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: EC:3.5.4.4 (adenosine deaminase)
5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autologous rosette-forming cells (ARFC) have been considered to be post-thymic precursor cells. Since thymocytes and peripheral T lymphocytes differ considerably in lactate dehydrogenase isoenzyme pattern and in activity of the enzymes of the purine metabolism, we investigated the enzyme profile in the ARFC. The L-lactate: NAD+ oxi-reductase analysis showed an isoenzyme pattern that closely resembled the pattern found in peripheral T lymphocytes and was totally different from the thymocytes. The levels of adenosine deaminase and purine nucleoside phosphorylase were identical to those found in the peripheral T lymphocytes and different from thymocytes. In our hands, the ARFC-enriched suspension contained predominantly OKT4+ and T mu+ lymphocytes. We propose that ARFC are a heterogeneous population encompassing all known subsets and cannot be considered a separate homogeneous entity.
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PMID:Enzyme analysis of autologous rosette-forming cells. 642 30

Changes in oxidative metabolism were studied in hepatopancreas, muscle, and hemolymph of the edible crab Scylla serrata, exposed to a sublethal concentration (2.5 ppm) of cadmium chloride. A significant decrease in glycogen, total carbohydrates, and pyruvate and an increase in lactate levels in hepatopancreas and muscle were observed. Hemolymph sugar levels were increased in experimental crabs. An increase in phosphorylase suggested increased glycogenolysis during cadmium toxicity. The decrease in lactate dehydrogenase activity and the increase in lactate content indicated reduced mobilization of pyruvate into the citric acid cycle. Krebs cycle enzymes such as succinate dehydrogenase and malate dehydrogenase were found to be decreased, suggesting impairment of mitochondrial oxidative metabolism as a consequence of cadmium toxicity. Glucose-6-phosphate dehydrogenase activity was increased, suggesting enhanced oxidation of glucose by the HMP pathway. Cytochrome-c oxidase and Mg2+ ATPase activity levels decreased, indicating impaired energy synthesis during cadmium stress. Acid and alkaline phosphatase activities increased, suggesting enhanced breakdown of phosphates to release energy in view of impaired ATPase system during cadmium exposure. A significant decrease in protein and free amino acid and an increase in ammonia, urea, and glutamine levels were observed in the tissues during exposure. An increase in protease, alanine aminotransaminase, and aspartate aminotransaminase suggested increased proteolysis and transamination of amino acids. The increase in glutamate dehydrogenase, AMP deaminase, and adenosine deaminase indicated increased ammonia production. The increased arginase and glutamine synthetase suggested the detoxification or mobilization of ammonia toward the production of urea and glutamine. These results suggest that cadmium affects oxidative metabolism and induces hyperammonemia, and crabs switch over their metabolic profiles toward compensatory mechanisms for the survivability in cadmium-polluted habitats.
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PMID:Changes in oxidative metabolism in selected tissues of the crab (Scylla serrata) in response to cadmium toxicity. 753 86

White and brown rat adipocytes have been permeabilised by repeated exposure of the cells in suspension to high voltage electrical discharges. The resulting preparations were permeable to low molecular weight materials, e.g., cyclic AMP, propidium iodide, and were stable in suspension with little evidence of rapid resealing, or of gross damage to the cell membrane. Leakage of lactate dehydrogenase was not markedly enhanced except at voltages in excess of 2 kV cm-1 for brown adipocytes. Exogenously-added cyclic AMP stimulated lipolysis (measured as glycerol release) in the electropermeabilised adipocytes far more effectively than in intact adipocytes. In brown, but not in white, adipocytes this effect was enhanced by addition of millimolar ATP. The EC50 for stimulation of glycerol release by cyclic AMP was 0.2 microM in electropermeabilised brown adipocytes, and 2 microM and 40 microM in electropermeabilised white adipocytes obtained from weanling and adult rats respectively. The effect of cyclic AMP on lipolysis was enhanced by addition of an inhibitor of cyclic AMP phosphodiesterases and was reduced by addition of 5'-AMP, adenosine or inosine (in brown adipocytes). Addition of adenosine deaminase caused a small, but significant, enhancement of cyclic AMP-driven lipolysis. Catecholamine-driven lipolysis was observed in electropermeabilised brown and white adipocytes, especially in the presence of GTP. Adrenaline-, and to a lesser extent cyclic AMP-, driven lipolysis in electropermeabilised white adipocytes was inhibited by insulin. This effect of insulin was not enhanced by addition of GTP or of a metabolically stable GTP analogue. The results obtained establish the electropermeabilised preparation as suitable for analysis of signal transduction pathways in white and brown adipocytes.
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PMID:Studies on signal transduction mechanisms for adrenaline-driven lipolysis in white and brown adipocytes. 816 54

