UMLS:C0021051 - FACTA Search

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The RNase H family of enzymes catalyzes the hydrolysis of RNA from RNA DNA hybrids in a divalent metal-dependent fashion. To date, structure/function studies have focused on two members of this family: Escherichia coli RNase HI, a small monomeric protein; and human immunodeficiency virus, type I (HIV) RNase H, a domain of HIV reverse transcriptase. The isolated RNase H domain from HIV reverse transcriptase can be expressed independently and shares significant structural homology with its E. coli homologue; however, unlike the bacterial protein, it is inactive. The most notable difference between the inactive domain from HIV and the active E. coli protein is a basic helix/loop sequence, present in E. coli but absent from the HIV homologue. Substitution of this basic region into the HIV domain partially restores its activity and increases its thermodynamic stability. By deleting the basic helix/loop region, we have modeled the structural difference between these two polypeptides onto the E. coli homologue. Surprisingly, the resulting mutant protein is active in Mn2+-dependent fashion. Therefore, the basic helix/loop is not required for RNase H activity.
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PMID:The putative substrate recognition loop of Escherichia coli ribonuclease H is not essential for activity. 870

Ribonucleases appear to have physiologic roles in host defense against cancer, viruses, and other parasites. Previously it was shown that select ribonucleases added to cells concurrently with virions blocked human immunodeficiency virus, type I (HIV-1) infection of H9 cells. We now report that a ribonuclease homologous to RNase A, named onconase, inhibits virus replication in chronically HIV-1-infected human cells without killing the virally infected cell. Examining the mechanism of this inhibition shows that onconase enters the infected cells and degrades HIV-1 RNA without degrading ribosomal RNA or the three different cellular messenger RNAs analyzed. The homologous human pancreatic RNase lacks anti-viral activity. Comparing recombinant forms of onconase and a onconase-human RNase chimera shows that the N-terminal 9 amino acids and the pyroglutamyl residue of onconase are required for full anti-viral activity. Thus extracellular ribonucleases can enter cells, metabolize select RNAs, and inhibit HIV virion production within viable replicating cells.
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PMID:Inhibition of HIV-1 production and selective degradation of viral RNA by an amphibian ribonuclease. 870 32

Unique transcriptional transactivation by the human immunodeficiency virus type 1 (HIV-1) Tat protein of long terminal repeat (LTR)-driven RNA expression, in the absence of the transactivator responsive element (TAR), was previously demonstrated in central nervous system (CNS)-derived astrocytic cell-lines, including U87MG. In the present study, RNase protection assays were utilized to reveal the molecular mechanism(s) underlying transactivation of the HIV-1-LTR in these cells. Short transcripts, which represent abortive HIV-1 transcription, could not be detected either in the absence or presence of Tat, and no differences in transcript levels were detected using 5' probes, as compared to 3' probes, in the experiments. Thus, the transactivational effects of Tat, in U87MG cells, were potentially based on the increase of transcriptional initiation, both in TAR-dependent and -independent states. Further, by using newly established stable cellular transformant, containing HIV-1-LTR-reporter gene constructs, TAR-independent transactivation was demonstrated to efficiently function primarily in transiently-transfected U87MG cells. U87MG cells, stably-transfected with the intact HIV-1 proviral genome, produced very low levels of virus after long-term culture, as previously reported in other astrocytic cells. These cells demonstrated profoundly restricted transcription of the HIV-1 genome, with no detectable levels of HIV-1-specific RNA by Northern blotting, indicating that the restriction of viral production in these cells is principally due to the low level of overall transcription from the 5' HIV-1-LTR. Transcription of HIV-1 RNA in this cell could not be significantly up-regulated by various stimulators, such as phorbol 12-myristate 13-acetate (PMA), tumor necrosis factor-alpha (TNF-alpha) and sodium butyrate. These data suggest that the restriction of HIV-1 transcription in these cells may be controlled by different mechanism(s) from those in lymphocytic or monocytic cells.
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PMID:Mechanisms of transcriptional transactivation and restriction of human immunodeficiency virus type I replication in an astrocytic glial cell. 871 Mar 70

