UMLS:C0392674 - FACTA Search

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Query: UMLS:C0392674 (exhaustion)
13,658 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ultrastructural features of paraventricular (PVN) and supraoptic (SON) neurons and of their axons were studied in lactating and dehydrated rats. Under both conditions of stimulation, the PVN and SON neurons and their axons enlarge. The protein synthesizing apparatus of the neurons becomes activated, but the number of neurosecretory granules (NSG) is decreased. No differences are seen between the PVN and SON neurons during lactation or dehydration. The similarity and simultaneity of the response of the PVN and SON neurons to these two different stimuli is discussed in the light of the theory of nuclear and neuronal specialization for the production of only one hormone. After prolonged lactation of over 2 1/2 weeks' duration, neurons with extreme vacuolation of the rough endoplasmic reticulum (RER) appear in the PVN and SON; the vacuolated neurons appear earlier and predominantly in the PVN involving a maximum of 10-15% of all PVN neurons. Vacuolated neurons were never seen in either nucleus during dehydration of up to 6 days' duration. The vacuolation is suggested to represent an exhaustion phenomenon due to an intense, long-lasting stimulus for oxytocin synthesis. The predominant location of the vacuolated neurons in the PVN supports the theory that oxytocin is produced predominantly in the PVN. The decrease in the number of NSGs during these states of enhanced hormone secretion is considered to corroborate the proposed existence of an extragranular fast axoplasmic transport mechanism in PVN and SON neurons. The possible existence of a reuptake mechanism into NSGs, similar to that in the vesicles of monoaminergic nerve endings is discussed.
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PMID:Ultrastructural studies on the hypothalamic neurosecretory neurons of the rat. III. Paraventricular and supraoptic neurons during lactation and dehydration. 5 8

The unicellular hatching glands (UHGs) of four species of salmonid fish, Salmo gairdneri, Salmo trutta, Salvelinus fontinalis and Salvelinus pluvius were studied by light and electron microscopy. The UHGs are distributed on the epidermis of head and yolk sac, and on the epithelium of the mouth and gills. Since these cells are large and include dilated cisternae of the endoplasmic reticulum from the primitive to the mature stages they are conspicuous. Around the Golgi complexes, there are consecutive figures showing synthesis of secretory granules with close relationships to the Golgi vesicles. The secretory granules grow in size and vary in density during maturation; some have enclosed cytoplasmic structures. At the hatching stage, they are discharged with some cytoplasmic structures from the UHG which is located in the superficial layer of epithelium. After exhaustion of the secretory granules, the remainder of the contents of UHGs is liberated.
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PMID:Hatching glands in salmonid fishes, Salmo gairdneri, Salmo trutta, Salvelinus fontinalis and Salvelinus pluvius. 99 Dec 26

The toxicity of FUT-187, a synthetic protease inhibitor, was investigated in Sprague-Dawley rats. FUT-187 was given orally to the rats at doses of 2, 10, 50, 250 and 1250 mg/kg/day for 13 weeks, then the drug was withdrawn for 5 weeks for recovery. The results are summarized as follows: In the 1250 mg/kg/day group, 9 out of 20 males died with decreased body weight and exhaustion. Histopathological examination revealed renal papillary necrosis, ulcer in the urinary bladder, hemostatic lesions in the lungs and liver, ulcer or erosion in the stomach, duodenum and jejunum. The surviving animals in this group showed swelling of the limbs due to synovitis, transient salivation immediately after administration, suppression of growth with decreased food consumption. Urinalysis revealed a low pH, increased ketones and bilirubin excretion, dark yellowish change in color, the appearance of "leaflet-shaped" crystals and increased red blood cells and epithelial cells in the urinary sediment, increased water intake, decreased specific gravity and decreased sodium, potassium and chloride in the urine. Hematologically, there was an increase in the white blood cell count. A biochemical analysis of the blood revealed decreased amylase activity, glucose and total protein levels and increased GOT activity and inorganic phosphorus levels. Pathological changes were observed in the pancreas, kidney, digestive tract, urinary bladder and liver. The pancreas showed macroscopical enlargement and increased organ weight. Histopathologically, there were several alterations in the acinar cells, such as vacuolization due to increased fat droplets, nuclear irregularity, prominent nucleoli, irregular arrangement and vesiculation of rough endoplasmic reticulum (rER), dilatation of developed Golgi apparatus and increased free ribosomes. In the kidney, increased weight and pigmentation in the proximal tubular epithelium were noted. Electron microscopically, these pigments were recognized as secondary lysosomes containing filamentous material and electron dense granules within a lucent matrix. In the digestive tract, ulcer or erosion in the stomach and duodenum, and villous proliferation in the small intestine were observed. Furthermore, hyperplasia and vacuolization were noted in the mucosal epithelium of the urinary bladder. In addition, loss of perilobular fat droplets in the liver and increased adrenal weight without histological change were observed. After a 5-week recovery period, these changes disappeared almost completely. In the 250 mg/kg/day group, slight suppression of growth the appearance of "leaflet-shaped" crystals in the urinary , sediment, increased water intake and decreased sodium in the urine were observed. The pancreas showed enlargement, increased weight, acinar cell hypertrophy with increased zymogen granules, fine vacuolization, slight derangement and vesicular of rER, and dilatation of Golgi apparatus.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[A 13-week subacute oral toxicity study of 6-amidino-2-naphthyl 4-[(4,5-dihydro-1H-imidazol-2-yl) amino] benzoate dimethanesulfonate (FUT-187) in rats]. 129 23

