Analysis of ERK1/2 kinases in the inferior colliculus of rats genetically prone to audiogenic seizures during postnatal development.

The activity of ERK1/2 kinases in the quadrigemina inferior colliculus of Krushinsky-Molodkina rats of different age, which are characterized by an increased seizure readiness compared to Wistar rats, was analyzed. An increased (probably genetically determined) activity of these enzymes during the development of epileptiform activity in ontogeny was found, which may be the cause of abnormalities in the neurotransmitter system functioning.

Regulation of the peritoneal macrophage functional activity by the MP-5 and MP-6 myelopeptides under stress.

In mice, two-hour immobilization stress inhibited zymosan-induced production by macrophages of the oxygen radicals and cytokine IL-1ß. After myelopeptides MP-5 and MP-6 were administered into mice, the stress-induced inhibition of the reactive oxygen species (ROS) and IL-1ß was abrogated. MP-5 peptide stimulated spontaneous ROS production by macrophages and reduced IL-10 production under stress. Thus, under in vivo conditions and under stress, the effect of MP-5 and MP-6 myelopeptides modulates the peritoneal macrophage activity.

[COMPARATIVE STUDY OF NIGROSTRIATAL SYSTEMS IN WISTAR RATS AND RATS PRONE TO SEIZURES].

In this work we analyzed the levels of functional activity of dopaminergic, GABA-ergic and glutamatergic neurons in the nigrostriatal system of control Wistar rats and Krushinsky-Molodkina (KM) rats prone to audiogenic seizures. In KM rats we have revealed disturbed activity of GABA- and dopaminergic neurons in substania nigra whereas the level of glutamatergic neurotransmission remained unchanged. We have also observed no significant differences in GAD65/67 and phospho-tyrosine hydroxylase contents in the striatum of KM and control Wistar rats. However, a high level of D1 dopamine receptor and a decreased level of D2 receptor found can mediate the upregulation of glutamatergic neurotransmission. Indeed, the expression of vesicular glutamate transporter type 2 (VGlut2) and NR2B subunit of NMDA receptor was increased in the striatum of KM rats. In striatal glutamatergic fibers phosphorylated ERK1/2 kinases have been revealed; at the same time, in KM rats an increased ERK1/2 activity has been detected both in striatum and substantia nigra. This finding correlated with activation of exocytosis rate as evidenced by downregulation of SNAP25 level. Apart from other reasons, the activation of glutamatergic system may be a result of disruption of the inhibitory effect of the dopamine- and GABAergic systems of substantia nigra that innervate striatum. We suppose that the increased activity of striatal glutamatergic neurons of KM rats without an adequate inhibition by GABA- and dopaminergic systems may be one of the reasons of high convulsive susceptibility in KM rats.

[Inactivation of p53 leads to enhancement of tyrosine hydroxylase biosynthesis in the dopaminergic brain neurons].

In the present work we analyzed a possibility of interaction of protein p53, family members of the ERK1/2 signaling cascade, and the transcription factor CREB in regulation of functional activity of dopaminergic neurons. There were considered neurons of Substantia nigra and Zona incerta of control rats and of rats injected intraperitoneally with chemical inhibitor of p53 Pifithrin-alpha blocking transcription activity ofproapoptotic protein p53. We have shown the p53 inactivation to lead to an increase in the content of tyrosine'hydroxylase both in cell bodies and in terminal parts of axons. At the same time, activity of the transcription factor CREB is enhanced in the brain dopaminergic neurons. No significant differences in the content of phospho-ERK1/2 kinases were revealed in the cell bodies at use of Pifithrin-alpha as compared with control group. Thus, we have shown that action of p53 on biosynthesis of tyrosine hydroxylase is of inhibitory character and seems to be mediated by the transcription factor CREB.

[Role of Bcl-2 in the regulation of creb activity and vasopressin expression in the hypothalamic neurons of rats].