Coinfection with mycoplasmas has been shown to enhance cytopathic changes in T lymphocytes in culture brought about by human immunodeficiency virus type-1 (HIV-1), accelerate disease progression, and suppress reverse transcriptase (RT) activity simultaneously. We attempted to identify the components in culture supernatants of mycoplasmas which suppress RT activity. The marked inhibitory effect on RT by culture supernatants was dependent upon Mg2+. The culture supernatants exhibited the activities of DNase and RNase, which degraded the products and substrates in RT assay, respectively. Gel filtration studies revealed that two major protein peaks, peak 1 (MW 67-100 kDa) and peak 2 (MW 10-25 kDa), exhibited DNase and/or RNase activities, and that both peaks contained a significant degree of inhibitory activity on RT. These results indicate that suppression of RT activity by the culture supernatants of mycoplasmas is due to DNase and RNase activities in the culture supernatants. The results of the present investigation suggest that RT assay of certain biological materials that are contaminated with mycoplasmas must be conducted carefully.
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PMID:Suppression of HIV-1 reverse transcriptase activity by culture supernatants of mycoplasmas. 878 58

The RNA stem-loop structure of the trans-activating region TAR sequence of human immunodeficiency virus-1 mRNA is the binding site for a number of host cell proteins. A virtually identical set of proteins from HeLa nuclear extracts was found to bind to the predicted RNA hairpin element of prion protein (PrP) mRNA, as demonstrated in UV cross-linking/RNase protection and Northwestern assays. We show that the cellular TAR loop-binding protein, p68, is among those proteins which associate with PrP RNA. Competition experiments with various TAR RNA mutants revealed that binding of partially purified p68 to PrP RNA stem-loop occurs sequence-specifically. The 100-kDa 2-5A synthetase which is involved in the cellular antiviral defense was able to bind to PrP mRNA stem-loop in Northwestern blots with cytosolic proteins from HeLa cells treated with interferon. However, the PrP RNA failed to activate this enzyme in vitro, in contrast to TAR RNA.
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PMID:Interaction of 68-kDa TAR RNA-binding protein and other cellular proteins with prion protein-RNA stem-loop. 922 82

Retroviral RNases H are similar in sequence and structure to Escherichia coli RNase HI and yet have differences in substrate specificities, metal ion requirements, and specific activities. Separation of reverse transcriptase (RT) into polymerase and RNase H domains yields an active RNase H from murine leukemia virus (MuLV) but an inactive human immunodeficiency virus (HIV) RNase H. The "handle region" present in E. coli RNase HI but absent in HIV RNase H contributes to the binding to its substrate and when inserted into HIV RNase H results in an active enzyme retaining some degree of specificity. Here, we show MuLV protein containing the C-terminal 175 amino acids with its own handle region or that of E. coli RNase HI has the same specific activity as the RNase H of RT, retains a preference for Mn2+ as the cation required for activity, and has association rate (KA) 10% that of E. coli RNase HI. However, with model substrates, specificities for removal of the tRNAPro primer and polypurine tract stability are lost, indicating specificity of RNase H of MuLV requires the remainder of the RT. Differences in KA, while significant, appear insufficient to account for the differences in specific activities of the bacterial and viral RNases H.
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PMID:The isolated RNase H domain of murine leukemia virus reverse transcriptase. Retention of activity with concomitant loss of specificity. 926 41

Intracellular applications of ribozymes have been limited partly by the availability of suitable high-expression systems. For RNA effectors, consideration of an RNA virus vector system for delivery and expression is reasonable. We show that alphavirus replicons can be highly efficient nonintegrating ribozyme-expressing vectors. Using a hammerhead ribozyme targeted to a highly conserved sequence in the U5 region of the human immunodeficiency virus type 1 (HIV-1) long terminal repeat, we demonstrate that a full-length 8.3-kb Semliki Forest virus ribozyme (SFVRz) chimeric RNA maintains catalytic activity. SFVRz is packaged into viral particles, and these particles transduce mammalian cells efficiently. SFVRz-transduced BHK cells were found to produce large amounts of genomic and subgenomic forms of ribozyme-containing RNAs that are functional in cleaving a U5-tagged mRNA. The RNase protection assay shows that HIV-1 U5-chloramphenicol acetyltransferase mRNA expressed intracellularly from an RNA polymerase II promoter is quantitatively eliminated in SFVRz-transduced BHK cells.
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PMID:Efficient expression by an alphavirus replicon of a functional ribozyme targeted to human immunodeficiency virus type 1. 937 37

