UMLS:C0019158 - FACTA Search

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human adenosine deaminase (ADA; EC 3.5.4.4) consists of three isoenzymes: ADA1, ADA1+CP, and ADA2. We developed an electrophoretic technique to distinguish between these three isoenzymes. The isoenzyme pattern was studied in tissue and cell homogenates, as well as in serum from normal subjects and from patients with increased serum ADA who had either hepatitis, infectious mononucleosis, tuberculosis, pneumonia, rheumatoid arthritis, or acute lymphoblastic leukemia (ALL). The highest ADA activity was found in lymphocytes and monocytes. ADA2 could be detected only in monocytes (18% of total ADA activity). It was also the predominant isoenzyme in the sera of controls and all disease groups, except for ALL--the only condition evaluated that is not of an inflammatory nature. We conclude that serum ADA reflects monocyte/macrophage activity or turnover in most diseases studied. The exception is ALL, where serum ADA most probably originates from lymphocyte precursors.
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PMID:Serum adenosine deaminase: isoenzymes and diagnostic application. 162 98

The contribution of serum adenosine deaminase (ADA) activity to the diagnosis of typhoid fever was assessed in 246 children and in 46 adults, by Giusti's original technique. Children included otherwise healthy patients admitted for elective surgical conditions or under follow up for epilepsy which were considered to be a control group (n: 81), presumptive viral diseases (n: 31), miscellaneous febrile diseases except for typhoid fever (n: 41), different kinds of bacteremia (n: 6), diarrhea due to Salmonella typhimurium (n: 14), viral hepatitis (n: 24), and culture proven typhoid fever (n: 49). Adult's group included 39 healthy controls and 7 patients with culture proven typhoid fever. Among children mean ADA activity was as follows: control group 28 +/- 7.8, viral disease 35.3 +/- 13.1, miscellaneous febrile disease 36.1 +/- 15.6, bacteremia group: 30.3 +/- 10.3, salmonellosis group 51.6 +/- 9, hepatitis group 68.3 +/- 34.5, typhoid fever group 124.4 +/- 40.8 U/I 37 degrees C. Among adults, values were 18.4 +/- 7.5 for controls and 112.8 +/- 19.2 U/I 37 degrees C in typhoid fever patients. In both adults and children ADA activity was significantly higher in the typhoid fever group (p < 0.0001). Untreated typhoid fever patients had their higher ADA activity between 10th and 15th day of illness. When ADA cut point was set at 80 U/I, sensitivity of the test was 91.8% and specificity was 91.4% as a preliminary clue to the recognition of typhoid fever.
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PMID:[Adenosine deaminase in typhoid fever and other febrile diseases]. 184 20

Seventy-six chronic alcoholics in Japan were evaluated for histological changes of liver needle biopsies, Chiron C100 antibody (C-100) for hepatitis C virus, as well as clinical and laboratory data. In biopsies, the presence of necroinflammations within the parenchyma, lymphocytic reaction in the portal tracts, or both, might indicate non-A, non-B (NANB) chronic hepatitis. Using these histological criteria, the patients were previously classified into two groups: alcoholic liver disease (ALD) alone and ALD complicating NANB chronic hepatitis. The C100-positive ratio was found to be 12% in the former group and 69% in the latter. Further clinical and laboratory comparison revealed that there were significant differences in gamma-glutamyl transpeptidase, gamma-globulin, and adenosine deaminase levels in the sera between the ALD alone and the ALD complicating NANB chronic hepatitis groups. Since some chronic alcoholics are also affected by chronic type C hepatitis, detailed evaluations of the liver biopsy and C-100 assay are required for the differentiation of these hepatic disorders.
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PMID:Clinicopathological analysis of alcoholic liver disease complicating chronic type C hepatitis. 194 4

An in vivo murine model for immunodeficiency of both B and T cells is produced by continuous intraperitoneal infusion of 2'-deoxycoformycin (DCF), a specific tightly binding inhibitor of adenosine deaminase (ADase; adenosine aminohydrolase, EC 3.5.4.4). After DCF infusion, ADase of thymus, spleen, and lymph nodes was inhibited to varying degrees ranging from 57% to 100%. Immunodeficiency under these conditions was indicated by: (i) a striking decrease in lymphocyte response to the T-cell mitogens concanavalin A and phytohemagglutinin; (ii) an impairment of delayed hypersensitivity measured by the footpad reaction; (iii) a decrease in antibody production measured in both in vivo and in vitro plaque-forming cell assay; (iv) a significant prolongation of mouse skin allograft survival after transplantation into the C57BL/6J (H-2b) strain of skin from BALB/c (H-2d) mice; and (v) a marked lymphopenia. Histological examination indicated lymphoid degeneration in the thymus, lymph nodes, and spleen with no alterations in other tissues including bone marrow, kidney, lung, gastrointestinal tract, and liver except for the occurrence of hepatitis. A decrease in the number of Thy-1-positive cells in both spleen and lymph nodes further supported the fact of cytotoxicity of DCF to T cells. Anorexia and weight loss were observed within 5 days of continuous DCF infusion at 0.4 mg/kg body weight per day. These data indicate that this method provides an experimental model for future studies on the biochemical mechanisms responsible for the genetically determined severe combined immunodeficiency disease in man.
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PMID:Animal model for immune dysfunction associated with adenosine deaminase deficiency. 696 8

