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:C0344329 (collapse)
28,634 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cytoplasm of eukaryotic cells contain a series of three filamentous structures, microtubules, microfilaments, and intermediate filaments that are termed the cytoskeleton. Cytokeratin, one type of intermediate filament, has no known physiological function, yet, can comprise up to 30% of the total cytoplasmic protein content. As there are no selective toxins to cytokeratins, it is not known if alterations to these hydrophobic filaments is a lethal event. Cyclosporine A, a novel hydrophobic immunosuppressant compound used to prevent allograft rejection, may show a selective toxicity to the cytokeratin filaments. This effect is seen in PtK2 cell cultures as a single large perinuclear aggregate of collapsed cytokeratin filaments (5 mM, 72 hr). Microtubules and microfilaments are not affected in PtK2 cell cultures (5 mM, 72 hr). Increased LDH levels into cell culturing media occur soon after cyclosporine exposure to PtK2 cell cultures (5 mM, 2 hr). Cytokeratin filaments show no changes at 12 hr exposure but show thickening, decreased plasma membrane attachments and some peri-nuclear ring formations at 24 hr (5 mM, 24 hr). Cyclosporine G, an analog of cyclosporine A, does not exhibit the cytokeratin filament collapse (5 mM, 72 hr). The effect of cyclosporine A on DNA binding protein (Mr 64 kd), believed to be a nuclear scaffolding protein related to intermediate filaments, exhibited an early invagination and folding of the nuclear membrane (5 mM, 4 hr). Due to a hydrophobic bonding potential between cyclosporine A and cytokeratin and cytokeratin-like intermediate filaments, cyclosporin A may be a selective cytokeratin toxin. Alteration of the cytokeratin filaments in PtK2 cell cultures may be a lethal event.
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PMID:Selective alteration of cytokeratin intermediate filament by cyclosporine A is a lethal toxicity in PTK2 cell cultures. 171 36

In LLC-PK1 cells exposed to patulin (50 microM), lipid peroxidation, abrupt calcium influx, extensive blebbing, and total LDH release appeared to be serially connected events with each representing a step in the loss of structural integrity of the plasma membrane. The aforementioned patulin-induced events were prevented by concurrent incubation with butylated hydroxytoluene, deferoxamine, and cyclopiazonic acid, a fungal metabolite. Patulin also caused depletion of nonprotein sulfhydryls, increased 86Rb+ efflux, dome collapse, and eventually the loss of cell viability. These events were not prevented by antioxidants, results consistent with the hypothesis that they were also serially connected but occurring parallel to those previously mentioned. The earliest events observed in patulin-treated cells were the decrease in nonprotein sulfhydryls and increase in 86Rb+ efflux (5 min) which occurred before statistically significant alterations in protein-bound sulfhydryls. The increased potassium efflux (86Rb+ efflux) occurred via a pathway distinct from BaCl2, quinine, or tetraethylammonium sensitive potassium channels. This is the first published report of the antioxidant activity of indole tetramic acids (cyclopiazonic acid and cyclopiazonic acid imine). The protective effect of tetramic acids in LLC-PK1 cells was restricted to indole tetramic acids, and their prevention of lipid peroxidation did not involve iron chelation. The results of this study demonstrate that cyclopiazonic acid is a potent inhibitor of azide-insensitive, ATP-dependent, a23187-sensitive calcium uptake by the lysate of LLC-PK1 cells. This result is consistent with the hypothesis that the endoplasmic reticulum calcium transport ATPase is a sensitive target for cyclopiazonic acid in LLC-PK1 cells. These findings raise the interesting possibility that the antioxidant activity of indole tetramic acids may involve multiple novel mechanisms: surface charge alterations on the cytoplasmic surface of plasma membranes, alterations in calcium permeability in the plasma and endoplasmic reticulum membrane, and inhibition of the calcium-dependent ATPase of the endoplasmic reticulum.
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PMID:The mechanism of patulin's cytotoxicity and the antioxidant activity of indole tetramic acids. 203 42

