Drug Repurposing to Inhibit Histamine N -Methyl Transferase.
Elvia Mera JiménezTeresa ŻołekPaola Gabriela Hernández PerezRené Miranda RuvalcabaMaría Inés Nicolás-VázquezMaricarmen Hernández-RodríguezPublished in: Molecules (Basel, Switzerland) (2023)
Lower activity of the histaminergic system is associated with neurological disorders, including Alzheimer's disease (AD). Thus, the enhancement of histaminergic neurotransmission by inhibition of histamine N -methyl transferase (HNMT), which degrades histamine, appears as an important approach. For this purpose, rigid and flexible molecular docking studies of 185 FDA-approved drugs with the HNMT enzyme were carried out to select two compounds to perform molecular dynamics (MD) simulations to evaluate the binding free energies and stability of the enzyme-drug complexes. Finally, an HNMT inhibition assay was performed to corroborate their effect towards HNMT. Molecular docking studies with HNMT allowed the selection of dihydroergotamine and vilazodone since these molecules showed the lowest Gibbs free energy values. Analysis of the binding mode of vilazodone showed interactions with the binding pocket of HNMT with Glu28, Gln143, and Asn283. In contrast, dihydroergotamine binds to the HNMT active site in a different location, apparently because it is overall the more rigid ligand compared to flexible vilazodone. HNMT inhibitory activity for dihydroergotamine and vilazodone was corroborated (IC 50 = 72.89 μM and 45.01 μM, respectively) by in vitro assays. Drug repurposing of HNMT was achieved by employing computational studies.
Keyphrases
- molecular docking
- molecular dynamics
- molecular dynamics simulations
- density functional theory
- case control
- high throughput
- magnetic resonance
- emergency department
- drug induced
- adverse drug
- binding protein
- computed tomography
- dna binding
- transcription factor
- brain injury
- subarachnoid hemorrhage
- electronic health record