Advanced Structure-activity Relationships Applied to Mentha spicata L. Subsp. spicata Essential Oil Compounds as AChE and NMDA Ligands, in Comparison with Donepezil, Galantamine and Memantine – New Approach in Brain Disorders Pharmacology

Title:Advanced Structure-activity Relationships Applied to Mentha spicata L. Subsp. spicata Essential Oil Compounds as AChE and NMDA Ligands, in Comparison with Donepezil, Galantamine and Memantine – New Approach in Brain Disorders Pharmacology

Volume: 16 Issue: 7

Author(s): Speranta Avram, Maria Mernea*, Eyup Bagci, Lucian Hritcu, Livia-Cristina Borcan and Dan Florin Mihailescu

Affiliation:

• Department of Anatomy, Animal Physiology and Biophysics, Faculty of Biology, University of Bucharest, 91-95th Spl. Independentei: 050095, Bucharest,Romania

Keywords: Acetylcholinesterase, Alzheimer's disease, 1, 8-cineole, Mentha spicata L. subsp. spicata essential oil, N-methyl-Daspartate receptor, structure-biological activity relation.

Abstract: Background: Alzheimer's disease (AD) therapy is based on several natural and synthetic compounds that act as acetylcholinesterase (AChE) and N-methyl-D-aspartate receptor (NMDA) ligands that have limited efficiency in relieving AD symptoms. Recent studies show that inhibitors isolated from Mentha spicata L. subsp. spicata are promising for AD therapy.

Objective: We aimed to identify novel and more potent phytopharmaceutical compounds for AD treatment by taking into account the compounds from Mentha spicata L. subsp. spicata essential oil.

Method: We generated structure-activity relationship (SAR) models that predict the biological activities of 14 Mentha spicata L. subsp. spicata compounds on AChE and NMDA by comparing their molecular features with those of the three conventional ligands: donepezil, galantamine and memantine.

Results: The most relevant descriptors for predicting the biological activities of considered compounds are solvent accessible area and their subdivided, hydrophobicity, energy of frontier molecular orbitals and counts of the aromatic ring and rotatable bounds. 1,8-cineole, the main compound from Mentha spicata L. subsp. spicata essential oil, resulted to be similar with memantine and dissimilar with donepezil in respect to hidrophobicity (logP1,8-cineole=2.95, logPmemantine=2.81, logPdonepezil=4.11), the energy of LUMO (eLUMO1,8-cineole=3.01 eV, eLUMOmemantine=3.35 eV, eLUMOdonepezil=-0.35 eV) and the solvent accessible surface areas over all hydrophobic (SA_H1,8-cineole= 350 Å2, SA_Hmemantine= 358 Å2, SA_Hdonepezil= 655 Å2) or polar atoms (SA_P1,8-cineole= 4 Å2, SA_Pmemantine=10 Å2, SA_Pdonepezil=44.62 Å2).

Conclusion: Our results point towards 1,8-cineole as a good candidate for NMDA antagonism, with a weaker AChE inhibitory effect. Our results may be useful in establishing new therapeutic strategies for neurological disorders.

Cite this article as:

Avram Speranta, Mernea Maria *, Bagci Eyup , Hritcu Lucian , Borcan Livia-Cristina and Mihailescu Florin Dan , Advanced Structure-activity Relationships Applied to Mentha spicata L. Subsp. spicata Essential Oil Compounds as AChE and NMDA Ligands, in Comparison with Donepezil, Galantamine and Memantine – New Approach in Brain Disorders Pharmacology, CNS & Neurological Disorders - Drug Targets 2017; 16 (7) . https://dx.doi.org/10.2174/1871527316666170113115004