On the basis of early study on effects of retinoic acid (RA) on the differentiation of mouse lymphocytic leukemia-lymphoma cell strain (SACIIB 2), further research has been performed by studying the effects of retinoic acid on the human T lymphocytic leukemia cell line CCRF-CEM(CEM). The results showed that the growth of CEM cells was inhibited by RA at a concentration of 10 mumol/L. The activity of alpha-naphthyl acetate esterase (ANAE) and the percentage of CD3 positive cells rose after 10 days' RA treatment but the E rosette forming cells didn't increase. The activity of purine nucleoside phosphorylase (PNP) of the treated CEM cells increased significantly without change in activity of adenosine deaminase (ADA). The expression of terminal deoxynucleotidyl transferase (TdT) was also reduced to some degree. The analysis of lactic acid dehydrogenase (LDH) isoenzyme showed that the activity of LDH3 increased after RA treatment but without LDH1 and LDH2 expression. The results indicate that RA can induce CEM cells to differentiate.
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PMID:[Retinoic acid induces differentiation of human T lymphocytic leukemia CCRF-CEM cells]. 817 76

The adenosine deaminase (ADA), lysozyme (LZM) and lactate dehydrogenase (LDH) of serum and cerebrospinal fluid (CSF) were determined in 36 patients with tuberculous meningitis (TBM), 47 patients with non-tuberculous meningitis (N-T-BM) and 20 patients with non-central nervous system diseases(control group). The results showed that the assessment of serum and CSF ADA and LZM activity may be helpful to the differential diagnosis between TBM and N-TBM.
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PMID:[The activities of 3 enzymes in serum and cerebrospinal fluid for diagnosis of tuberculous meningitis]. 840 61

We selected the common shrew (Sorex araneus) to generate the first insectivore gene map. Shrew-Chinese hamster and shrew- mouse somatic cell hybrid cells were constructed. When the 119 shrew-rodent clones were characterized, only shrew chromosomes were found to have segregated. A panel of hybrid clones was selected for gene assignment. The genes for hypoxanthine phosphoribosyl transferase (HPRT), glucose-6- phosphate dehydrogenase (G6PD), and malate dehydrogenase 1 (MDH1) were assigned to shrew Chromosome (Chr) de [which is the product of a tandem fusion between the 'original' mammalian X Chromosome (Chr) and an autosome], the gene for adenosine deaminase (ADA) and 6-phosphogluconate dehydrogenase se (PGD) to Chromosome jl, the gene for thymidine kinase (TK) to Chromosome hn, and the gene for lactate dehydrogenase (LDHA) to chromosome ik. Further studies in progress.
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PMID:Gene mapping in the common shrew (Sorex araneus; Insectivora) by shrew-rodent cell hybrids: chromosome localization of the loci for HPRT, TK, LDHA, MDH1, G6PD, PGD, and ADA. 859 34

When a patient with an undiagnosed pleural effusion is evaluated, the first question to answer is whether the patient has a transudate or an exudate. This is best done using Light's criteria, but these criteria occasionally misidentify a transudate as an exudate. If the patient's pleural fluid meets exudative criteria, but the patient appears clinically to have a transudative effusion, then the serum-pleural fluid albumin gradient should be measured. If this is greater than 1.2 g-dL-1, the patient probably does have a transudative effusion. If the patient has an exudative pleural effusion, additional tests are indicated to determine the aetiology of the effusion. The gross appearance and the odour of the pleural fluid should be noted and samples of all exudates should be sent for bacterial cultures. Laboratory tests that are useful in the differential diagnosis of exudative pleural effusions include: differential white cell count of the pleural fluid; cytology of the pleural fluid; and levels of adenosine deaminase, glucose, amylase and lactate dehydrogenase in the pleural fluid. If pleural tuberculosis is suspected, a needle biopsy of the pleura is indicated. Thoracoscopy is very efficient at diagnosing malignant pleural effusion and tuberculosis pleuritis, but rarely establishes any other diagnosis.
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PMID:Diagnostic principles in pleural disease. 904 52

