[CURRENT HISTOCHEMICAL METHODS OF TISSUE IRON DEMONSTRATION BASED ON PERLS' REACTION].

The article presents the information on the modern modifications of Perls' reaction including diaminobenzidine enhancement according to R. Meguro (for various tissues). M.

[INTRANUCLEAR IRON DISTRIBUTION IN THE PURKINJE CELLS OF HUMAN CEREBELLUM].

The distribution of iron ions in the cerebellum of 15 human subjects aged 20-89-years was studied using highly-sensitive variant of Perls' histochemical technique. Increased iron content was found in the white matter and in Purkinje cells. In 10 out of 15 cases examined iron was detected in the nuclei of Purkinje cells, while in some cases iron was found in the nucleolus.

[A synaptic marker synaptophysin].

The review summarizes the current data on synaptophysin (SYP), its functional role in the cell and the use of SYP immunocytochemistry for labeling the synaptic contacts. SYP is a transmembrane glycoprotein found in small presynaptic vesicles of the nerve cells and in microvesicles of the neuroendocrine cells. Literature data and the authors' own experience suggest that currently SYP is an important synaptic marker, which allows, with the use of light and confocal laser microscopy, to obtain the reliable data on the morphological organization of the synaptic structures in the central nervous system.

[Simultaneous demonstration of glutamate decarboxylase and synaptophysin in paraffin sections of rat cerebellum].

The article presents highly reproducible and inexpensive protocol for simultaneous demonstration of glutamate decarboxylase (GAD67), the key enzyme of gamma-aminobutyric acid (GABA) synthesis and synaptophysin (SYP), a marker protein of synaptic vesicles using confocal laser microscopy. In the cerebellar cortex, GAD labels Purkinje cells and pinceaux in their basal parts and is unevenly distributed in the neuropil of molecular and granular layers. SYP clearly marks the contours of large dendrites of Purkinje cells in molecular layer, while in the granular layers it labels parts of cerebellar glomeruli--the terminals of the mossy fibers.

[DISTRIBUTION OF THE MARINESCO BODIES IN THE NEURONS OF HUMAN BRAIN SUBSTANTIA NIGRA].

The aim of the study was to investigate the occurrence and intranuclear distribution of Marinesco bodies in substantia nigra neurons of the human brain. Marinesco bodies were identified in substantia nigra sections of 5 men aged 28 to 58 years old using Nissl staining and immunohistochemical detection of ubiquitin--the protein characteristic of this intranuclear inclusion. Marinesco bodies were found in 1-2% of the substantia nigra neurons, but not in adjacent brain areas.