Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0432222 (SEM)
47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A supraependymal cluster of neuronal cells and processes consistently present on the floor of the hamster third ventricle was identified and characterized by means of correlative scanning (SEM) and transmission (TEM) electron microscopy. SEM revealed each cluster to be ovoid with the majority of its surface covered by dome-shaped protrusions and fine beaded fibers. A number of processes traveling individually or in groups also entered or exited from the cluster at its base. As these processes passed over the ventricular surface, they contributed to an extensive network on the floor and ventral aspect of the ventricular wall. Some processes terminated on the ependymal surface in bulbous endings while others penetrated the ependyma. The neuronal nature of these clusters and their associated processes was confirmed at the TEM level. The dome-shaped protrusions visible on the surface of the cluster in SEM corresponded to apical surfaces of neurons confined to the peripheral aspect of a core of loosely arranged processes. These cells exhibited a prominent nucleolus, stacks of rough endoplasmic reticulum (RER), polyribosomes, Golgi cisternae, mitochondria and microtubules (MT) and gave rise to dendritic processes which extended into the core. These dendrites gave off branches at acute angles and contained polyribosomes, single cisternae of RER and evenly spaced MT. Other profiles of processes within the core shared these characteristics, suggesting that they also were branches of the peripheral cells. Axons present within the core and on the cluster's surface exhibited vesicle-filled varicosities which frequently established synaptic contact with the peripheral cells and their processes. The presence of an intraventricular cluster of neurons which potentially communicates with centers extrinsic to the ventricle may have important implications in the hypothesized role of cerebrospinal fluid and tanycytic ependyma in the neuroendocrine regulation of anterior pituitary function.
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PMID:Electron microscopic demonstration of a supraependymal cluster of neuronal cells and processes in the hamster third ventricle. 64 88

Protein kinase inhibitor H-7 and dibutyryl (dB)-cAMP were found to induce neuritic processes in mouse neuroblastoma N18TG2 cells (36). In the present study, morphological differences between the neurites induced by H-7 and those by dB-cAMP were examined using electron microscopy (TEM and SEM) and tubulin immunohistochemistry. It was observed that: 1) The neurites induced by H-7 were relatively thin and frequently had varicosities. On the other hand, the neurites induced by dB-cAMP were thick but they had few varicosities. 2) Centrioles were frequently observed in the cells treated with dB-cAMP but were not encountered in the H-7-treated cells. 3) TEM and tubulin immunohistochemistry revealed that the main shafts of the neurites induced either by H-7 or dB-cAMP were filled with microtubules, but that the varicosities induced by H-7 contained a smaller amount of microtubules. 4) The stability to colchicine was greater in the neurites induced by H-7 than in those by dB-cAMP. From these features of the neurites, it was inferred that neurite outgrowth induced by dB-cAMP is deeply related to the formation of microtubules and that the neurites induced by H-7 were involved in other processes probably including an adhesive property of cell surfaces.
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PMID:Morphology of neurites from N18TG2 cell induced by protein kinase inhibitor H-7 and by cAMP. 165 Nov 49

The feasibility of maintaining long-term viability of human venous allografts by cryopreservation has been investigated. Segments of vein were obtained from 85 patients undergoing a stripping operation for varicose veins. The venous segments were immersed in a dimethylsulfoxide 15% solution, deep frozen at -196 degrees C in liquid nitrogen and preserved for a duration of 1 week to 24 months. Light microscopy (n = 126) failed to demonstrate striking differences between control veins and any of the cryopreserved veins. The types of damage observed at scanning electron microscopy included endothelial cell separation, endothelial cell loss, exposed basement membrane and exposed fibrillar collagen, which were graded on a scale. The score for short term (less than 3 weeks) stored veins was 8.1 +/- 0.9 (mean +/- SEM) and did not differ from the long-term (greater than 10 weeks) stored veins score (6.3 +/- 1.0, p NS). The tissue enzymes LDH, GOT, GPT, CPK were measured in the frozen vein groups (n = 115) after thawing to room temperature. Cryopreservation did not alter any of the tissue enzymes measured when compared to controls. Endothelial fibrinolytic activity (FA) of 58 venous segments cryopreserved for a mean duration of 20 months was 6136.4 +/- 292.1 Tissue Activator Units (TAU) and did not differ from FA of 11 controls (5989.1 +/- 696.8 TAU). Synthesis of 6-Keto-PGF1-alpha-2, a stable breakdown product of PGI2, measured in 10 venous segments cryopreserved for 10 months, was significantly higher than in 13 veins stored in saline for 12 hours at 4 degrees C (2.8 +/- 0.4 vs 0.4 +/- 0.1 PG ml-1mg-1min-1, respectively; p less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Viability of long-term cryopreserved human saphenous veins. 232 91

