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

Acquired immune deficiency syndrome (AIDS) is caused by infection with the human immunodeficiency virus (HIV), a human retrovirus. The virus infects cells of the immune system by attachment of a glycoprotein viral envelope (gp 120) to a molecule expressed on human helper T cells called CD4. The fusion of the virus envelope protein to its specific receptor allows HIV to penetrate the T cell. Once inside the cell viral RNA is transcribed into double-stranded DNA by an enzyme unique to retroviruses, reverse transcriptase. The double-stranded, proviral DNA travels to the nucleus of the cell and is integrated into the infected cell's chromosomal DNA where it may remain latent for years. As a result of triggers that are poorly understood, viral replication becomes activated and proviral DNA is transcribed back into genomic RNA and RNA that is translated into viral proteins, both of which are packaged and bud from the infected T cell as infectious virus. The viral life cycle orchestrates the natural history of clinical HIV infection. Three to four weeks following exposure to HIV there is a phase of rapid viral replication, high levels of plasma viremia, and development of a "flue like" illness. Four to six weeks after exposure, during this stage of acute infection, antibodies to HIV core (p24) and envelope (gp 160, gp 120, gp41) proteins appear. Six to eight weeks after exposure symptoms disappear and plasma viremia subsides, presumably due to clearance by the immune system.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pathogenesis and natural history of HIV infection. 175 33

Although human T cell surface glycoprotein CD4 is the cellular receptor for human immunodeficiency virus 1 (HIV-1), the introduction of the human CD4 gene into murine cells does not render them susceptible to HIV-1 infection. Here we have established rabbit transfectant cell lines expressing human CD4 on the cell surface and demonstrated that the CD4+ rabbit transfectants could be readily infected by HIV-1 by co-cultivating with a HIV-1-infected human MOLT-4 T cell line (MOLT-4/HIV). Avid syncytia formation was observed upon co-cultivation and the syncytia abundantly produced HIV-1 mature particles, as revealed by electron microscopy. A significant increase of HIV-1 p24 antigen was also detected in the culture supernatant. The syncytia formation was blocked by pretreating the transfectant with anti-human CD4 or by pretreating the MOLT-4/HIV with anti-HIV-1 serum obtained from an infected individual, indicating that the syncytia formed as a result of the interaction of human CD4 on the rabbit transfectant with the HIV-1 envelope protein expressed on MOLT-4/HIV. In contrast, only a very small proportion of the rabbit transfectants expressed HIV-1-specific antigens upon infection with an HIV-1 stock. This may indicate that, although rabbit cells have partially acquired susceptibility to HIV-1 by transfection of human CD4 gene, rabbit cells may further require such a molecule as might be provided by MOLT-4 to become fully susceptible to HIV-1 infection. The possibility of the rabbit as a model for HIV-1 infection is also discussed.
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PMID:Infection of human CD4+ rabbit cells with HIV-1: the possibility of the rabbit as a model for HIV-1 infection. 176 Apr 13

The V3 loop (residues 303-338) of the human immunodeficiency virus type 1 (HIV-1) gp120 envelope protein represents a principal neutralizing determinant for the virus. An HIV-1 proviral clone containing a mutation in the V3 loop was constructed in which the proline residue at position 313 was changed to an alanine (P313-A). This mutation alters the conserved GPGR sequence that is found in the V3 loop sequences of different HIV-1 isolates. The P313-A clone produced virus particles, which were infectious for a number of T-cell lines including MOLT-4, CEM, and SupT1, but demonstrated a relatively low infectivity on the AA5 B-cell line when compared with wild-type viruses, HTLV-IIIB, HXB2/10 (a chimeric molecular clone), and another mutant virus (Q290-T). V3 loop-specific neutralizing polyclonal sera and the 9284 monoclonal antibody, which recognizes the amino side of the V3 loop sequence, effectively blocked infectivity and syncytia formation of all viruses tested. In contrast, the 0.5 beta monoclonal antibody, which is biologically more potent than 9284 and recognizes a different V3 loop determinant, failed to neutralize the P313-A virus. These results suggest that the proline residue in the relatively conserved GPGR "turn" region of the V3 loop is crucial for recognition by the 0.5 beta antibody. The observed variation in sensitivity of the B-cell line to the P313-A virus may reflect the presence of cell-specific factors which could be important in establishing an HIV-1 infection.
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PMID:Alteration of HIV-1 infectivity and neutralization by a single amino acid replacement in the V3 loop domain. 176 61

A mouse monoclonal hybridoma cell line producing IgG 1k to human immunodeficiency virus (HIV-1) gp120 envelope protein was cultured in several systems. A small-scale flask culture was essential for characterizing the culture variables of the hybridoma. A dialysis tubing culture appeared to be an excellent alternative to in vivo cultures of ascitic fluid, and gave high mouse monoclonal antibody (Mab) concentrations. Two continuous culture systems were both very effective in producing large amounts of Mabs. The hollow fiber system has the advantage of giving a concentrated product in the harvest. The ceramic core system, on the other hand, allows excellent monitoring of the cellular growth and production phases and gave the highest HIV antigen reactivity/micrograms of the produced IgG. Twelve grams of HIV-1 neutralizing Mabs were produced. The Mab was purified with a yield of 61%. The neutralizing capacity of the Mab was studied in vitro and shown to be excellent with 50% neutralizing titers using 5 ng Mab. The biological half-life of the Mab given intravenously to an HIV-infected individual was shown to be around 30 h.
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PMID:Production of a murine monoclonal antibody with anti-HIV-1 neutralizing properties. 177 4

