[Use of vitamins for correction of the functional state of cytochrome P450 systems in experimental allergic encephalomyelitis].

It is known that inflammatory cytokines, which level is significantly increased in the pathogenesis of multiple sclerosis (MS), as well as interferon-beta, which is used to treat autoimmune diseases, can inhibit cytochrome P450-dependent processes of detoxification and biotransformation. The uncontrolled decrease of the activity of these processes may have a negative affect on the state of patients, so it is urgent to study the functional state of the cytochrome P450 system and to develop effective means for its regulation in these conditions. The effect of vitamin D3 and efficiency of its composition with vitamins B1, B2, B6, PP, E, alpha-lipoic, alpha-linolenoic acid and mineral substances (Mg, Zn, Se) in prevention of a functional state changes of cytochrome P450- and b5-dependent systems of the rat brain and liver endoplasmic reticulum at EAE are investigated. It has been shown that the essential decrease of the level of these cytochromes is observed both in the brain and liver. In addition the level of activity of NADH- and NADPH-oxidoreductases, which are part of microsomal electron transport chain components and coupled with monooxigenases, was reduced. These changes confirm the disturbances of a redox state and functional activity of detoxication and biotransformation systems in the studied animal tissues. Supplement of vitamin D3 as well as the composition of biologically active substances, which we developed earlier, effectively eliminated the decrease of the level of cytochromes and activities of NADH-oxidoreductase in immunised rat tissues. Normalization of these disturbances can be explained by antioxidant and membrane-stabilizing properties of applied substances, and also by the ability to reduce the activity of inflammatory reactions by regulation of the level of inflammatory cytokines in rat organism at EAE. Thus the studied vitamin-mineral composition appeared to be more effective to normalize the found disturbances and it can be useful for prevention of exacerbations and for improvement of a status of patients with multiple sclerosis and other diseases, which are accompanied with hyperactivation of immune system.

[Lipids and caplain in guinea pig tissues in the process of development of experimental autoimmune encephalomyelitis].

The character of some lipids level change--cholesterol and phospholipids--as basic lipid components of cell membranes in the guinea-pig brain and liver tissue, and in serum in conditions of development of experimental autoimmune encephalomyelitis (EAE) have been investigated on the 11th, 21st, 27th day after inoculation. It has been detected, that the level of the investigated lipids changes wavely and indifferent-direction in the brain tissue on the 21st day of EAE. Similar variability observed in the activity of proteolytic ferment calpain, which is authentically reduced in the brain tissue by the 11th hour and increases up to the test objective level in the subsequent periods of EAE development. In the liver the level of alpha-tocopherol is reduced, while the content of studied lipids does not change. The investigated parameters can be attributed to the factors, which play an essential role in structural stability of cell membranes and their variability in conditions of EAE development is related to the processes of nervous cells demyelinisation and, hence to occurrence of such pathology as multiple sclerosis in people.

[Lipid peroxidation and antioxidant defence enzyme activity in multiple sclerosis].

Changes of state of lipid peroxidation and activity of antioxidant defence enzymes katalase, superoxide dismutase, glutathione peroxidase and glutathione reductase - in the brain and liver tissue of guinea-pig in conditions of different stages of experimental autoimmune encephalomyelitis (EAE; 11th, 21st, 27th day after inoculation) and in blood of multiple sclerosis (MS) patients with different types, degrees of severity and length of disease and blood level of reduced glutathione have been investigated. We have found, that the development of oxidative stress in animal organism during the disease development is progressive and intensive lipid peroxide oxidation without compensation by antioxidant mechanisms have been shown in the late period (27th day) of the experiment. In MS conditions this state was accompanied with high activity of demyelination process, severe degree of neuronal injury and length of disease above 5 years. In addition reduced glutathione level was increased in many patient groups: remitting type, light (II) degree of severity and among the patients with strongly disturbed neurological functions and long course of the disease. The obtained data allow us to suppose that the development of oxidative stress under demyelination conditions is a result of strong metabolic disorders and decrease of antioxidant defence in the patients during the disease development. The necessity of individual approaches for antioxidant therapy of patients with MS is discussed.

[Redox-state of NAD pairs and activity of lactatedehydrogenase and NADase in guinea pig tissues at different stages of development of experimental allergic encephalomyelitis]. / Okysno-vidnovnyi stan NAD-par i aktyvnist' laktatdehidrohenazy ta NAD-azy u tkanynakh mors'kykh svynok na riznykh stadiiakh eksperymental'noho alerhichnoho entsefalomiielitu.

Changes of NAD content, redox-state, enzyme activity in the brain and liver tissues of Guinea pigs at different stages of development of experimental allergic encephalomyelitis (EAE) were investigated using the model of multiple sclerosis. It was shown, that the most legible changes of the investigated parameters occur on the preclinical stage and the stage of initial neurological symptoms. The increase of the brain NAD level and reduction properties of NAD+/NADH pairs reduction properties against a background of inhibition of lactatedehydrogenase activity was observed in the early terms of EAE development (7-15 day). The liver lactatedehydrogenase activity is increased at an initial stage. NAD-ase activity is increased in the medium term (18-21 day) that correlates with changes of this enzyme activity in the blood serum. In the term of strongly expressed neurological signs (26-33 day) the sharp drop of NAD content in the brain and liver is observed. The role of the obtained results at different stages of EAE development is discussed.