Mature enamel is the most mineralized of mammalian tissues, contains the least water and therefore does not present problems of shrinkage on preparation for SEM. However, the developing enamel is highly hydrated and presents severe problems in preparation. The structure of enamel is determined by the activity of its individual formative cells and their group behaviour. The peculiar, unequal secretion of matrix at the distal pole of the ameloblast leads to the presence of characteristically shaped pits in the surface of the formative tissue. Crystals grow in a special relationship to this surface. Sharp changes in orientation of the surface are reflected in abrupt changes in orientation of neighbouring crystals beneath it, leading to the formation of structural discontinuities at prism boundaries or junctions. Several different patterns of prism cross section have arisen in mammalian enamel. Inequalities in the rate of production of the tissue lead to the formation of features known as varicosities or cross striations. Exaggerations of this presumed daily incremental rhythm lead to the formation of the more major incremental lines which can also be visualized by scanning electron microscopy. Differences in the course of the ameloblasts throughout their life history, in the nature of a translatory motion over the surface which they are secreting, lead to the development of prism decussation, which shows characteristic patterns in different mammalian groups of probable functional significance. One largely ignored area in the study of comparative histology concerns the enamel-dentine junction. Particularly in the marsupial mammals, dentine tubules cross the junction and are continuous with enamel tubules. Methacrylate casting of these features has given new insights into these structures.
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PMID:Basis of the structure and development of mammalian enamel as seen by scanning electron microscopy. 305 75

The preretinal blood vessels, that is, blood vessels lying on the inner surface of the retina, were observed by SEM examination using digestion methods, TEM examination and fluorescence histochemical examination using the Falck-Hillarp method. The nerve endings on the preretinal arterioles were distributed from the optic disc to the periphery. The longest nerve terminals from the optic disc to peripheral arterioles were about 9 mm. There were also a few nerve endings on the preretinal veins. These nerve endings had a series of axonal varicosities with diameters between 0.5 and 1.5 mu, which contained empty synaptic vesicles and cored synaptic vesicles. The number of nerve endings on these arterioles decreased with the shortening of the diameter of the retinal arterioles. Fluorescent nerve fibers with axonal varicosities were distributed on the wall of the preretinal blood vessels in the fluorescence histochemical study. These fluorescent nerve fibers were numerous near the optic disc, but there were only a few fluorescent nerve fibers on the peripheral blood vessels. The nerve endings on the preretinal blood vessels disappeared following superior cervical ganglionectomy. The present study shows that the preretinal blood vessels in rabbit eyes are innervated by the sympathetic nerve originating from the superior cervical ganglion.
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PMID:Autonomic innervation of preretinal blood vessels of the rabbit. 366 48

Acid gastroesophageal reflux was determined by long-term pH monitoring in 19 consecutive variceal bleeders after 5 to 20 (mean, 10.3 +/- 1 SEM) sclerotherapy sessions with the flexible endoscope using polidocanol 1% as sclerosant. Fifteen cirrhotics with untreated varices served as controls. Percentage time of esophageal pH less than 4 (3.3 +/- 0.7 SEM vs. 5.2 +/- 2.2 in the controls) and mean duration of reflux episodes (2.9 +/- 0.4 vs. 3.0 +/- 0.7 min) showed no significant differences between both groups. The findings indicate that repeated injection sclerotherapy with the flexible endoscope does not lead to an enhancement of acid gastroesophageal reflux.
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PMID:Effects of repeated injection sclerotherapy on acid gastroesophageal reflux. 371 Jan 4

