Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.4.17 (adenosine deaminase)
 5,206 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The RNA-dependent protein kinase PKR promoter is interferon (IFN) inducible and possesses a novel 15-base pair (bp) constitutive activator element, designated kinase conserved sequence (KCS), in addition to an IFN-stimulated response element (ISRE). Deletion of the KCS element or point mutations within the KCS element greatly reduce both basal and IFN-inducible PKR promoter activity. The IFN-inducible RNA-specific adenosine deaminase ADAR1 promoter possesses a KCS-like (KCS-l) element. The sequences of the KCS and KCS-l elements and their positions relative to the cognate ISRE element are similar between the PKR and ADAR1 promoters. However, substitution of the ADAR1 KCS-l element for the KCS element of the PKR promoter resulted in significantly reduced basal and IFN-inducible promoter activities comparable to either point mutation or entire deletion of the PKR KCS element. The PKR KCS element selectively bound nuclear proteins more efficiently than did the ADAR1 KCS-l element. Reversing the positions of the KCS and ISRE elements of the PKR promoter relative to one another or reversing the orientation of either element while conserving the naturally occurring 4-bp spacing between the two elements did not significantly reduce basal or IFN-inducible promoter activity. Taken together, these results are consistent with the notion that the KCS and ISRE elements of the PKR promoter function as a unit.
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PMID:The promoter-proximal KCS element of the PKR kinase gene enhances transcription irrespective of orientation and position relative to the ISRE element and is functionally distinct from the KCS-like element of the ADAR deaminase Promoter. 1239 29

The human RNA-editing enzyme adenosine deaminase that acts on RNA (ADAR1) is expressed in two versions. A longer 150-kDa protein is interferon inducible and can be found both in the nucleus and cytoplasm. An amino-terminally truncated 110-kDa version, in contrast, is constitutively expressed and predominantly nuclear. In the absence of transcription, however, the shorter protein is also cytoplasmic and thus displays the hallmarks of a shuttling protein. The nuclear localization signal (NLS) of human hsADAR1 is atypical and overlaps with its third double-stranded RNA-binding domain (dsRBD). Herein, we identify regions in hsADAR1 that interfere with nuclear localization and mediate cytoplasmic accumulation. We show that interferon-inducible hsADAR1 contains a Crm1-dependent nuclear export signal in its amino terminus. Most importantly, we demonstrate that the first dsRBD of hsADAR1 interferes with nuclear localization of a reporter construct containing dsRBD3 as an active NLS. The same effect can be triggered by several other, but not all dsRBDs. Active RNA binding of either the inhibitory dsRBD1 or the NLS bearing dsRBD3 is required for cytoplasmic accumulation. Furthermore, hsADAR1's dsRBD1 has no effect on other NLSs, suggesting RNA-mediated cross talk between dsRBDs, possibly leading to masking of the NLS. A model, incorporating these findings is presented. Finally, we identify a third region located in the C terminus of hsADAR1 that also interferes with nuclear accumulation of this protein.
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PMID:Nucleocytoplasmic distribution of human RNA-editing enzyme ADAR1 is modulated by double-stranded RNA-binding domains, a leucine-rich export signal, and a putative dimerization domain. 1242 27

The ADAR1 gene encodes an RNA-specific adenosine deaminase that alters the functional activity of both viral and cellular RNAs by posttranscriptional adenosine-to-inosine RNA editing. The interferon (IFN) responsive PI promoter of the ADAR1 gene possesses an IFN-stimulated response element (ISRE) responsible for IFN-inducibility, as well as an adjacent upstream sequence, designated kinase conserved sequence-like (KCS-l) element. The KCS-l element is similar to the 15-bp KCS element so far unique to the human and mouse RNA-dependent PKR kinase gene promoters. The KCS element of the PKR kinase (PKR) promoter is essential for both basal and IFN-inducible PKR promoter activity. We have now examined the functional properties of the KCS-l element of the ADAR1 PI promoter. Electrophoretic mobility shift assays (EMSAs) detected constitutively expressed nuclear proteins that bound selectively to the ADAR1 KCS-l element. Competition EMSA and antibody supershift assays indicated that ADAR1 KCS-l-binding proteins shared some properties with PKR KCS-binding proteins. However, transient transfection analyses performed with ADAR1 PI promoter constructs possessing deletion and substitution mutant forms of the KCS-l element revealed that the ADAR1 KCS-l element was not essential for either basal or IFN-inducible promoter activity. Substitution of the ADAR1 KCS-l element with the PKR KCS element increased both basal and inducible ADAR1 PI promoter activity. These results suggest that the KCS-l element of the ADAR1 PI promoter is not functionally equivalent to the KCS element of the PKR promoter.
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PMID:Functional analysis of the KCS-like element of the interferon-inducible RNA-specific adenosine deaminase ADAR1 promoter. 1256 23

