Ultrastructural Changes in the Penumbra of the Local Cerebral Infarction in Rats.

We studied changes in the ultrastructure of synapses and myelin nerve fibers that develop in the penumbra in 4 and 12 h and 2 and 4 days after modeling infarction in the frontoparietal cortex in rats. Ischemic stroke was induced by injection of a photosensitive dye into their bloodstream followed by illumination of the brain surface with a halogen lamp. Visible ultrastructural changes were observed in the penumbra zone, namely in the axodendritic and axospinous synapses; they consisted in polymorphism and disorganization of synaptic vesicles, mitochondrial swelling, swelling and vacuolization of the postsynaptic fragments of dendrites, and shortening and osmiophilia of the active zone.

Electron microscopy demonstrating noise exposure alters synaptic vesicle size in the inferior colliculus of cat.

Context: White noise is known to have detrimental effects on different brain regions, especially auditory regions, including inferior colliculus. Although the basis for such alterations has been hypothesized to result from abnormalities in neurotransmitter release, the mechanism is unclear. The final step in neurotransmission is the docking and transient fusion of synaptic vesicles at the base of cup-shaped lipoprotein structures called porosomes at the presynaptic membrane and the consequent release of neurotransmitters.

White noise and neuronal porosome complex: transmission electron microscopic study.

In the present electron microscopic study the effect of continuous white noise on the morphology of synapses and neuronal porosome complex (the neurotransmitter-release or secretory machinery) in two subcortical auditory brain regions - colliculus inferior and medial geniculate body in cat, were investigated. Several morphological alterations in some synapses were detected in both subcortical areas. These alterations mainly indicate to the decrease of functional activity of synapses.

[Effect of short-term manganese chloride intoxicatuion on anxiety and fear of young rats].

Manganese is an essential trace element for all living organisms. Though some neurological dysfunction take place during intoxication caused by excessive exposure of this metal. The goal of this research was to elucidate the emotional state, in particular anxiety and fear in three groups of young male rats.

[Porosome: a new organelle and the universal secretion machine in cells].

A new cell organelle, porosome, discovered in the mid 1990's and its demonstration as the universal secretory machinery in cells is described. In contrast to the generally accepted belief that the secretory vesicle membrane is totally incorporated into the plasma membrane during cell secretion, it has been shown that secretory vesicles transiently dock and fuse with the porosome base via SNARE proteins to expel vesicular contents under intravesicular pressure which is generated by active transport of water through water channels located at the secretory vesicle membrane.

Hyperthermia-induced morphological changes in cerebral tissue of the rat.

The sensitivity of cerebral tissue to hyperthermia, its immediate effect, manifested by histological changes and the role of local blood flow, blood rheological properties, and the possible role of free radicals in development of mentioned changes have been studied. Through the cranial window local area of cerebral surface was irrigated by artificial CSF heated up to 41, 43 or 45 degrees C. Serial brain coronal sections 50 microm thick were analyzed under light microscope.

Morphological changes and manganese content in the brains of rat pups subjected to subchronic poisoning with manganese chloride.

Morphological changes in neurons and the distributions of nerve and glial cells were studied, the glial index was calculated, and manganese (Mn) contents were determined in the caudate nucleus, the nucleus accumbens, the dorsal and ventral septal nuclei, and the frontoparietal areas of the cerebral cortex in the 40-day-old offspring of rats given different doses (10 and 20 mg/kg) of manganese chloride (MnCl2.4H2O) 15-20 days before pregnancy, during pregnancy, and for one month after parturition with the first portion of food. Mn poisoning increased Mn contents in the brains of rat pups, damaged a small proportion of neurons, and produced marked gliosis.

[Morphological changes and manganese level in the brain of rat pups subjected to subchronic manganese chloride intoxication].

The morphological alterations in the neurons together with the distribution of the neural and glial cells were studied, the glial index was calculated, and manganese level was determined in n. caudatus, n. accumbens septalis, n.

[Changes in emotional state and learning process disorders in rats with experimental hepatic encephalopathy].

Animal models of liver failure are widely used for research of morphological and functional changes and pathogenetic mechanisms of hepatic encephalopathy. Changes in learning process and emotional state of rats, which were administered intraperitoneally (Phenobarbiton 40 mg/kg/day) for five days and then subcutaneously (Acetaminophen 1000 mg/kg) are described. Behaviour of rats was studied in the "open field".

[Discovery of a new cellular structure--porosome].

A new cell structure--"porosome", discovered by the American scientist Bhanu Jena and co-wokers, is described. Mechanisms of budding and fusion of transport vesicle are elucidated in addition to those of fusion of secretory vesicles at the cell plasma membrane, and of release of intravesicular contents. The morphology of porosomes, their contents and functional reconstruction in lipid bilayer membranes were examined at a near nanometer resolution.

[The models of hepatic insufficiency and encephalopathy in animals].

The majority of the investigation methods of biochemical, morphological and metabolic disorders in hepatic insufficiency and encephalopathy occurrence are inadequate in use in clinical conditions because their invasiveness frequently creates dangerous situations to the patient life and health. That's why, to characterize the mechanisms, constituting the hepatic and cerebral damages base, for testing of a new medicinal preparations, aprobation of a new theoretical and clinical hypotheses, the models of an acute and chronic hepatic insufficiency are applied on the animals, permitting to unify the age, genetic peculiarities and physiological parameters of the individuals involved in experiments, the pathology character, its severity and longevity. Homogeneity of these indexes permits to estimate molecular, structural and functional disorders, laying in the base of pathological process.

Structure, isolation, composition and reconstitution of the neuronal fusion pore.

Neuronal communication is dependent on the fusion of 40-50 nm in diameter synaptic vesicles containing neurotransmitters, at the presynaptic membrane. Here we report for the first time at 5-8A resolution, the presence of 8-10 nm in diameter cup-shaped neuronal fusion pores or porosomes at the presynaptic membrane, where synaptic vesicles dock and fuse to release neurotransmitters. The structure, isolation, composition, and functional reconstitution of porosomes present at the nerve terminal are described.