New data are presented on the interaction of model synthetic peptides containing an arginine-rich region of human immunodeficiency virus (HIV-Tat), with native RNA molecules: tRNA(Phe) of Saccharomyces cerevisiae and 5S rRNA from Lupinus luteus. Both RNA species form complexes with the Tat1 (GRKKRRQRRRA) and Tat2 (GRKKRRQRRRAPQDSQTHQASLSKQPA) peptides, as shown by electrophoretic gel shift and RNase footprint assays, and CD measurements. The nucleotide sequence UGGG located in the dihydrouridine loop of tRNAPhe as well as in the loop D of 5S rRNA is specifically protected against RNases. Our data indicate direct interactions of guanine of RNA moieties with arginine residues. These interactions seem similar to those observed in DNA-protein complexes, but different from those previously observed in the TAR RNA-Tat complexes.
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PMID:Interaction of HIV Tat model peptides with tRNA and 5S rRNA. 951 68

The existence of retroviral reverse transcriptases as monomers or dimers is rather intriguing. A classical example of the former is murine leukemia virus reverse transcriptase (MuLV RT), while human immunodeficiency virus type 1 (HIV-1) RT represents the latter. A careful scrutiny of the amino acid sequence alignment of the two enzymes pinpoints the region tentatively responsible for this phenomenon. We report here the construction of a chimeric enzyme containing the first 425 amino acid residues from the N-terminal domain of HIV-1 RT and 200 amino acid residues from the C-terminal domain of MuLV RT. The chimeric enzyme exists as a monomer with intact DNA polymerase and RNase-H functions.
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PMID:An enzymatically active chimeric HIV-1 reverse transcriptase (RT) with the RNase-H domain of murine leukemia virus RT exists as a monomer. 954 16

The 2-5A system is an RNA degradation pathway that can be induced by the interferons (IFNs). Treatment of cells with IFN activates genes encoding several double-stranded RNA (dsRNA)-dependent synthetases. These enzymes generate 5'-triphosphorylated, 2',5'-phosphodiester-linked oligoadenylates (2-5A) from ATP. The effects of 2-5A in cells are transient since 2-5A is unstable in cells due to the activities of phosphodiesterase and phosphatase. 2-5A activates the endoribonuclease 2-5A-dependent RNase L, causing degradation of single-stranded RNA with moderate specificity. The human 2-5A-dependent RNase is an 83.5 kDa polypeptide that has little, if any, RNase activity, unless 2-5A is present. 2-5A binding to RNase L switches the enzyme from its off-state to its on-state. At least three 2',5'-linked oligoadenylates and a single 5'-phosphoryl group are required for maximal activation of the RNase. Even though the constitutive presence of 2-5A-dependent RNase is observed in nearly all mammalian cell types, cellular amounts of 2-5A-dependent mRNA and activity can increase after IFN treatment. One well-established role of the 2-5A system is as a host defense against some types of viruses. Since virus infection of cells results in the production and secretion of IFNs, and since dsRNA is both a frequent product of virus infection and an activator of 2-5A synthesis, the replication of encephalomyocarditis virus, which produces dsRNA during its life cycle, is greatly suppressed in IFN-treated cells as a direct result of RNA decay by the activated 2-5A-dependent RNase. This review covers the organic chemistry, enzymology, and molecular biology of 2-5A and its associated enzymes. Additional possible biological roles of the 2-5A system, such as in cell growth and differentiation, human immunodeficiency virus replication, heat shock, atherosclerotic plaque, pathogenesis of Type I diabetes, and apoptosis, are presented.
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PMID:The 2-5A system: modulation of viral and cellular processes through acceleration of RNA degradation. 962 81

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