Tuberculosis is the most frequent cause of death due to infectious diseases. In Europe, it is one of the most frequent types of pleural effusions in young patients. Tuberculosis is caused by the rupture of a pulmonary subpleural caseous focus, which releases mycobacterium into the pleural cavity, thereby triggering an immune response involving mainly macrophages, CD4+ T lymphocytes, and the cytokines released by these cells (especially interleukin 1, interleukin 2, and ?-interferon). In recent years, classical microbiological and histological methods of diagnosis have been joined by biochemical analyses of pleural fluid, which are faster and can be more sensitive. In particular, tuberculous effusions have high adenosine deaminase (ADA) activity, apparently due to high levels of the ADA isoenzyme ADA2, which is only found in monocytes and macrophages (although certain data suggest the possible involvement of activated T cells, too). It has been recommended that treatment for tuberculosis be initiated if analysis of pleural fluid shows high ADA activity, a lymphocyte/neutrophil ratio greater than 0.75, and no malignant cells. Another highly efficient marker is ?-interferon, which is released by activated CD4+ T cells, but its high price is an obstacle to its routine determination in clinical practice. Identification of mycobacterial DNA by means of the polymerase chain reaction (PCR) is less efficient, apparently because its sensitivity depends heavily on mycobacterium concentration. No other biochemical parameters currently appear to be of marked relevance for the diagnosis of tuberculous pleural effusion (TPE). TPE responds well to the standard treatment for tuberculosis. However, 50% of TPE patients have a thickened pleura as a result of the accumulation of fluid, and in 16% the quantity of effusion increases during treatment, even if corticosteroids are administered. It therefore seems reasonable for treatment with antituberculous drugs to be preceded by therapeutic thoracocentesis to remove as much fluid as possible.
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PMID:Tuberculous pleural effusions. 1271 23

Molecular recognition of double-stranded RNA (dsRNA) is a key event for numerous biological pathways including the trafficking, editing, and maturation of cellular RNA, the interferon antiviral response, and RNA interference. Over the past several years, our laboratory has studied proteins and small molecules that bind dsRNA with the goal of understanding and controlling the binding selectivity. In this review, we discuss members of the dsRBM class of proteins that bind dsRNA. The dsRBM is an approximately 70 amino acid sequence motif found in a variety of dsRNA-binding proteins. Recent results have led to a new appreciation of the ability of these proteins to bind selectivity to certain sites on dsRNA. This property is discussed in light of the RNA selectivity observed in the function of two proteins that contain dsRBMs, the RNA-dependent protein kinase (PKR) and an adenosine deaminase that acts on dsRNA (ADAR2). In addition, we introduce peptide-acridine conjugates (PACs), small molecules designed to control dsRBM-RNA interactions. These intercalating molecules bear variable peptide appendages at opposite edges of an acridine heterocycle. This design imparts the potential to exploit differences in groove characteristics and/or base-pair dynamics at binding sites to achieve selective binding.
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PMID:Recognition of double-stranded RNA by proteins and small molecules. 1292 95