Ultrastructural study of neuroblastoma group tumors including 7 neuroblastomas, 4 ganglioneuroblastomas, and 2 ganglioneuromas was performed by using both TEM and SEM. Tumor cells showed a wide variation comparable to the developmental stages of nerve cells and were classified into four types according to the neuritic process projections; namely apolar, monopolar, bipolar, and multipolar. Neuroblastoma was composed of small cells of apolar, monopolar, and bipolar types with few multipolar cells. Tumor cells ganglioneuroblastoma and ganglioneuroma were multipolar type. SEM observation demonstrated characteristic varicosities in the elongated neuritis processes, and by TEM examination the dilated portions of these varicosities revealed disruption or disappearance of parallel runnings of the microtubules and microfilaments. TEM examination demonstrated presence of Schwann cells in ganglioneuroblastoma and ganglioneuroma, and satellite cells and perineurial cells in ganglioneuroma. The hitherto undescribed cells with caveolar structure which are thought to be a precursor of these stromal elements were disclosed in ganglioneuroblastoma. In order to evaluate the maturation and prognosis of tumors of this group, stromal differentiation seems to be equally important as ganglionic differentiation because both stromal elements and tumor cells have a common origin of neural crest.
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PMID:Transmission and scanning electron microscopic studies on the tumors of neuroblastoma group. 628 64

The density and nerve varicosity-smooth muscle cell separation of rabbit cerebral and ear arterial beds were compared. The rabbit middle cerebral artery and three of its successive branches and a comparable-sized ear artery and two branches were perfusion-fixed for electron microscopy and analyzed by quantitative morphometric procedures. The purpose was to determine if there are structural correlates to previously observed differences in the sympathetic control of these two vascular systems. The in vitro contractile response of isolated artery segments to electrical field stimulation of their intramural nerves is considerably less in cerebral arteries compared with the similar-sized ear arteries. Furthermore, in the cerebral but not the ear circulation, there is progressive diminution of the neurogenic response with successive branching. Although the total varicosity densities of the major ear and brain arteries studied are similar, and this parameter stays fairly constant with successive branching of the ear, it falls off considerably in the cerebral vessels. There is a significant difference in densities between the two vascular beds when "bare" varicosities located < 1 micron from the medial smooth muscle are compared. The second-order branch of the ear artery has an average of 18 bare varicosities per 500-micron circumference, and the corresponding cerebral vessel has only 2.8 bare varicosities per 500-micron circumference. The mean bare varicosity-smooth muscle cell separation (mean +/- SEM) is significantly (P < .05) less in the ear (1.18 +/- 0.06 microns) than in the cerebral arteries (4.95 +/- 0.23 microns). This is true of all vessels studied. Fifty-nine percent of the bare varicosities in the ear arteries are < 1 micron from the smooth muscle cells, and 1.2% are more distant than 5 microns. These values for cerebral vessels are 9.5% and 37%, respectively. In the ear vessels, 25% of the bare varicosities make close neuromuscular contact (within 500 nm of the smooth muscle), whereas only 3% do so in cerebral vessels; in cerebral compared with ear vessels, the percentage becomes significantly less with branching. These structural features of brain vessels, taken together with the lower sensitivity to and the diminished capacity to respond to norepinephrine, probably account for their weak neurogenic control. The results indicate that the cerebral circulation of the rabbit receives a sympathetic innervation that is relatively ineffective in altering cerebrovascular tone.
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PMID:Comparison of density of sympathetic varicosities and their closeness to smooth muscle cells in rabbit middle cerebral and ear arteries and their branches. 792 38