The antiapoptotic protein Bcl-2 has various functions besides its role in protecting cells from apoptosis. Previous studies have demonstrated that Bcl-2 recruits ERK1/2 and/or CREB to initiate different transcription program in the regulation of various neuronal activities as well as axonal growth. Recently we reported that Bcl-2 can participate in the regulation of synthesis and secretion of vasopressin of rat hypothalamic magnocellular nuclei. In thise study we have investigated the inhibition of Bcl-2 on vasopressin expression in magnocellular neurons of hypothalamic supraoptic nuclei. The experiments were done on short-term incubated rat hypothalamic slices containing supraoptic nuclei. Our data demonstrated that in vitro inhibition of Bcl-2 by HA14-1 prevented CREB translocation into the cell nuclei and significantly decreased vasopressin mRNA level and enhanced contents of vasopressin protein in magnocellular neurons in supraoptic nucleus. Our results indicate that CREB-dependent vasopressin gene transcription in the hypothalamic magnocellular neurons can be regulated by Bcl-2.

[Effect of apoptosis proteins on function of vasopressin- and dopaminergic hypothalamic neurons].

To study character of effect of apoptosis signal proteins on activities of neurosecretory cells and neurons of rat hypothalamus, pharmacologic inhibitors of proapoptotic protein p53 Pifithrin-alpha and antiapoptotic protein Bcl-2 HA14-1 were injected into the hypothalamus. Activation of vasopressinergic neurosecretory cells at administration of the blocker Bcl-2 HA14-1 was shown: there were observed an increase of vasopressin mRNA in neurons of hypothalamus supraoptical and paraventricular nuclei, a decrease of the immunoreactive vasopressin content in posterior pituitary, and reduction of diuresis. Inactivation of p53 inhibited release of vasopressin from hypothalamus cell bodies, which is indicated by an elevated content of immunoreactive vasopressin in neurosecretory cell bodies with its unchanged synthesis, a decrease of the neurohormone content in the posterior pituitary, and an increase of diuresis rate. Activation of vasopressinergic neurons of the suprachiasmatic nucleus was also shown. Administration of the blocker Bcl-2 has been revealed to decrease functional activity both of dopaminergic neurons (Zona Incerta) and of dopaminergic neurosecretory cells (arcuate nucleus), in which a decrease of the tyrosine hydroxylase content was observed. The p53 inactivation also led to a decrease of activity of dopaminergic neurosecretory cells of arcuate nucleus, whereas activity of the proteins Zone Incerta did not change. Thus, it has been shown that a change of the apoptotic protein content in vasopressinergic and dopaminergic neurons and neurosecretory cells leads to a change of their functional activity, the character and possibly mechanisms of effects of apoptotic proteins on activities of vasopressin- and dopaminergic cells being different.

[Magnetocardiography as a new diagnostic method for cardiologic diseases in occupational medicine].

Magnetocardiography as a new diagnostic method for cardiologic diseases in occupational medicine. The article covers possibilities of magnetocardiography as a promising diagnostic method for cardiologic diseases in occupational medicine. The studies used 7-channels magnetocardiographic complex MKG-6073-M. The authors applied standard exercise tests in 6 apparently healthy examinees.

[Methodic approaches using normobaric interval hypoxia and impulse magnetic field to increase nonspecific and anti-radio resistance in workers of ecologically unfavorable industries].

Controlled normobaric interval hypoxytherapy and impulse low-intensity magnetic field application were proved to be the most promising methods that increase nonspecific resistance. Technical means to use those methods are specified.

[THE INVESTIGATION OF VASOPRESSIN SECRETION IN NORMAL CONDITION AND DURING SEIZURE ONSET IN KRUSHINSKY-MOLODKINA RATS].

The aim of our study was to analyze vasopressin secretion rate from hypothalamic neurons in Krushinsky-Molodkina (KM) rats prone to audiogenic epilepsy in control and during audiogenic seizures. We evaluated vasopressin content in blood serum and neurophysin II amount in the neurohypophysis in KM rats as well as in Wistar rats. Obtained data demonstrated decreasing of vasopressin in the blood and at the same time increasing of neurophysin II content in the neurohy- pophysis of KM rats that revealed an inhibition of vasopressin release into blood circuit. The analysis of vasopressin content in blood on the different stages of audiogenic seizure showed significant increasing of vasopressin at clonustonus. Thus, we obtained first demonstration that in KM rats prone to audiogenic seizures vasopressin secretion rate is decreased in comparison to Wistar rats. Significantly upregulated vasopressin in blood at cloniconic stages reveals a participation of vasopressinergic neurosecretory system in the expression of audiogenic seizures.