The effects of dimethylsulfoxide (DMSO, final concentration 5%) and the deep-freezing process on the infectivity (ID50), motility, and ultrastructure of nontreated and DMSO-treated Trypanosoma cruzi suspensions (PSG-3 buffer with 10% horse serum) were investigated prior to and after cryopreservation in liquid nitrogen. DMSO equilibration caused distinct suppression of motility and characteristic, fine structural alterations in numerous organelles, such as myelin-like structures in the cytoplasm and/or inside the mitochondrial apparatus, enlargement of the perinuclear space, endoplasmic reticulum, and mitochondrial cristae, as well as condensation of the kinetoplast with loss of its lamellar structure. There was no evidence of loss of infectivity in DMSO-treated parasites. DMSO-treated and deep-frozen organisms showed, however, very similar fine structural alterations, although damage occurring during freezing and thawing was more pronounced. Apart from the frequently enlarged kinetoplast and the loosening of its mitochondrial matrix, numerous trypanosomes revealed total disintegration of the kinetoplast-mitochondrion complex with loss of its whole matrix. Deep-frozen trypanosomes were significantly less infective to mice than nontreated organisms, and their motility was strongly suppressed. These results suggest that cryopreservation and thawing of T. cruzi may lead to severe damage of the mitochondrial apparatus and thus to heavy disorders of metabolic function, exhaustion of the metabolic pool, and finally, to death of such damaged trypanosomes, despite the use of DMSO as a cryoprotective agent.
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PMID:Effects of dimethylsulfoxide and the deep-freezing process on the infectivity, motility, and ultrastructure of Trypanosoma cruzi. 329 Aug 91

Following a biochemical and histological study, the pathogenic effects of the sodium nitrite were investigated by the electron microscope. The vasodilator effect of the nitrite causes in the islets edema and dilatation of the sinusoids. We suppose that the increased afflux of blood could favour the secretion of granules till the exhaustion of cells. Moreover, the endoplasmic reticulum becomes more and more homogeneous and finally he loses its characteristic structure. We observed, at last, that the number of pancreatic islets in the poisoned animals is lower than in control animals.
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PMID:[An ultrastructural research of pancreatic islets in sodium nitrite poisoned rabbits (author's transl)]. 462 Mar 53

Pancreatic ultrastructure as well as serum and pancreatic immunoreactive insulin content have been studied in nonoperated dogs rendered diabetic by the administration of growth hormone. In somatotrophic diabetes, the beta cells of the Langerhans islets were markedly degranulated and showed dilatation and prominence of the Golgi apparatus, cytoplasmic storage of glycogen, abnormalities of mitochondria as well as dilatation, vesiculation, degranulation and disruption of the endoplasmic reticulum. In some beta cells, damage was very severe and advanced. Accumulation of fat droplets and glycogen granules was found in the ductular epithelium. Fat droplets were also seen in the cytoplasm of a few alpha and acinar cells, however, these cells and the delta cells exhibited no major changes. In dogs with metasomatotrophic diabetes, neither regranulation nor neogenesis of beta cells were noted. Cytoplasmic glycogen storage was still apparent in both the beta and ductular epithelium cells. The serum insulin level was elevated in somatotrophic diabetes and reduced in metasomatotrophic diabetes; whereas, pancreatic immunoreactive insulin was decreased in somatotrophic diabetes and, to a greater extent, in metasomatotrophic diabetes. Present findings are consistent with the hypothesis that metasomatotrophic diabetes is a consequence of the overactivity, exhaustion and atrophy of the beta cells of the pancreatic islets produced by growth hormone.
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PMID:Pancreatic islet ultrastructure, serum and pancreatic immunoreactive insulin in somatotrophic and metasomatotrophic diabetes in dogs. 703 38

Structure of smooth endoplasmic reticulum and cytoskeleton of goldfish Mauthner neurons were studied together with the behavior of fish after partial deafferentation of one of the dendrites with following long-term natural stimulation of another one and soma. Strong disturbance of cytoskeleton and proliferation of smooth endoplasmic reticulum especially of its transversely localised component accompanies exhaustion of Mauthner neurons caused by stimulation in normal absolute afferentation. On behavioral level it is manifests in significant suppression of fish motor activity. Similar stimulation of partly deafferentated Mauthner neurons turns to be more sparing both for fish behaviour and Mauthner neurons structure. Proliferation of endoplasmic reticulum was not in fact observed and in the cytoskeleton bundles of filaments were detected which implies improvement of its physico-chemical characteristics and increase of resistance to external factors. Probably, this relative resistance of partly deafferentated Mauthner neurons of fish to long-term natural stimulation is conditioned predominantly by postsynaptic mechanisms and is likely linked with reorganization in cytoskeleton, caused by preliminary change of Mauthner neurons innervation.
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PMID:[The reaction of the cytoskeleton and smooth endoplasmic reticulum of Mauthner's neurons in goldfish to partial denervation and prolonged sensory stimulation]. 916 17

