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)

Two groups of U937 promonocytic cells were obtained by limiting dilution cloning which differed strikingly in their ability to support human immunodeficiency virus 1 (HIV-1) replication. "Plus" clones replicated the virus efficiently, whereas "minus" clones did not. We examined these clones for differences in nuclear factor (NF)-kappa B activity which might account for the observed phenomenon. Stimulation of plus clones liberated the classical p50-p65 complex from cytoplasmic pools, whereas minus clones produced an apparently novel, faster-migrating complex, as judged by electrophoretic mobility shift assays. It is surprising that the faster-migrating complex was composed also of p50 and p65. However, the p65 subunit was COOH-terminally truncated, as shown by immunoprecipitation. The truncation resulted from limited proteolysis of p65 during cellular extraction which released particular lysosomal serine proteases, such as elastase, cathepsin G, and proteinase 3. These specific proteases are coordinately expressed and were present exclusively in the minus U937 clones, but not in the plus clones, as demonstrated in the case of cathepsin G. In addition, these proteases were detected in certain subclones of THP-1 and HL-60 cells and in primary monocytes, in each case correlating with the truncated from of p65. We demonstrate in vitro cleavage of p65 by purified elastase and cathepsin G. It is possible that particular serine proteases may have inhibiting effects on the replication of HIV-1 in myelo-monocytic cells. The data also demonstrate that special precautions must be taken when making extracts from myelo-monocytic cells.
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PMID:A family of serine proteases expressed exclusively in myelo-monocytic cells specifically processes the nuclear factor-kappa B subunit p65 in vitro and may impair human immunodeficiency virus replication in these cells. 793 Oct 77

We have used a combination of genetic and immunological techniques to explore how amino acid substitutions in the second conserved (C2) domain of gp120 from human immunodeficiency virus type 1 (HIV-1) affect the conformation of the protein. It was reported previously (R. L. Willey, E. K. Ross, A. J. Buckler-White, T. S. Theodore, and M. A. Martin. J. Viol. 63:3595-3600, 1989) that an asparagine-glutamine (N/Q) substitution at C2 residue 267 of HIV-1 NL4/3 reduced virus infectivity, but that infectivity was restored by a compensatory amino acid change (serine-glutamine; S/N) at residue 128 in the C1 domain. Here we show that the 267 N/Q substitution causes the abnormal exposure of a segment of C1 spanning residues 80 to 120, which compromises the integrity of the CD4-binding site. The reversion substitution at residue 128 restores the normal conformation of the C1 domain and recreates a high-affinity CD4-binding site. The gp120 structural perturbation caused by changes in C2 extends also to the C5 domain, and we show by immunological analysis that there is a close association between areas of the C1 and C5 domains. This association might be important for forming a complex binding site for gp41 (E. Helseth, U. Olshevsky, C. Furman, and J. Sodroski. J. Virol. 65:2119-2123, 1991). Segments of the C1 and C2 domains are predicted to form amphipathic alpha helices. We suggest that these helices might be packed together in the core of the folded gp120 molecule, that the 267 N/Q substitution disrupts this interdomain association, and that the 128 S/N reversion substitution restores it.
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PMID:Immunological evidence for interactions between the first, second, and fifth conserved domains of the gp120 surface glycoprotein of human immunodeficiency virus type 1. 793 65

Variable regions with sequence length variation in the human immunodeficiency virus type 1 envelope exhibit an unusual pattern of codon usage with AAT, ACT, and AGT together composing > 70% of all codons used. We postulate that this distribution is caused by insertion of AAT triplets followed by point mutations and selection. Accumulation of the encoded amino acids (asparagine, serine, and threonine) leads to the creation of new N-linked glycosylation sites, which helps the virus to escape from the immune pressure exerted by virus-neutralizing antibodies.
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PMID:Insertion of N-linked glycosylation sites in the variable regions of the human immunodeficiency virus type 1 surface glycoprotein through AAT triplet reiteration. 793 44

Proviral clones of human immunodeficiency virus type 1 which contained single amino acid changes in the envelope V3 region were constructed. PCR amplification of Sup-T1 T cells transfected with one such mutant, G312T, revealed low levels of virus that resulted in the generation of a revertant virus, in which an alanine replaced the threonine residue at amino acid 312. The revertant virus (rA312) was fully infectious in Sup-T1 cells but lacked the ability to infect AA5 cells. The presence of a second mutation in a subsequent revertant virus (rR306), in which arginine was substituted for serine at amino acid 306 within the V3 loop, restored the ability of the mutated virus to infect AA5 cells. Our data highlight the importance of the V3 loop in defining virus tropism for specific cell types in culture and further suggest that a degree of interplay exists among V3 loop residues that helps maintain or control its biological function of the virus.
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PMID:Effect of a single amino acid substitution in the V3 domain of the human immunodeficiency virus type 1: generation of revertant viruses to overcome defects in infectivity in specific cell types. 796 30

