[Neuronal porosome in the rat and cat brain].

It is well established that during cell secretion, membrane-bound secretory vesicles dock and fuse at the base of supramolecular cup-shaped structures at the cell plasma membrane called "porosomes", to expel intra-vesicular contents to the outside. In neurons, it has been demonstrated that 12-17 nm cup-shaped lipoprotein structure possessing a central plug are present at the presynaptic membrane, where 50 nm in diameter synaptic vesicles transiently dock and fuse to release neurotransmitter. In the past decade, the neuronal porosome has been isolated and its major chemical composition determined.

[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.

[Systemic Lupus Erythematosus in pediatric practice].

The paper describes the clinical case of systemic Lupus Erithematosus in 14 year old boy with cerebral crisis of vascular origin, which developed during high immunological activity of pathological process. Adequate therapy with pulse-therapy was successful and had a good outcome for the patient.

[Quantitative analysis of gliocytes and macrogliocyte-neuronal ratio in the rat hippocampus after kindling].

Gliosis is one of the main morphological correlates of epilepsy. It is presented predominantly by proliferation and hypertrophy of astrocytes and activated microglia (macrophages) and is most characteristic to those areas of the epileptogenic zones, where the loss of neurons is significant. One of such structures is the hippocampus, the sclerosis of which develops already at the early stages of epileptogenesis.

[The influence of myo-inositol on the ultrastructure of hippocampal CA1 area in kainate treated rats].

The ultrastructure of neurons, synapses and astrocytes of hippocampal CA1 area in rats was investigated 14 days after: systemic injection of kainic acid and kainic acid and myo-Inositol. After injection of kainic acid numerous neurons with superficial and deep ultrastructural changes of cytoplasmic organelles were described. Among synapses numerous forms with osmiophilic active zone and single synaptic vesicles, also presynaptic terminals with core vesicles were often seen.