Enzyme a Biosynthesis System on Manifestation of Metabolic Stress and Glutathione System in the CNS under Aluminium Neurotoxicosis

Abstract

Alzheimer’s-like disease was simulated in female adult Wistar CRL(WI) WUBR rats by 6-week intragastric administration of aluminium chloride at a dose of 200 mg/kg body mass. In the presence of developed oxidative stress (OS), we found a decrease in the activities of tricarboxylic acid cycle (TCA cycle) enzymes and an increase in the activities of pentose phosphate pathway (PPP) dehydrogenases as well as a reduction of SH-and SS-groups in proteins (P) along with the increased SH/SS ratio and glutathionylation with simultaneous decreases of glutathione (GSH) and the GSH/GSSG ratio and its redox potential in the brain hemispheres. The glutathione system enzymes were changed multidirectionally, with glutathione reductase remaining stable. Decreased activities of GSH biosynthesis enzymes and cysteine content were noticed. The intragastric administration of the CoA biosynthesis modulators D-panthenol (PL), D-pantethine or D-homopantothenate (HPA) at a dose of 200 mg/kg since the 5th week of the experiment caused either reduction or leveling of OS manifestations in blood plasma, an increase in acetyl cholinesterase, normalization of the activities of TCA cycle and PPP enzymes, P-SH level (not the SH/SS ratio) and a considerable reduction of S-glutathionylation as well as increases in GSH level, the GSH/GSSG ratio and redox potential in the hemispheres. The effect of CoA system modulators was manifested in activation of glutathione transferase, a decrease of glutathione peroxidase and less evident activation of GSH biosynthesis enzymes (PL) although they contributed to the elevation of cysteine content due to the reduced protein S-cysteinylation. The levels and the ratio of CoA/acetyl-CoA (except for PL) were not changed by toxicosis and the OS modulators. The feasibility of non-conenzyme effects was confirmed by the administration of HPA. The phenomenon of redox activity of the CoA biosynthesis modulators with clearly directional effects on the glutathione system and the TCA cycle and PPP enzymes during alleviation of OS and aluminium neurotoxicosis is discussed.