D. A. Pokidyshev scite author profile

D. A. Pokidyshev

5Publications

59Citation Statements Received

38Citation Statements Given

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161

Affiliations

Research Institute of General Pathology and Pathophysiology, the Russian Academy of Medical Sciences

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Prevention of Neurodegenerative Damage to the Brain in Rats in Experimental Alzheimer’s Disease by Adaptation to Hypoxia

Манухина

Goryacheva

Барсков

et al. 2010

Neurosci Behav Physi

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We report here studies addressing the possibility of preventing neurodegenerative changes in the brain using adaptation to periodic hypoxia in rats with experimental Alzheimer's disease induced by administration of the neurotoxic peptide fragment of beta-amyloid (Ab) into the basal magnocellular nucleus. Adaptation to periodic hypoxia was performed in a barochamber (4000 m, 4 h per day, 14 days). The following results were obtained 15 days after administration of Ab. 1. Adaptation to periodic hypoxia significantly blocked Ab-induced memory degradation in rats, as assessed by testing a conditioned passive avoidance reflex. 2. Adaptation to periodic hypoxia significantly restricted increases in oxidative stress, measured spectrophotometrically in the hippocampus in terms of the content of thiobarbituric acid-reactive secondary lipid peroxidation products. 3. Adaptation to periodic hypoxia completely prevented the overproduction of NO in the brains of rats with experimental Alzheimer's disease, as measured in terms of increases in tissue levels of stable NO metabolites, i.e., nitrites and nitrates. 4. The cerebral cortex of rats given Ab injections after adaptation to periodic hypoxia did not contain neurons with pathomorphological changes or dead neurons (Nissl staining), which were typical in animals with experimental Alzheimer's disease. Thus, adaptation to periodic hypoxia effectively prevented oxidative and nitrosative stress, protecting against neurodegenerative changes and protecting cognitive functions in experimental Alzheimer's disease.

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Role of Nitric Oxide in Prevention of Cognitive Disorders in Neurodegenerative Brain Injuries in Rats

et al. 2008

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NO synthesis disturbances play an important role in the development of neurodegenerative damage in Alzheimer disease. We previously showed that adaptation to intermittent hypobaric hypoxia prevents cognitive disturbances in rats with experimental Alzheimer disease. Here we evaluated the role of NO in cognitive disorders and development of adaptive protection during experimental Alzheimer disease. Adaptation to hypoxia in rats was performed in a hypobaric pressure chamber at a simulated altitude of 4000 m (4 h per day for 14 days). Alzheimer disease was simulated by bilateral injections of a toxic fragment of beta-amyloid (25-35) into n. basalis magnocellularis. For evaluation of the role of NO in the development and prevention of memory disorders, the rats received intraperitoneally either NO-synthase inhibitor N omega-nitro-L-arginin (L-NNA, 20 mg/kg, every other day for 14 days) or NO-donor dinitrosyl iron complex (200 microg/kg daily for 14 days). NO-synthase inhibitor potentiated the damaging effect of beta-amyloid, abolished the protective effect of adaptation to hypoxia, and produced memory disorders in rats similar to those observed during experimental Alzheimer disease. In contrast, the increase in NO level in the body provided by injections of the NO-donor produced a protective effect against memory disorders caused by beta-amyloid similar to that induced by adaptation to hypoxia. We concluded that reduced NO production in the organism plays an important role in the development of cognitive disorders produced by injections of beta-amyloid, while prevention of NO deficit by administration of NO-donors or non-pharmacological stimulation of NO synthesis can provide a protective effect in experimental Alzheimer disease.

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Mechanism of adaptation of the vascular system to chronic changes in nitric oxide level in the organism

et al. 2006

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We studied the possibility of directed modulation of the efficiency of NO storage in rats due to adaptation to the chronic changes in plasma NO level. The efficiency of NO storage increased during long-term maintenance of high plasma level of NO and decreased in NO-deficient states. The compensatory changes in NO storage capacity of vessels depending on its organism content represent a new mechanism of adaptation of the cardiovascular system to chronic excess or deficit of NO, while directed modulation of this process can be important for the protection of the organism against both surplus or shortage of NO.

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Prospects of Non-drug Approaches to Alzheimer's Disease

et al. 2004

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Synthesis of heat shock proteins (HSP70) in blood leukocytes as a criterion of the resistance to stress injury

et al. 2006

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The resistance of August rats to ulceration of the gastric mucosa induced by acute emotional stress was higher than in Wistar rats. August rats exhibited not only more potent activation of the protective nitric oxide system and mobilization of the immune system, but also increased synthesis of cytoprotective heat shock proteins HSP70 in blood leukocytes under stress conditions. Our results indicate that HSP70 protein synthesis in blood leukocytes during stress reflects organism's resistance to stress and, probably, to other adverse factors.

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D. A. Pokidyshev

Prevention of Neurodegenerative Damage to the Brain in Rats in Experimental Alzheimer’s Disease by Adaptation to Hypoxia

Role of Nitric Oxide in Prevention of Cognitive Disorders in Neurodegenerative Brain Injuries in Rats

Mechanism of adaptation of the vascular system to chronic changes in nitric oxide level in the organism

Prospects of Non-drug Approaches to Alzheimer's Disease

Synthesis of heat shock proteins (HSP70) in blood leukocytes as a criterion of the resistance to stress injury

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