Toxic effects of yellow oleander (Thevetia neriifolia Juss) seed kernels were evaluated against the roof rat (Rattus rattus Linn). Crushed ground seed kernels were fed with bait at 20 and 30% concentrations. The bait was fed up to mortality or for a maximum of 10 d. Major signs of poisoning observed were hind limb paralysis, rolling of the body on the long axis, circular flailing of the tail, muscular twitch, tetanic convulsions, tremors, collapse and death. Significant reductions in the rats' weights were observed. The observed mortalities were 16/20 and 18/20 with the above respective doses. Statistically significant reductions in hemoglobin, red blood cell count, total leucocyte count and neutrophils, and increased lymphocytes were observed. Reductions in blood glucose and serum proteins, and increased lymphocytes were observed. Reductions in blood glucose and serum proteins, and increased BUN, SGOT and LDH, were also significant. Histopathological studies showed inflammatory and degenerative changes in the liver and kidney. Severe to moderate fatty metamorphosis, congestion, hepatocytolysis, nuclear degeneration, pyknosis, and necrosis were major changes in the liver. Proliferation of glomerular endothelium, hypercellularity of the glomerulus, necrosis of convoluted tubular epithelium, disappearance of nuclei and pyknosis were important changes in the kidney cortical region. Atrophy, erosion and inflammatory changes were observed in the stomach mucosal linings.
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PMID:The toxicity of yellow oleander (Thevetia neriifolia juss) seed kernels to rats. 226 65

Chlorinated diphenyl ethers are environmental contaminants that have been found in Great Lakes fish and birds. Because of their presence in the food chain, and potential for human exposure, the present short-term study was conducted to assess their toxicity. Groups of 10 male and 10 female rats were each given by gavage 2,2',4,4'6-pentachlorodiphenyl ether (CDE1), 2,2',4,4',5,6-hexachlorodiphenyl ether (CDE2) or 2,2',3,3',4,6'-hexachlorodiphenyl ether (CDE3) at dose levels of 0.04, 0.4, 4.0 or 40 mg/kg b.w./day for a period of 28 days. The control group received an equivalent volume of corn oil only (0.5 ml/100 g b.w.). Treatment with the three CDE congeners did not result in suppression of growth rate or food consumption. Increased liver weights were seen in the animals of both sexes fed 40 mg/kg CDE2, in males treated with 40 mg/kg CDE1, and in females with 40 mg/kg CDE3. Hepatic microsomal aminopyrine demethylase activity was significantly higher in the male rats administered 40 mg/kg CDE2, and aniline hydroxylase activity was elevated in the females following the same treatment. Serum glucose, calcium, protein and urea nitrogen of CDE1-treated males were higher than the control. Levels of uric acid, potassium and LDH of CDE3-treated females were also elevated. No hematological changes were observed. Histological examination revealed that the liver and thyroid were the target organs affected by CDE treatment but the morphological changes were mild even at the highest dose level. Changes in the liver consisted of nuclear vesiculation and increased cytoplasmic volume. Alterations in the thyroid were characterized by increased epithelial height and follicular collapse. Based on the data presented above, the 3 CDE congeners can only be considered moderately toxic in the rat.
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PMID:Toxicological assessment of chlorinated diphenyl ethers in the rat. 260 Mar 62

An 80 year old patient with known interstitial pneumopathy of unknown etiology was hospitalized because of acute onset and rapid deterioration of dyspnea at rest within days. A foregoing neurologic investigation including CT and EEG because of prior syncopes and cramp attacks had not revealed pathologic findings. Thorax X-ray at admission showed homogenous loss of transparency on the left side, calcified basal plaques on both sides and prominent central pulmonary vessels with jumping caliber. A punctate of the leftsided pleural effusion revealed lymphocytic exsudate, normal pH, low glucose and an elevated LDH. The patient died shortly after a collapse at a bowel visit and pulmonary embolism was suspected in accordance to results from arterial blood gas analysis, ECG and chest X-ray. Neurologic symptoms could be explained by recurrent pulmonary embolism. Pleural plaques together with the punctate suggested a malignant etiology. A mesothelioma was taken into consideration, although there were no anamnestic reports on an exposition to asbestos. Autopsy revealed almost complete central embolism of the left pulmonary artery with acute cor pulmonale thus confirming the clinical suspicion. The embolus showed components of different ages of origin. Besides bronchitic and emphysematous alteration histology of the pulmonary tissue revealed interstitial and septal fibrosis with focal tissue consolidation. In one giant cell a typical asbestos body was found (in 1 out of 10 sections). In spite of missing information on an exposition to asbestos an abnormally high exposition must be taken into consideration because of the finding of an asbestos particle in relation to the amount of tissue studied. Apart from interstitial fibrosis asbestos may also cause consolidation of pulmonary tissue. Histology of plaquelike lesions revealed mesothelioma of fibrous type. This finding supports the suspicion that a major part of the pulmonary lesions was due to exposition to asbestos.
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PMID:[Central lung embolism in chronic interstitial pneumopathy]. 960 19

