МЕТАБОЛІЗМ МЕТАЛІВ У ГІПОКАМПІ ТА РОЛЬ ЦИНКУ В ПАТОГЕНЕЗІ ЕПІЛЕПТИФОРМНИХ СУДОМ

<p>Physiological mechanisms of convulsions status during epilepsy or episindrom significantly different from the mechanisms, which were describe for other disorders associated with glutamatergic system, such as schizophrenia (a decrease of glutamate in neurons and increased dopaminergic load), drug addiction and alcoholism (the formation of endogenous opioids and dopamine, strengthening the role of GABA-ergic system).</p><p>With glutamatergic transmission are сconnect not only convulsive state, but also the realization of higher integrative functions. Therefore, the development of epilepsy, particularly which caused glutamate, implemented by activating Zn-ergic hippocampal neurons, associate with complex changes in human mental functions. Based on a scientific literature about of the role of chelating zinc in the mechanisms of glutamatergic transmission, we can suggest it participation in the mechanisms of formation of epilepsy convulsions.</p><p>In experience on animals, was show that in the animal organism of stressing correlative changes observe zinc content and secretory material in the hippocampus, Paneth cells and B cells of pancreas. The nature of the changes depend on the stressor. When this change of zinc content in the hippocampus and hypothalamus (as the main regulator of stress reaction) were multidirectional that this can be explained by the release of metal together with secretory material in the hypothalamus into the bloodstream. Research epileptic activity of hippocampus by administering to the animal chelate 8 BSQ allowed to establish the dependence between convulsant action and first stress condition of the animal. Evocation of stress by 8-BSQ and physical activity, immobilization and alcohol abuse found that the convulsive effect of this reagent during intravitreal research increased in the case of prior exposure by specified kinds of stressors. In this pre-convulsive effect on exertion increased by 266% and the zinc content was increased by 75%; in the case of pre-immobilization duration of seizures increased by 206% and the zinc content - 50%; in the case of pre-alcoholization duration of seizures increased by 234%, and a chelating zinc content - 75%. These results suggest a chelating zinc epileptiform participate in the mechanisms of seizures and, possibly, the development of mechanisms of temporal lobe epilepsy (hippocampal). The results of studies of zinc changes in central and peripheral organs of zinc-containing simulated at different functional states allow us to make the assumption that there is a common mechanism for coordination of functional activity as the hippocampus and other zinc-containing bodies with the help of changes in the chelating zinc metabolism, regulation is carried out by means of the hippocampus.</p>

Structure and Growth of Sialoliths: Computed Microtomography and Electron Microscopy Investigation of 30 Specimens

Theories have been put forward on the etiology of sialoliths; however, a comprehensive understanding of their growth mechanisms is lacking. In an attempt to fill this gap, the current study has evaluated the internal architecture and growth patterns of a set of 30 independent specimens of sialoliths characterized at different scales by computed microtomography and electron microscopy. Tomography reconstructions showed cores in most of the sialoliths. The cores were surrounded by concentric or irregular patterns with variable degrees of mineralization. Regardless of the patterns, at finer scales the sialoliths consisted of banded and globular structures. The distribution of precipitates in the banded structures is compatible with a Liesegang–Ostwald phenomenon. On the other hand, the globular structures appear to arise from surface tension effects and to develop self-similar features as a result of a viscous fingering process. Electron diffraction patterns demonstrated that Ca- and P-based electrolytes crystallize in a structure close to that of hydroxyapatite. The organic matter contained sulfur with apparent origin from sulfated components of secretory material. These results cast new light on the mechanisms involved in the formation of sialoliths.

Dithizone injuring action to blood granulocytes and basal parts of intestine crypts

It was shown, that dithizone injection to rats induced zinc deficiency in blood granulocytes and Paneth cells. Phase changes of zinc content were observed in the cells. First phase (primary decrease of cytochemically detected zinc content in the cells) was a result of intravital binding of this metal to dithizone. Second one (permanent partial increase of cell zinc content) was a result of decomposition of the product of intravital reaction. Third phase (secondary decrease of cell zinc concentration) was connected with cell necrosis. Dithizone injection to animals also induced cell secretory material deficiency.

Cyclic Morphological Changes in the Beagle Mammary Gland

Interpretation of chemical-induced effects on the female beagle mammary gland can be difficult owing to the wide variation of normal glandular morphology. In this retrospective study, morphological features of the gland in four (proestrus, estrus, diestrus, and anestrus) phases of the cycle are described. The gland was quiescent (inactive) in proestrus and estrus. In diestrus, with the rise of progesterone, four (I–IV) distinct morphological changes were evident. In phase I, there was exuberant stromal and ductal proliferation. In phase II, there was early lobular development with branching ducts and alveolar proliferation. In phase III, there was an abundance of glandular tissue with large lobules containing secretory material, whereas phase IV had features of early regression, increased interlobular connective tissue, and eosinophilic secretions in distended ducts and acini. In early anestrus, ducts were distended, with eosinophilic secretions with alveolar regression, whereas regression was complete in late anestrus. Glandular morphology was slightly variable in the mammary chain within the same dog. Progesterone receptor expression was prominent in estrus and early diestrus, and peak estrogen receptor expression was noted in diestrus II. Expression of proliferation marker ki-67 was highest in diestrus I, followed by diestrus II. There was excellent concordance between the estrous stage and the glandular morphology.

Secretory material from antennal organs and its possible role in mating behaviour of Pipunculidae (Diptera)

The study of antennal morphology of entomoparasitic flies belonging to the family Pipunculidae (Diptera) revealed the presence of a developed secretory system area on the third antennal segment (flagellum) of pipunculid males. The possible physiological function of this system is discussed. Socketed mechanotactile bristles, two types of basiconical sensilla, one type of grooved sensilla, and a sensory pit form the sensillar system of pipunculid antennae. The morphology of these sensilla and the pattern of their distribution are presented. The discovery of a secretory system in male antennae reveals the possible complex role of antennae in courtship behaviour of pipunculid flies.

The responses of pulmonary neuroendocrine cells in the lungs of Rana ridibunda to different experimental conditions

The study investigated the localisation and immunohistochemistry of neuroendocrine cells (PNECs) and their behaviour in the lungs of Rana ridibunda under experimental conditions and compared with control lungs. Serotonin- and bombesin-immunoreactive (IR) PNECs were observed as solitary cells or clusters of cells at the base of ciliated epithelium on the dilated apical parts of primary septa where incoming air first arrives, and in the respiratory epithelium. Serotonin-IR PNECs were predominantly present in the ciliated epithelium while bombesin-IR PNECs were found in the ciliated and respiratory epithelium. Additionally, bombesin-IR nerve fibres were found in the epithelium and among smooth muscle cells in the connective tissue. In frogs kept in a dry aquarium, serotonin- and bombesin-IR PNECs were characterised by various stages of secretion. Serotonin-IR PNECs released most of their secretory material, while bombesin-IR PNECs were stimulated for secretion. Moreover, bombesin secretions were raised. In conclusion, the cells were identified as members of the pulmonary epithelial endocrine system and can contribute to the pulmonary biology through a paracrine/endocrine pathway in the lungs of R. ridibunda.