[MOLECULAR MECHANISMS OF ERK1/2 KINASES REGULATION IN THE GLUTAMATE- AND GABA-ERGIC NEURONS DURING SEIZURE EXPRESSION IN KRUSHINSKY-MOLODKINA RATS].

The aim of the present study was to analyze a role of the ERK1/2 signaling pathway in the regulation of excitation and inhibitory neurons in the hippocampus and the temporal cortex of Krushinsky-Molodkina rats during seizure development finalizing with ataxia. Analysis was done by Western bloting as well as by immunohistochemistry. The results demonstrated significant up-regulation of ERK1/2 activity in the hippocampus in several seconds after sound stimulation. At the same time increased ERK1/2 activity was correlated with enhanced level of SNARE protein SNAP-25 and activation of synapsin I, the proteins which regulate exocytosis machinery. Decreased level of VGLUT2 associated with activation of ERK1/2 and exocytosis proteins supposed activation of glutamate release in the hippocampus, while in the temporal cortex diminished activity of ERK1/2 and synapsin I associated with VGLUT2 up-regulation assumed inhibition of glutamatergic transmission. Our data let us supposed that decreasing of glutamate release in th& temporal cortex could be a trigger for the inhibition of hippocampal glutamatergic system and the beginning of further ataxia stage. Our data demonstrated correlation between expression and activity of exocytosis proteins and ERK1/2 mainly in the glutamategic neurons of the hippocampus and the temporal cortex that let us proposed significant role of ERK1/2 kinases as a positive regulator of glutamate release and as a result initiation of seizure expression.

[Cobalt-induced cardiomyopathy in workers engaged in the manufacture of hard alloys]. / Kobal'tovaia kardiomiopatiia u rabochikh, zaniatykh na proizvodstve tverdykh splavov.

Four male patients aged 32 to 42 years were followed up. The clinical picture of the disease was typical of dilated (congestive) cardiomyopathy with a subacute onset, development of pronounced heart failure; all the patients were found to have exudate pericarditis. All the men were of the same occupation; they worked at the hard alloy works at a bay of wet grinding in ethanol of metallic Co and hard alloy carbides. The content of Co in the air of the working premises exceeded the MAC and amounted to 7.8-10 mg/m3. Besides, 47 workers of the same occupation (90% of the number of persons engaged in making up powdered compositions of hard alloys) were examined in addition. 16 persons showed the signs of alcoholization, including 9 (out of 11) working at a bay of wet grinding. During the recent 20 years, no cases of respiratory occupational diseases were recorded at the bay. The cardiotoxic properties of Co manifest themselves after the preceding toxic exposures, among which the leading part is played by alcohol. Of the 4 patients, 3 developed the disease in the presence of alcoholism, in 1 patient, it was coupled with tuberculous intoxication. Marked tendency towards polycythemia and increase of the content of hemoglobin was a frequently occurring manifestation of Co action on the workers (rather than a sign of intoxication).

[The clinico-pathogenetic aspects of chronic exposure to organic solvents]. / Kliniko-patogeneticheskie aspekty khronicheskogo vozdeistviia organicheskikh rastvoritelei.

Retrospective and prospective epidemiologic studies revealed features of pathomorphosis and response, defined various pathogenetic mechanisms induced by complex, combined exposure to poisons at work. The article determined main neurologic and hematologic syndromes considered as early and sensitive diagnostic criteria of poisons influence on workers exposed to them. The authors described some variants of course and long-term complications of prolonged exposure to poisons.

[The classification of pneumoconioses]. / O klassifikatsii pnevmokoniozov.

The article deals with analysis of scientific data concerning etiology, pathogenesis, clinical and roentgenologic manifestations, morphologic appearances and other aspects to precise and refine the former idea of pneumoconioses. The authors present the main principles for improved classification of pneumoconioses.