Single-molecule studies in the life sciences often deal with observation or spectroscopy. Studies of reactions are rare, and the light microscope has been used for such experiments only occasionally. In an experimental environment, for example, as is required for most nearfield scanning or electron microscopies, it is difficult to study single-molecule reactions of biological relevance. Therefore, we have developed techniques to study single-molecule reactions with classic (nonscanning) farfield light microscopy. The conversion of nicotinamide adenine dinucleotide (NAD+) and lactate to NADH (a reduced form of NAD+), pyruvate, and H+ catalyzed by a few LDH-1 enzyme molecules has been studied in substrate solutions with different viscosity using the NADH autofluorescence. It is even possible to monitor the progress of the reaction by phase-contrast microscopy via scattering or absorption by product molecules. As an example for a single-molecule reaction with a macromolecule as substrate, the handling and enzymatic cutting of fluorescently stained lambda-DNA is studied. In solutions containing 10 mM magnesium and 66 mM potassium ions at pH 7.9, an individual DNA molecule tends to collapse into a globular structure. When moved through an aqueous solution, it becomes stretched by viscosity drag. After stopping the motion, the molecule collapses and the dynamics of this process can be quantified. When a restriction enzyme is present, sequence-specific cutting can be directly observed in the light microscope. The theoretical restriction pattern, as predicted from the sequence of the molecule, can be generated directly under visual inspection.
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PMID:Study of single-molecule dynamics and reactions with classic light microscopy. 1040 70

Thrombotic thrombocytopenic purpura and adult hemolytic-uremic syndrome (TTP/HUS) have a substantial mortality rate even with currently available treatments. Although therapeutic plasma exchange is the recommended treatment of TTP/HUS, this cumbersome procedure may not be available for all patients in an emergency. In this context, plasma infusion may represent an alternative first-line therapy. We compared the effectiveness of high-dose plasma infusion (25-30 mL/kg per day) and therapeutic plasma exchange as first-line treatment of adult TTP/HUS at a single center. Two groups of patients with TTP/HUS were identified according to their initial therapy, that is, high-dose plasma infusion (19 patients) and therapeutic plasma exchange (18 patients). Clinical charts and outcomes were retrospectively analyzed. Endpoints for comparison were the duration of platelet counts below 150 x 10 /L and LDH levels above normal values; the volumes of plasma administered and the duration of treatment; complete remission, relapse, and mortality rates; and treatment-related complications. Patients of the 2 groups had comparable clinical and laboratory features on admission. Sixteen patients achieved complete remission in each group. Median times to recovery of platelet counts and LDH levels were comparable between the 2 groups. Eight patients in the high-dose plasma infusion (HD-PI) group were switched to therapeutic plasma exchange because of fluid overload (6 patients), persistent biologic disturbances (1 patient), or unresponsiveness to high-dose plasma infusion treatment (1 patient). This latter patient had severe TTP/HUS that remained refractory to therapeutic plasma exchange and vincristine, and rapidly died. All 7 remaining patients achieved complete remission with therapeutic plasma exchange. Four patients in the HD-PI group and 3 patients in the therapeutic plasma exchange (TPE) group died. In the HD-PI group, 5 patients experienced a transient nephrotic-range proteinuria during treatment. Main complications in the TPE group were collapse (1 patient) and central venous catheter infection (2 patients) or thrombosis (1 patient). Three patients in each group relapsed. High-dose plasma infusion may be an efficient treatment of TTP/HUS in patients who cannot have early plasma exchange. However, the large volumes of plasma required to reach complete remission may result in fluid overload, which may necessitate subsequent therapeutic plasma exchange.
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PMID:High-dose plasma infusion versus plasma exchange as early treatment of thrombotic thrombocytopenic purpura/hemolytic-uremic syndrome. 1254 8

