosis
- molecular dynamics simulations
- body composition
- human health
- pi k akt
- lactic acid
- sewage sludge