Effects of novel hexahydropyrimidine derivatives as potential ligands of M1 muscarinic acetylcholine receptor on cognitive function, hypoxia-induced lethality, and oxidative stress in rodents

Abstract

The neurodegenerative diseases have a complex pathogenetic mechanism comprising oxidative stress and receptor system dysfunction caused by various damaging factors such as, for example, brain hypoxia. The purpose of this study was to elucidate the influence of hexahydropyrimidine derivatives on learning, memory, and orientation and locomotor activities in the passive avoidance (PA) and open field (OF) tests and to evaluate these compounds for their potential antihypoxic and antioxidant action on normobaric hypercapnic hypoxia and toxic hypoxia models. We demonstrated that compounds 1a and 1e administered as a single 100 mg/kg dose (p.o.) one hour before the tests increased the latency time to enter the dark compartment for the first time and reduced the time spent in the dark compartment on the 2nd, 7th, and 14th days of PAT and increased the number of squares crossed and hole-pokings in the OF test. It was also shown that single administration of compounds 1a and 1e (in 100 mg/kg dose, p.o.) one hour before generation of hypoxia increased the life span of mice under normobaric hypoxia by 30% (P < 0.05) and, after injection of sodium nitroprusside, they decreased the malondialdehyde (MDA) level and increased the catalase level in the brain of mice. According to molecular docking results, compounds 1а and 1е are bound in the orthosteric active site of M1 muscarinic receptor via supramolecular interactions with a number of functional amino acids. The results indicate that hexahydropyrimidine derivatives have a beneficial effect on the memory, learning processes, and orientation and locomotor activities of rats in an unfamiliar environment and exhibit antihypoxic and antioxidant activities under hypoxia in mice. The cognitive enhancement can be mediated by the effect of lead compounds on the M1 muscarinic acetylcholine receptor.

Keywords: Antihypoxic activity; Hexahydropyrimidine; Learning and memory; M1 muscarinic acetylcholine receptor; Molecular docking; Open field test; Passive avoidance.