The effect of continuous infusion into C57BL/6J mice of 2'-deoxycoformycin (DCF), a tight-binding inhibitor of adenosine deaminase, on the biological function of bone marrow stem cells and T- and B-lymphocytes was evaluated. Greater than 85% inhibition of adenosine deaminase in erythrocytes, thymus, and bone marrow was noted after DCF infusion at 0.4 mg per kg body weight per day, while lesser extents of inhibition were characteristic of spleen and lymph nodes. The reconstitution of lethally irradiated C57BL/6J mice with bone marrow cells from DCF- and 0.9% NaCl infused mice of the same strain was compared. The two groups of animals were virtually identical with respect to (a) the number of spleen colony-forming units, (b) the response of splenic lymphocytes to both B- and T-cell mitogens, (c) hematological analysis of peripheral blood elements, and (d) survival time, thus strongly supporting the lack of effect of DCF infusion on the capacity of stem cells to differentiate. In contradistinction, DCF infusion was highly lymphocytotoxic as noted by the severe necrosis in both B- and T-cell regions in lymph nodes and spleen and by the dramatic weight reduction in spleen and thymus. Histopathology of other tissues including bone marrow was normal except for the occurrence of hepatitis. A striking decrease in blastogenesis induced by the mitogens concanavalin A, phytohemagglutinin, and Escherichia coli lipopolysaccharides was also observed after DCF infusion. Consistent with these data, in vitro incubation of bone marrow cells with DCF did not impair the number of spleen colony-forming units produced in lethally irradiated mice. These data suggest a potential use for adenosine deaminase inhibitors in the prevention of graft-versus-host disease in hematopoietic transplantation.
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PMID:Specific immunosuppressive effects of constant infusion of 2'-deoxycoformycin. 697 48

Hepatitis delta virus (HDV) is a subviral human pathogen that requires hepatitis B virus (HBV) for packaging. Concurrent infection by HBV and HDV increases the risk of severe liver disease compared to infection with HBV alone. The HDV genome is a closed circular RNA of about 1,700 bases which is replicated through an RNA intermediate, the antigenome. Both RNAs can be folded into highly base-paired, rod-shaped structures, similar to the plant viroid RNAs. Two forms of the sole HDV protein, hepatitis delta antigen, are derived from a single open reading frame by RNA editing; the enzymes responsible for the editing have not been characterized. Here we report that the purified enzyme dsRAD (for double-stranded-RNA-adenosine deaminase) can edit HDV antigenomic RNA in vitro. Most important, we observe that mutations in critical sequences of the antigenome have identical effects on in vitro and in vivo editing, suggesting that dsRAD, or a closely related enzyme, is responsible for editing HDV RNA in vivo.
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PMID:RNA editing of hepatitis delta virus antigenome by dsRNA-adenosine deaminase. 860 37

The mammalian RNA-specific adenosine deaminases DRADA/dsRAD (alias ADAR) and RED1 (alias ADARB1) have been implicated in the site-selective editing of brain-expressed pre-mRNAs for glutamate receptor subunits and of antigenomic RNA of hepatitis delta virus. These enzymes are expressed in many if not all tissues, predicting an as yet unappreciated significance for adenosine deamination-mediated recoding of gene transcripts in the mammalian organism. We now report the molecular cloning of cDNA for RED2 (alias ADARB2), a third member of the RNA-specific adenosine deaminase family in the rodent. RED2 is closely sequence-related to RED1 but appears to be expressed only in the brain, where expression is widespread reaching highest levels in olfactory bulb and thalamus. RED2 further differs from RED1 in having a 54-residue amino-terminal extension which includes an arginine-rich motif. Different from DRADA and RED1, recombinantly expressed RED2 did not deaminate adenosines in extended synthetic dsRNA or in GluR-B pre-mRNA. However, a chimera of RED1 and RED2 edited the GluR-B Q/R and R/G sites with moderate efficiency. Our data suggest that RED2 may edit brain-specific transcripts with distinct structural features.
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PMID:RED2, a brain-specific member of the RNA-specific adenosine deaminase family. 894 18