In a patient with an undiagnosed pleural effusion, the first question to answer is whether the fluid is an exudate or a transudate. This is usually determined by means of Light's criteria, which differentiate transudative effusions from exudative effusions by measuring the levels of total protein and lactate dehydrogenase in the pleural fluid (PF) and serum. In patients under diuretic treatment, Light's criteria misclassify transudates as exudates, but the serum to pleural fluid albumin gradient usually remains above 12 g/L. When tests are done only in PF, protein concentration >30 g/L performs at least as well as the other individual markers. To diagnose tuberculous pleuritis among exudates, PF adenosine deaminase and PF interferon-g exhibit high diagnostic accuracy. When malignancy is suspected the addition of tumour markers to the results of cytologic analysis increases the rate of detection. Other biochemical markers are useful in specific circumstances involving pleural effusion, such as amylase in effusions due to pancreatitis, or oesophageal rupture, and triglycerides in chylothorax. Several PF markers are associated with complicated parapneumonic effusion - e.g. low PF pH and glucose, and high PF LDH activity -- although PF pH appears to be the best biochemical aid in decisions regarding chest tube drainage. Recent reports suggest that neutrophil-derived enzymes (polymorphonuclear elastase and myeloperoxidase) can be useful as early indicators of the need of chest tube insertion; however these findings must be confirmed in large series. This review discusses the clinical usefulness of biochemical markers in the diagnosis and management of pleural effusions. The vast majority of prospective studies in this field have been conducted in adults and, although the mechanisms of pleural effusion production do not differ in children and adults, the prevalence of each etiologic cause does. Therefore it seems advisable to confirm or recalculate the predictive values of each marker in the paediatric population.
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PMID:Useful clinical biological markers in diagnosis of pleural effusions in children. 1498 Feb 72

ADAR1 (adenosine deaminase acting on RNA) is widely expressed in adult mammals and has a critical role during embryogenesis. Two size forms of ADAR1 are known that possess adenosine-to-inosine editing activity: an interferon (IFN)-inducible approximately 150-kDa protein and a constitutively expressed N-terminally truncated approximately 110-kDa protein. We defined the structure of the 5'-flanking region of the mouse Adar1 gene, and we show here that mouse Adar1 transcripts possess alternative exon 1 structures (1A, 1B, and 1C) that initiate from unique promoters and are spliced to a common exon 2 junction. Exon 1A-containing transcripts encoding p150 were expressed in all tissues examined from adult mice (brain, cecum, heart, kidney, liver, lung, spleen, and Peyer's patches) and were elevated most significantly in liver but remained lowest in brain following oral infection with Salmonella. Exon 1B-containing RNA was most abundant in brain and was not increased in any tissue examined following infection. Exon 1C-containing RNA was very scarce. Exon 1A, but not exon 1B or 1C, expression was increased in fibroblast L cells treated with IFN, and a consensus ISRE element was present in the promoter driving exon 1A expression. Exon 1B, but not 1A, was detectable in embryonic day 10.5 embryos and was abundantly expressed in embryonic day 15 embryos. Furthermore, the ADAR1 p110 protein isoform was detected in embryonic tissue, whereas both p110 and the inducible p150 proteins were found in IFN-treated L cells. Finally, the presence of alternative exon 7a correlated with exon 1B-containing RNA, and alternative exon 7b correlated with exon 1A-containing RNA. These results establish that multiple promoters drive the expression of the Adar1 gene in adult mice, that the IFN inducible promoter and exon 1A-containing RNA are primarily responsible for the increased ADAR1 observed in Salmonella-infected mice, and that the constitutive exon 1B-containing transcript and encoded p110 protein product are abundantly expressed both in adult brain and during embryogenesis.
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PMID:Expression of interferon-inducible RNA adenosine deaminase ADAR1 during pathogen infection and mouse embryo development involves tissue-selective promoter utilization and alternative splicing. 1567 78

