Inhibition of Melittin Activity Using a Small Molecule with an Indole Ring.
Sayuki KanemitsuKenta MoritaYudai TominagaKanon NishimuraTomoko YashiroHaruka SakuraiYumemi YamamotoIkuo KurisakiShigenori TanakaMasaki MatsuiTooru OoyaAtsuo TamuraTatsuo MaruyamaPublished in: The journal of physical chemistry. B (2022)
We investigated d-amino acids as potential inhibitors targeting l-peptide toxins. Among the l- and d-amino acids tested, we found that d-tryptophan (d-Trp) acted as an inhibitor of melittin-induced hemolysis. We then evaluated various Trp derivatives and found that 5-chlorotryptamine (5CT) had the largest inhibitory effect on melittin. The indole ring, amino group, and steric hindrance of an inhibitor played important roles in the inhibition of melittin activity. Despite the small size and simple molecular structure of 5CT, its IC 50 was approximately 13 μg/mL. Fluorescence quenching, circular dichroism measurements, and size-exclusion chromatography revealed that 5CT interacted with Trp19 in melittin and affected the formation of the melittin tetramer involved in hemolysis. Molecular dynamics simulation of melittin also indicated that the interaction of 5CT with Trp19 in melittin affected the formation of the tetramer.
Keyphrases
- image quality
- computed tomography
- small molecule
- dual energy
- molecular dynamics simulations
- contrast enhanced
- amino acid
- positron emission tomography
- magnetic resonance imaging
- single molecule
- molecular docking
- risk assessment
- red blood cell
- drug induced
- liquid chromatography
- climate change
- atomic force microscopy
- human health