T-cell-line-tropic human immunodeficiency virus type 1 cannot infect CD4-positive, brain-derived cells. We isolated several new variants that readily infected brain-derived cells. Mutation of proline to serine, to alanine, or to threonine in the well-conserved GPGR sequence in the V3 region of the envelope glycoprotein was found in all these variants. This indicates the importance of amino acid sequences at the tip of the V3 region for brain cell tropism of human immunodeficiency virus type 1.
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PMID:Isolation and characterization of human immunodeficiency virus type 1 variants infectious to brain-derived cells: detection of common point mutations in the V3 region of the env gene of the variants. 798 Jul 82

The human immunodeficiency virus type 1 (HIV-1) encoded Vpu is a small integral membrane phosphoprotein that functions in the enhancement of viral particle release and has more recently been shown to cause degradation of CD4 at the endoplasmic reticulum. We have demonstrated earlier that Vpu is phosphorylated by the ubiquitous casein kinase-2 (CK-2) in HIV-1 infected cells. The phosphoacceptor sites targeted by CK-2 in Vpu, however, have not been demonstrated and it was unclear whether Vpu was phosphorylated at one or more of its four serine residues. In this study we characterized the CK-2 phosphoacceptor sites in Vpu using recombinant CK-2 for in vitro phosphorylation of recombinant Vpu protein as well as synthetic peptides of Vpu. Phosphorylation of both Ser52 and Ser56 was demonstrated by in vitro phosphorylation using three 54-residue peptides comprising the entire hydrophilic part of Vpu and containing single serine to asparagine transitions in either position 52 or 56. The Km values of CK-2 to these peptides were established, revealing a preferential phosphorylation of Ser56. The Km values are: Ser56 = 31 microM; Ser 52 = 156 microM; wild type = 27 microM. In addition, we studied phosphorylation of Vpu by endogenous CK-2 following in vitro translation in rabbit reticulocyte lysate of wild-type Vpu or a mutant, Vpum2/6, carrying serine to asparagine changes at amino acid positions 52 and 56. The in vivo phosphorylation of Vpu was studied in transiently transfected human embryonic kidney (293) cells. In this system, the mutant Vpum2/6 was not phosphorylated, indicating that the seryl residues of Vpu at amino acid positions 52 and 56, but not those at positions 23 and 61, are phosphorylated by CK-2. The two CK-2 phosphorylation sites are conserved in all known Vpu sequences and represent the consensus Ser52GlyAsn(Glu/Asp)Ser(Glu/Asp)Gly(Glu/Asp)59. Prediction of the secondary structure revealed a conserved alpha-helix-turn-alpha-helix motif for the hydrophilic C-terminal part of Vpu. A structural model for Vpu is proposed in which the membrane anchor precedes a region comprising two amphipathic alpha-helices of opposed polarity, joined by a strongly acidic turn that protrudes into the cytoplasm and contains the CK-2 phosphorylation sites. Possible functional and structural homologies of Vpu to the membrane channel-forming M2 protein of influenza A viruses are discussed.
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PMID:The human immunodeficiency virus type 1 encoded Vpu protein is phosphorylated by casein kinase-2 (CK-2) at positions Ser52 and Ser56 within a predicted alpha-helix-turn-alpha-helix-motif. 810 1

The infectivity of the human immunodeficiency virus (HIV) depends upon correct proteolytic processing of viral polyprotein precursors, the Pr55gag and Pr160gag-pol polyproteins. The processing is mediated spontaneously by the viral protease unit (PR) contained within the Pr160gag-pol precursor. However, little is known about the mechanism of this process. The expression in Escherichia coli and the isolation of a 14-kDa HIV-1 PR "miniprecursor" with Ala28 mutated to serine has permitted study of the mechanism for cleavage at the N-terminus of the protease. The miniprecursor is active against a synthetic peptide substrate, and its specific activity is near that of the mutant mature protease. The rate of conversion of radiolabeled precursor to mature protease is quantitated by measuring the amounts of the two radiolabeled proteins separated by SDS-PAGE. The apparent first-order conversion rate constant, kapp, is dependent on miniprecursor concentration indicating a second-order reaction and suggesting an interdimeric processing mechanism. A significant first-order rate constant is observed when the plot of kapp versus initial precursor concentration is extrapolated to zero. This observation suggests the presence of an alternative processing mechanism involving a single active precursor dimer. The presence of both mechanisms is an advantage for the virus to ensure processing under various conditions.
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PMID:Proteolytic processing mechanisms of a miniprecursor of the aspartic protease of human immunodeficiency virus type 1. 811 Jul 58