We investigated the effect of benidipine, a calcium antagonist, against sodium azide (NaN(3))-induced cell death in cultured neonatal rat cardiac myocytes with increase of LDH release, depletion of cellular ATP contents, and collapse of mitochondrial membrane potential (DeltaPsi) as indicators. Cells were treated with 1 mmol/L NaN(3) for 18 h. Benidipine concentration-dependently inhibited NaN(3)-induced cell death. The protective effect of benidipine was compared with those of amlodipine, nifedipine, candesartan, and captopril. Calcium antagonists exhibited a protective effect and the IC(50) values of benidipine, amlodipine, and nifedipine were 0.65, 90, and 65 nmol/L, respectively. NaN(3)-induced cell death was inhibited completely with the calpain inhibitor. It was considered that the sustained elevation of [Ca(2+)](i) might be implicated in NaN(3)-induced cell death. Benidipine, moreover, concentration-dependently preserved cellular ATP contents and maintained DeltaPsi the extent of the control level. In conclusion, benidipine exhibited the protective effect at an approximately 100-fold lower concentration than those of amlodipine and nifedipine in the NaN(3)-induced cardiac cell death model. It was considered that both the inhibition of Ca(2+) influx and the preservation of cellular ATP contents might play an important role in the protective effect of benidipine.
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PMID:Protective effect of benidipine against sodium azide-induced cell death in cultured neonatal rat cardiac myocytes. 1457 84

Previously, we reported that glucose-deprived astrocytes were highly vulnerable to peroxynitrite (ONOO-). Here we demonstrate that the increased vulnerability caused by glucose deprivation and ONOO- depends on intracellular pH. The ONOO- releasing reagent 3-morpholinosydnonimine (SIN-1) markedly induced the release of lactate dehydrogenase (LDH, the marker of cytotoxicity) in glucose-deprived astrocytes. Morphological studies and caspase activity assay showed that astrocytes treated together with glucose deprivation and ONOO- died mostly in a necrotic mode. Alkalinization of pH from 7.4 to 7.8 increased LDH release, whereas acidification from pH 7.4 to 7.0 decreased it. However, intracellular pH (pHi), not extracellular pH (pHe), appeared to play a critical role in the synergistic death. Thus, without a change in pHe (7.4) cytosolic acidification by a weak acid salt, sodium acetate, and a Na+/H+ antiporter inhibitor, amiloride, reduced LDH release. In contrast, a weak base, NH4Cl, and a Na+/H+ antiporter stimulator, monensin, increased pHi and greatly enhanced LDH release. The augmented death was found to be due, in part, to the preceding decrease in the level of reduced glutathione, the ONOO- scavenger, and collapse of the mitochondrial transmembrane potential at alkaline pH.
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PMID:Intracellular pH-dependent peroxynitrite-evoked synergistic death of glucose-deprived astrocytes. 1545 Oct 56

Free monomers including triethylene glycol dimethacrylate (TEGDMA) are released by resin composite. Recent studies in vitro have demonstrated that TEGDMA induced GSH depletion and production of radical oxygen species (ROS) in human gingival fibroblasts (HGF) but the exact mechanism of these events remains unclear. Our purpose is to investigate the origin of ROS production. TEGDMA induces a rapid (within 30 min) and drastic depletion of ATP concomitant with the GSH depletion. After 3h incubation, TEGDMA induced an increase of lipid peroxidation associated with LDH leakage. Our data also showed that TEGDMA produced damage at mitochondrial level. This is demonstrated by the collapse of mitochondrial membrane potential (MMP) in HGF treated with TEGDMA. The protective effect of carbonylcyanide m-chlorophenylhydrazone (CCCP), an uncoupler of oxidative phosphorylation on lipid peroxidation and LDH leakage suggests that mitochondria can be implicated in these events. Trolox, a soluble derivative of Tocopherol, weakly prevents ATP but not GSH depletion and totally protects the cells against lipid peroxidation, MMP collapse and cell death. Thus, the present results suggest that TEGDMA induces lipid peroxidation and mitochondrial damage, which contribute to cell death.
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PMID:TEGDMA induces mitochondrial damage and oxidative stress in human gingival fibroblasts. 1579 39


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