1. In endothelial cells, release of Ca2+ from endoplasmic reticulum (ER) Ca2+ stores activates Ca2+ influx via the capacitative Ca2+ entry (CCE) pathway. In cultured bovine pulmonary artery endothelial cells, we investigated the relationship between intracellular Ca2+ store load and CCE activity, as well as the kinetics of CCE activation and deactivation, by simultaneously measuring changes in [Ca2+]i and unidirectional manganese (Mn2+) entry through the CCE pathway. 2. Submaximal concentrations of ATP caused quantal release of Ca2+ from the ER, resulting in a dose-dependent depletion of Ca2+ stores and acceleration of Mn2+ entry. Mn2+ entry rate, as a measure of CCE activity, was graded with the amount of released Ca2+. Maximal activation of CCE did not require complete store depletion. 3. Slow depletion of the ER by exposure to the ER Ca2+ pump inhibitor cyclopiazonic acid resulted in a delayed activation of CCE, revealing a temporal dissociation between release of Ca2+ from intracellular stores and activation of CCE. 4. During [Ca2+]i oscillations, at frequencies higher than 0.5 spikes min-1, each Ca2+ spike resulted in a progressive acceleration of CCE without leading to oscillations of Ca2+ entry. In contrast, low frequency [Ca2+]i oscillations were paralleled by transient CCE that was activated and deactivated with each Ca2+ spike, resulting in an oscillatory pattern of Ca2+ entry. 5. It is concluded that CCE is a rapidly activating process which is graded with store depletion and becomes fully activated before complete depletion. The duration of CCE activation correlates with the degree of store depletion and the time that is required to refill depleted stores. Overall, a mechanism of graded CCE prevents exhaustion of intracellular Ca2+ reserves and provides an efficient way to respond to variable degrees of intracellular store depletion.
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PMID:Capacitative Ca2+ entry is graded with degree of intracellular Ca2+ store depletion in bovine vascular endothelial cells. 1071 37

The effects of sleep deprivation with or without melatonin treatment on the pineal morphology in rats were studied. Five days after sleep deprivation and using electron microscopy, many of the pinealocytes exhibited structural alterations including dilation of the cisternae of the rough/smooth endoplasmic reticulum, Golgi saccules and mitochondria, and an increase in the numbers of lipid droplets, vacuoles and dense-core vesicles. These features were considered as morphological evidence of increased synthesis or secretion by the pineal gland. In addition, numerous membranous profiles, considered to be degraded cellular organelles, were observed in some pinealocytes and sympathetic nerve terminals. It is suggested that the occurrence of degenerating organelles had resulted from the deleterious effect of sleep deprivation. This may be attributed to an overload of secretory activity of the pineal gland during stress elicited by the long-term sleep deprivation, leading to functional exhaustion and irreversible damage of the oxidation-related organelles. In sleep-deprived rats receiving a single injection of melatonin (10 mg/kg) for 5 consecutive days, the above features indicative of pinealocytic activation were attenuated. In fact, all signs of degeneration of cellular organelles were rarely found. These results suggest that the pineal gland is itself a target for exogenously administered melatonin. Thus, melatonin when administered systemically may be used as a potential neuroprotective drug against neuronal damage induced by sleep deprivation.
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PMID:Influence of sleep deprivation coupled with administration of melatonin on the ultrastructure of rat pineal gland. 1148 48

Overload of pancreatic beta cells in conditions such as hyperglycemia, obesity, and long-term treatment with sulfonylureas leads to beta cell exhaustion and type 2 diabetes. Because beta cell mass declines under these conditions, apparently as a result of apoptosis, we speculated that overload kills beta cells as a result of endoplasmic reticulum (ER) stress. The Akita mouse, which carries a conformation-altering missense mutation (Cys96Tyr) in Insulin 2, likewise exhibits hyperglycemia and a reduced beta cell mass. In the development of diabetes in Akita mice, mRNAs for the ER chaperone Bip and the ER stress-associated apoptosis factor Chop were induced in the pancreas. Overexpression of the mutant insulin in mouse MIN6 beta cells induced Chop expression and led to apoptosis. Targeted disruption of the Chop gene delayed the onset of diabetes in heterozygous Akita mice by 8-10 weeks. We conclude that ER overload in beta cells causes ER stress and leads to apoptosis via Chop induction. Our findings suggest a new therapeutic approach for preventing the onset of diabetes by inhibiting Chop induction or by increasing chaperone capacity in the ER.
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PMID:Targeted disruption of the Chop gene delays endoplasmic reticulum stress-mediated diabetes. 1185 14

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