Role of the ERK signaling pathway in regulating vasopressin secretion in dehydrated rats.

Dehydration activates the vasopressinergic system of the hypothalamus. We analyzed the effects of dehydration induced by water deprivation for 3 days on the activities of ERK1/2 and transcription factors, Elk1 and cAMP response element-binding protein (CREB) in vasopressinergic neurons, as well as the distribution and level of the motor protein, kinesin, in the hypothalamo-neurohypophyseal system. We showed that dehydration resulted in enhanced vasopressin (VP) expression and activation of CREB, and increased the activity of the MEK/ERK/Elk1 pathway in magnocellular neurons of the supraoptic nucleus. The activation of VP secretion was associated also with accumulation of phospho-ERK1/2 in the VP-ergic terminals of the posterior lobe of the pituitary. Analysis of the amount and distribution of kinesin and SNAP25, the proteins associated with transport and secretion, demonstrated that dehydration enhanced kinesin content in the perikarya of magnocellular neurons in the supraoptic nucleus and decreased kinesin and SNAP25 levels in the posterior pituitary. ERK1/2 and ERK1/2-dependent transcription factors, Elk1 and CREB, participate in the regulation of dehydration-evoked VP expression. We propose that ERK1/2 and kinesin participate in regulation of anterograde transport of VP dense core vesicles.

Effect of p53 inhibition by pifithrin-alpha on functional activity of vasopressin neurones in rat hypothalamus.

In the present work we investigated the effects of p53 inhibition by pifithrin-alpha (PFT) in vitro and in vivo on functioning vasopressinergic magnocellular neurones of rat hypothalamus. In vivo treatments with PFT were done by intra-hypothalamic microinjections or by intra peritoneal injections. In in vitro experiments hypothalamic slices containing supraoptic nuclei and intact pituitary were incubated with or without PFT. In all experiments we observed accumulation of vasopressin (VP) in the cell perikarya after PFT injections, however expression of VP mRNA was not changed. Analysis of VP content in the posterior pituitary demonstrated that amount of VP was significantly decreased after PFT treatments. Additionally, long-term inhibition of p53 in experiments with intra-hypothalamic injections of PFT resulted in an increased diuresis rate. The obtained results demonstrated that in all experiments PFT treatments inhibited VP anterograde transport from the cells of supraoptic nuclei. Moreover, analysis of MEK/ERK activities revealed that phosphorylation levels of MEK1/2 and ERK1/2 were decreased after PFT treatments. Our findings provide new evidences that p53 could be involved in the control of VP secretion from hypothalamo-hypophyseal system and that this action probably can be mediated by ERK signalling pathway.

[Inhibition of Bcl-2 stimulates neuronal stem proliferation in organotypic cultures of mice hippocampus].

In the current study, we investigated the participation of Bcl-2 in both processes of hippocampus neuronal stem cells (NSC) proliferation and differentiation. Present experiments are performed on organotypic cultures of mice hippocampus. A selective inhibitor Bcl-2 HA14-1 (10 µM) is supplied in incubating medium and the concentration is maintained at a constant level. Our data demonstrate that per cent of surviving cells is significantly higher in the group with the supplement HA14-1 then in the control group. In additional, expressions both phospho-histone H3 and Oct3/4 significantly increase in the group with supplement HA14-1. The facts suggest about activation of NSCs proliferation. After 6 weeks incubation, formation of embryoid bodies is observed in the group with HA14-1, that also suggest about NSCs proliferation, but not their differentiation. Also we estimate the level of NSCs differentiation. Our data have shown that the level of CRMP-2 (a protein which participates in axon growth during NSCs differentiation) decreases in the group with HA14-1. We also estimate level of ERK1/2 kinase activity of the MAPK signaling pathway, which immediately regulates neuronal differentiation. Decreasing of both activities ERK1/2 and CRMP-2 indicates diminution of neuronal differentiation in the experimental group. Thus, we demonstrate that inhibition of Bcl-2 increasingly stimulates NSCs proliferation, so that, it suggests that Bcl-2 controls NSCs differentiation to neurons.