Recent experiments have shown that: 1) A chronic 10 month daily administration to rats of the benzodiazepine (BDZ) receptor antagonist, flumazenil (FL; 4 mg/kg in drinking water), from the age of 13 through 22 months, significantly retarded the age-related loss of cognitive functions, as ascertained by the radial arm maze tests conducted two months after FL withdrawal. 2) An equal number of 8 rats died in the control and FL-treated group before the behavioral tests were completed and the animals were sacrificed; the life span of the FL-treated 8 rats equaled 24.0 (+/- 0.6 SEM) months, while that of the control 8 rats equaled 22.3 months (+/- 0.7 SEM), and the group difference was marginally significant (p = 0.04 Mann-Whitney test). 3) In rats sacrificed 3 months after FL withdrawal and behavioral testing, the protective action of FL, relative to age-matched controls, was revealed by a significant reduction in the age-related loss of neurons in the hippocampal formation. 4) In the time period of 3 months between the drug withdrawal and sacrificing of the animals, stress experienced by the aging rats during behavioral testing, related to excessive daily handling of the animals and partial food deprivation to motivate them to perform in the radial arm maze, apparently had excitotoxic effects on the hippocampal neurons, as indexed by the presence of 30% neurons in a state of moderate pyknosis found both in the FL group and the age-matched controls. In the 6 months "young" control group, the number of pyknotic neurons equaled only 3.5%. It was concluded that the drug withdrawal and stress of behavioral testing unleashed the previously FL-controlled age-related degeneration. On the basis of these results and the literature, showing that the tone of the GABAergic system increases with age, and particularly in Alzheimer's disease (AD), the hypothesis of brain aging was formulated. It postulates that in mammals, with growing age, and prematurely in humans with AD, the increasing tone of the BDZ/GABAergic system interferes with antero- and retrograde axonal transport through a chronic depolarizing block of preterminal axon varicosities of the ascending aminergic and cholinergic/peptidergic systems, which are indispensable for normal metabolic/trophic glial-neuronal relationships. Such a state leads to discrete anatomic deafferentation of forebrain systems, and particularly of the neocortex, where block of the anterograde axonal transport results in induction of the cortical mRNA responsible for synthesis of the beta-amyloid precursor protein (beta APP). The simultaneous block of retrograde transport from chronically depolarized preterminal axon varicosities may account for toxic accumulation in cortex of the nerve growth factor (NGF) and other trophins, without which the basal forebrain cholinergic neurons degenerate. The general pharmacologic profile of FL has been discussed on the basis of FL administration to animals and healthy and diseased humans. This profile shows that FL: 1) increases brain metabolic functions; 2) reduces emotional responses, thereby stabilizing the functions of the autonomic system in both humans and animals challenged by adverse environmental stimuli; 3) improves cognitive and coordinated motor functions in both humans and animals; 4) uniquely combines anxiolytic, vigilance and cognitive enhancing, i.e. nootropic, properties, which may, in part, stem from FL-induced emotional imperturbability (ataraxy); 5) facilitates habituation of healthy humans and animals to novel but inconsequential environmental stimuli, and promotes non-aggressive interactions among animals; 6) in single i.v. doses, and administered chronically to humans, FL has antiepileptic actions in the Lennox-Gastaut syndrome and other forms of epilepsy characterized by "spike-and-dome" EEG patterns; these actions are likely to depend on FL's disinhibition of the serotonin system; 7) administered in single i.v...
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PMID:GABAergic deafferentation hypothesis of brain aging and Alzheimer's disease; pharmacologic profile of the benzodiazepine antagonist, flumazenil. 871 36

Chronic inhibition of the angiotensin I converting enzyme (ACE) with enalapril, results in a phenotypic change of the medial cells of renal afferent arterioles from contractile smooth muscle cells to renin containing epithelioid cells. In normal animals, the density of the innervation of the juxtaglomerular renin containing epithelioid cells is much lower compared to the contractile cells. The effector tissues are known to play an important role in determining the pattern and density of their innervation. In this study, we tested the hypothesis that the density of the innervation of the afferent arteriole smooth muscle cells decreases when they change their phenotype from contractile to renin containing epithelioid cells. The results show that the density of the innervation had significantly increased and the association of the terminals with the smooth muscle cells had changed. There were significantly more varicosities around renal afferent arterioles from rabbits treated with enalapril (10 microg/kg/h) for 6 weeks (mean +/- SEM = 634 +/- 175 x 10(3)/mm2 vessel surface, cf. 329 +/- 69 x 10(3)/mm2 vessel surface in untreated rabbits, P = 0.05), with the number of neuroeffector junctions remaining the same (124 +/- 14 and 164 +/- 32 x 10(3)/mm2 vessel surface) and significantly more non-contacting varicosities (i.e. lying > 100 nm from the medial cells) (74 +/- 5% and 25 +/- 7%, respectively; P = 0.003). Thus, there was no reduction in the innervation of afferent arterioles in which the smooth muscle cells had changed phenotype in response to enalapril treatment as hypothesised. Instead, it would appear that proliferation of the innervation had occurred, with the formation of additional varicosities but these varicosities failed to form neuromuscular junctions. This study has identified a form of neural plasticity in the kidney that has not previously been described.
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PMID:Extended angiotensin converting enzyme inhibition changes the innervation of renal glomerular afferent arterioles. 1058 Feb 93


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