Examination of the pleural fluid is useful in establishing the etiology of a pleural effusion. Transudative pleural effusions can be differentiated from exudative pleural effusions by measuring the levels of protein and lactic acid dehydrogenase in the pleural fluid and serum. If a patient clinically appears to have a transudative pleural effusion, but the pleural fluid meets exudative criteria, demonstration that the albumin levels is more than 1.2 gm/dl higher in the serum than in the pleural fluid provides evidence that the effusion is transudative. The gross appearance of the pleural fluid should always be noted. Other tests that routinely should be obtained on exudative pleural fluids are Gram stain and cultures, cell counts and differential, glucose, amylase, lactic acid dehydrogenase, cytology, and a marker for tuberculous pleuritis. The diagnosis of tuberculous pleuritis is strongly suggested by a pleural fluid adenosine deaminase level above 45 IU/L or a gamma interferon level above 3.7 U/ml.
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PMID:Useful tests on the pleural fluid in the management of patients with pleural effusions. 1040 95

Diagnosis of pleural effusion is difficult in children. The etiologies are numerous; however, infectious agents are more frequent. Thoracocentesis proves to be the first-line diagnostic tool. Light's criteria are the best for distinguishing whether the effusion is a transudate or an exudate. If the patient has an exudative pleural effusion, other tests are indicated to determine the etiology and in some cases the treatment: macroscopic appearance, cytology and differential white cell count (level of glucose, lactate dehydrogenase, adenosine deaminase, pH, bacterial cultures). Others investigations--biopsy of pleura by thoracoscopy or video-assisted thoracoscopy, bronchofibroscopy, CT scan--are sometimes useful. Intrapleural instillation of urokinase appears to be useful and safe. Evaluation is necessary for video-assisted thoracoscopy used early.
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PMID:[Pleurisy: diagnostic and therapeutic management]. 1079 45

This review summarizes current strategies in the treatment of patients with pleural effusion. To determine whether a patient has a transudative or exudative pleural effusion, Light's criteria should be applied to measure the concentrations of protein and lactate dehydrogenase (LDH) in the pleural fluid and serum. If the effusion is transudative, therapy should be directed toward the underlying congestive heart failure, cirrhosis, or nephrosis. Consideration should be given to pleurodesis with a sclerosant if patients with recurrent transudative effusion have severe dyspnea due to their effusion. If the effusion is exudative, attempts should be made to define the etiology. The diagnosis of pleural malignancy is most easily established via pleural fluid cytology. If this is negative and the patient is suspected of having pleural malignancy, thoracoscopy is indicated. The concentrations of adenosine deaminase and gamma-interferon in pleural fluid are useful in the diagnosis of pleural tuberculosis. Patients with pneumonia and pleural effusion should undergo therapeutic thoracentesis; the pleural fluid should be Gram-stained and cultured, and the differential cell count, glucose and LDH concentration, and pH should be determined. Indicators of a poor prognosis include the presence of frank pus, a positive Gram-stain, a pleural glucose concentration of less than 2.2 mmol/L, a pH less than 7.00, the presence of pleural loculations, and an LDH concentration greater than three times the upper limit of normal in serum. If the pleural fluid cannot be completely evacuated because of loculations, intrapleural thrombolytic therapy should be considered. If thrombolytics are ineffective, thoracoscopy or thoracotomy with decortication should be performed. Dyspneic patients with malignant pleural effusions whose dyspnea is relieved with therapeutic thoracentesis should be considered for pleurodesis using a tetracycline derivative. Talc is not recommended because it induces acute respiratory distress syndrome in about 5% of patients, with an overall mortality of 1%.
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PMID:Management of pleural effusions. 1092 61


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