While many clinical hepatitis C virus (HCV) infections are resistant to alpha interferon (IFN-alpha) therapy, subgenomic in vitro self-replicating HCV RNAs (HCV replicons) are characterized by marked IFN-alpha sensitivity. IFN-alpha treatment of replicon-containing cells results in a rapid loss of viral RNA via translation inhibition through double-stranded RNA-activated protein kinase (PKR) and also through a new pathway involving RNA editing by an adenosine deaminase that acts on double-stranded RNA (ADAR1). More than 200 genes are induced by IFN-alpha, and yet only a few are attributed with an antiviral role. We show that inhibition of both PKR and ADAR1 by the addition of adenovirus-associated RNA stimulates replicon expression and reduces the amount of inosine recovered from RNA in replicon cells. Small inhibitory RNA, specific for ADAR1, stimulated the replicon 40-fold, indicating that ADAR1 has a role in limiting replication of the viral RNA. This is the first report of ADAR's involvement in a potent antiviral pathway and its action to specifically eliminate HCV RNA through adenosine to inosine editing. These results may explain successful HCV replicon clearance by IFN-alpha in vitro and may provide a promising new therapeutic strategy for HCV as well as other viral infections.
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PMID:New antiviral pathway that mediates hepatitis C virus replicon interferon sensitivity through ADAR1. 1585 13

We describe the effects of polyethylene glycol-conjugated adenosine deaminase (ADA) replacement therapy on lymphocyte counts, activation, apoptosis, proliferation, and cytokine secretion in a 14-month-old girl with "delayed-onset" ADA deficiency and marked immunodysregulation. Pretreatment lymphopenia affected T cells (CD4, 150/microl; CD8, 459/microl), B cells (16/microl), and NK cells (55/microl). T cells were uniformly activated and largely apoptotic (CD4, 59%; CD8, 82%); and T-cell-dependent cytokine levels in plasma were elevated, including the levels of interleukin 2 (IL-2; 26 pg/ml), IL-4 (81 pg/ml), IL-5 (46 pg/ml), gamma interferon (1,430 pg/ml), tumor necrosis factor alpha (210 pg/ml), and IL-10 (168 pg/ml). Mitogen-stimulated peripheral blood mononuclear cells show reduced IL-2 secretion and proliferation. During the first 5 months of therapy there was clinical improvement and partial immune reconstitution, with nearly normal lymphocyte subset numbers, reduced T-cell activation and CD4-cell apoptosis, and decreased plasma cytokine levels. In parallel, IL-2 secretion and the lymphocyte mitogenic response improved. Between 4 and 7 months, immunoglobulin G antibodies to bovine ADA developed and resulted in the complete reversal of immune recovery.
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PMID:polyethylene glycol-conjugated adenosine deaminase (ADA) therapy provides temporary immune reconstitution to a child with delayed-onset ADA deficiency. 1652 90

Hepatitis delta virus (HDV) RNA editing controls the formation of hepatitis-delta-antigen-S and -L and therefore indirectly regulates HDV replication. Editing is thought to be catalysed by the adenosine deaminase acting on RNA1 (ADAR1) of which two different forms exist, interferon (IFN)-alpha-inducible ADAR1-L and constitutively expressed ADAR1-S. ADAR1-L is hypothesized to be a part of the innate cellular immune system, responsible for deaminating adenosines in viral dsRNAs. We examined the influence of both forms on HDV RNA editing in IFN-alpha-stimulated and unstimulated hepatoma cells. For gene silencing, an antisense oligodeoxyribonucleotide against a common sequence of both forms of ADAR1 and another one specific for ADAR1-L alone were used. IFN-alpha treatment of host cells led to approximately twofold increase of RNA editing compared with unstimulated controls. If ADAR1-L expression was inhibited, this substantial increase in editing could no longer be observed. In unstimulated cells, ADAR1-L suppression had only minor effects on editing. Inhibition of both forms of ADAR1 simultaneously led to a substantial decrease of edited RNA independently of IFN-alpha-stimulation. In conclusion, the two forms of ADAR1 are responsible almost alone for HDV editing. In unstimulated cells, ADAR1-S is the main editing activity. The increase of edited RNA under IFN-alpha-stimulation is because of induction of ADAR1-L, showing for the first time that this IFN-inducible protein is involved in the base modification of replicating HDV RNA. Thus, induction of ADAR1-L may at least partially cause the antiviral effect of IFN-alpha in natural immune response to HDV as well as in case of therapeutic administration of IFN.
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PMID:The large form of ADAR 1 is responsible for enhanced hepatitis delta virus RNA editing in interferon-alpha-stimulated host cells. 1647 90


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