In macaques infected with a clone of simian immunodeficiency virus (SIV) Mne, viral variants consistently evolve multiple new potential glycosylation sites in the first variable region (V1) prior to the development of AIDS. In the present study, we asked whether viruses with these glycosylation sites persist when they are transmitted to a naive macaque. Variants that evolved after transmission to a recipient macaque were compared with virus that evolved in the donor, which had been infected by cloned SIV Mne. Upon transmission, the specific serine/threonine-rich motifs potentially encoding novel O-linked glycosylation site(s) in V1 were conserved in virus isolated from lymph node, spleen, and liver tissue from the recipient. There was some accumulation of changes in V3 of envelope in virus from the recipient, whereas changes in this region were not observed in virus from the donor macaque. Some variants detected in the tissue of the recipient at necropsy were most closely related to viruses present in the donor inoculum even though these particular variants were not detected early after infection in the recipient's peripheral blood mononuclear cells. Overall, virus with the predominant V1 sequences associated with progression to disease are transmitted to and persist in the recipient animal.
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PMID:Persistence of simian immunodeficiency virus Mne variants upon transmission. 818 48

The transmembrane envelope glycoprotein (gp41) of human immunodeficiency virus type 1 possesses four consensus sites (Asn-X-Ser/Thr) for the incorporation of N-linked sugars situated on the extracellular domain of the molecule. The purpose of this investigation was to determine the significance of each of these sites in relation to the structure and function of the viral envelope glycoprotein. Each of the four sites was removed by in vitro mutagenesis of gp160 sequence in the non-infectious viral clone pEVd1443, so that amino acids 616, 621, 642 and 679 were each changed from asparagine to serine. The effects of mutagenesis were assessed by syncytium assay after wild-type or mutant envelope clones had been transfected into CD4+ HeLa cells. Removal of the glycosylation site at position 642 resulted in the synthesis of precursor gp160 that was neither cleaved, to give gp120 and gp41, nor transported to the plasma membrane of transfected cells. A consequence of these events was that envelope mutant 642 failed to induce syncytia between neighbouring cells in which it had been expressed. The results of this study indicate that N-linked glycosylation of Asn-642 in the glycoprotein produced by the pEVd1443 expression system is necessary for the correct intracellular processing of gp160 to yield surface-expressed, fusogenic gp41.
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PMID:Deletion of a single N-linked glycosylation site from the transmembrane envelope protein of human immunodeficiency virus type 1 stops cleavage and transport of gp160 preventing env-mediated fusion. 820 3

Furin is a membrane-associated calcium-dependent serine endoprotease that cleaves proproteins on the carboxyl side of the consensus sequence -Arg-X-Lys/Arg-Arg-. Using site-directed mutagenesis, a variant alpha 1-antitrypsin (alpha 1-AT) was constructed which contains in its reactive site -Arg-X-X-Arg-, the minimal sequence required for efficient processing by furin (Molloy, S. S., Bresnahan, P. A., Leppla, S. H., Klimpel, K. R., and Thomas, G. (1992) J. Biol. Chem. 267, 16396-16402). This alpha 1-AT variant, [Arg355 Arg358]alpha 1-AT (alpha 1-PDX), is greater than 3,000-fold more effective than [Arg358]alpha 1-AT (alpha 1-AT Pittsburgh, alpha 1-PIT) at inhibiting furin in vitro (K0.5 = 0.03 microgram/ml). Furthermore, the P4 Arg in alpha 1-PDX greatly attenuates the thrombin inhibitory properties of this serpin (> 300-fold) compared with alpha 1-PIT (which contains a P4 Ala), thus increasing the selectivity of alpha 1-PDX for furin. Expression studies show that alpha 1-PDX, and not alpha 1-PIT, blocks the processing of two furin substrates, pro-beta-nerve growth factor and human immunodeficiency virus (HIV)-1 gp160 in transfected cells. In addition, a syncytium assay shows that alpha 1-PDX blocks the membrane fusogenic properties of HIV-1 gp160. The potential use of alpha 1-PDX in manipulating the activation of proproteins in a tissue- and time-specific manner is discussed.
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PMID:Inhibition of HIV-1 gp160-dependent membrane fusion by a furin-directed alpha 1-antitrypsin variant. 822 51

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