Double-stranded (ds) RNA-specific adenosine deaminase converts adenosine residues into inosines in dsRNA and edits transcripts of certain cellular and viral genes such as glutamate receptor (GluR) subunits and hepatitis delta antigen. The first member of this type of deaminase, DRADA1, has been recently cloned based on the amino acid sequence information derived from biochemically purified proteins. Our search for DRADA1-like genes through expressed sequence tag databases led to the cloning of the second member of this class of enzyme, DRADA2, which has a high degree of sequence homology to DRADA1 yet exhibits a distinctive RNA editing site selectivity. There are four differentially spliced isoforms of human DRADA2. These different isoforms of recombinant DRADA2 proteins, including one which is a human homolog of the recently reported rat RED1, were analyzed in vitro for their GluR B subunit (GluR-B) RNA editing site selectivity. As originally reported for rat RED1, the DRADA2a and -2b isoforms edit GluR-B RNA efficiently at the so-called Q/R site, whereas DRADA1 barely edits this site. In contrast, the R/G site of GluR-B RNA was edited efficiently by the DRADA2a and -2b isoforms as well as DRADA1. Isoforms DRADA2c and -2d, which have a distinctive truncated shorter C-terminal structure, displayed weak adenosine-to-inosine conversion activity but no editing activity tested at three known sites of GluR-B RNA. The possible role of these DRADA2c and -2d isoforms in the regulatory mechanism of RNA editing is discussed.
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PMID:Editing of glutamate receptor B subunit ion channel RNAs by four alternatively spliced DRADA2 double-stranded RNA adenosine deaminases. 911 10

In order to investigate purin and primidin metabolism pathways in hepatitis, adenosine deaminase (ADA) and guanosine deaminase (GDA) activities in sera of patients with different types and manifestations of viral hepatitis disease (A, B, C, D, E, chronic, acute) were investigated and compared with the control group of healthy individuals. Hepatitis cases were classified with respect to their serological findings and clinics. When compared all the hepatitis cases with the controls, levels of aspartate aminotransferase, alanine aminotransferase, and alkaline phosphatase enzymes, as well as ADA and GDA, were significantly higher than the control group (p<0.01). Levels of ADA and GDA in hepatitis cases were determined as 26.07 11.98 IU/l and 2.37 1.91 IU/l, respectively. When compared their ADA and GDA levels amongst the classified hepatitis groups, there was no difference in ADA levels amongst cases (p>0.05). However, GDA levels in hepatitis A group were closed to the controls. Increase in serum ADA activities in hepatitis forms may be dependent on and reflect the increase in phagocytic activity of macrophages and maturation of T-lymphocytes, and may be valuable in monitoring in viral hepatitis cases.
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PMID:Adenosine deaminase and guanosine deaminase activities in sera of patients with viral hepatitis. 1034 87

RNA editing at the amber/W site plays a central role in the replication scheme of hepatitis delta virus (HDV), allowing the virus to produce two functionally distinct forms of the sole viral protein, hepatitis delta antigen (HDAg), from the same open reading frame. Editing is carried out by a cellular activity known as ADAR (adenosine deaminase), which acts on RNA substrates that are at least partially double stranded. In HDV genotype I, editing requires a highly conserved base-paired structure that occurs within the context of the unbranched rod structure characteristic of HDV RNA. This base-paired structure is disrupted in the unbranched rod of HDV genotype III, which is the most distantly related of the three known HDV genotypes and is associated with the most severe disease. Here I show that RNA editing in HDV genotype III requires a branched double-hairpin structure that deviates substantially from the unbranched rod structure, involving the rearrangement of nearly 80 bp. The structure includes a UNCG RNA tetraloop, a highly stable structural motif frequently involved in the folding of large RNAs such as rRNA. The double-hairpin structure is required for editing, and hence for virion formation, but not for HDV RNA replication, which requires the unbranched rod structure. HDV genotype III thus relies on a dynamic conformational switch between the two different RNA structures: the unbranched rod characteristic of HDV RNA and a branched double-hairpin structure that is required for RNA editing. The different mechanisms of editing in genotypes I and III underscore their functional differences and may be related to pathogenic differences as well.
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PMID:RNA editing in hepatitis delta virus genotype III requires a branched double-hairpin RNA structure. 1209 51

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