We have shown that suramin can directly inhibit the binding of the human immunodeficiency virus type 1 gp120 envelope protein to immobilized CD4, thus helping to explain the previously described antiviral properties of suramin. However, physiological concentrations of serum albumin significantly attenuated suramin's antiviral effects, suggesting that only free suramin has antiviral properties. Reported discrepancies between in vitro and clinical activities of suramin may be due to differences between free suramin levels in experimental assays and those achievable clinically.
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PMID:The ability of suramin to block CD4-gp120 binding is reversed in the presence of albumin. 181 Jan 99

Deletions were constructed within a functional human immunodeficiency virus type 1 (HIV-1) proviral clone in order to assess the role of the envelope protein in virus particle formation. A graded exonuclease deletion technique was used to produce 12 clones with deletions of 175-308 nucleotides in the first conserved domain of envelope. This included 9 clones with frameshift deletions and 3 clones with in-frame deletions. Isogenic pairs of env deletion clones were produced with or without an additional deletion in the vif and vpr genes. Upon transfection, all clones produced virus particles, as determined by p24 antigen, reverse transcriptase, and sucrose gradient assays with conditioned media. Virus particles produced from clones with deletions in env or vif and vpr, or both regions, banded on sucrose gradients with a mobility similar to that of virus produced by the parental clone. The p24 gag capsid protein in the particles was resistant to trypsin, but the particles were disrupted by treatment with Triton X-100, suggesting the presence of a surrounding lipid bilayer. Furthermore, electron microscopic studies revealed both mature and immature virus particles derived from COS cells transfected with the env deletion clones. Cocultivation experiments with lymphoid cells and cells transfected with each of the env deletion clones demonstrated that the virus particles were noninfectious.
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PMID:Formation of noninfectious HIV-1 virus particles lacking a full-length envelope protein. 182 17

Sequences of the principal neutralizing determinant (PND) of the external envelope protein, gp120, from 245 isolates of human immunodeficiency virus type 1 are analyzed. The minimal set of peptides that would elicit antibodies to neutralize a majority of U.S. and European isolates of human immunodeficiency virus type 1 is determined with the assumption that peptides of a given length including the central Gly-Pro-Gly triad are required. In spite of the hypervariability of the PND, 90% of these 245 sequences include peptides from a set of 7 pentapeptides, 13 hexapeptides, or 17 heptapeptides. Tests of these peptide sets on 78 additional PND sequences show that 95% are covered by the 7 pentapeptides, 94% by the 13 hexapeptides, and 86% by the 17 heptapeptides. To anticipate variants not yet observed, single amino acid mutation frequencies from the 245 isolates are used to calculate an expanded set of the 10,000 most probable PND sequences. These sequences cover 86% of the total distribution expected for the central portion of the PND. Peptide lists derived from this expanded set when tested on the 78 additional sequences show that 7 pentapeptides cover 95%, 13 hexapeptides cover 94%, and 17 heptapeptides cover 94%. These results suggest that peptide cocktails of limited size with the potential to cover a large fraction of PND sequence variation may be feasible vaccine candidates.
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PMID:Prediction of optimal peptide mixtures to induce broadly neutralizing antibodies to human immunodeficiency virus type 1. 186 3

Mouse monoclonal antibody (mAb) 0.5 beta binds to the envelope protein gp120 of human immunodeficiency virus (HIV) and neutralizes infection by HIV in vitro. Mouse mAb 0.5 beta, therefore, has potential as a therapeutic agent for the prevention and treatment of acquired immunodeficiency syndrome (AIDS). Since mouse mAbs are highly immunogenic in humans, efforts are being made to humanize mouse mAbs that are being considered for use in humans. This report describes the design, construction, and expression of reshaped human 0.5 beta antibodies. In these antibodies, the entire constant (C) regions were derived from human sequences. The variable (V) regions were derived from human framework regions (FRs) and mouse 0.5 beta complementarity determining regions (CDRs). One version of reshaped human 0.5 beta light (L) chain and six versions of reshaped human 0.5 beta heavy (H) chain were made and tested. Following transient expression in cos cells, all of the constructions were capable of producing humanlike antibody. Three of the H chain constructions (RHc, RHe, and RHf), when co-expressed with the L chain construction (RL), produced reshaped human antibody capable of binding to the epitope on gp120 recognized by mouse 0.5 beta mAb. The best version (RL + RHe) of reshaped human 0.5 beta antibody had both binding affinity and neutralizing activity that were within twofold that of the mouse or chimeric 0.5 beta antibody.
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PMID:Construction of reshaped human antibodies with HIV-neutralizing activity. 187 3

Rapid development of genetic variability may contribute to the pathogenicity of lentiviruses as it may allow escape from immune surveillance and/or from suppression of virus replication. Although apathogenic in African green monkeys, simian immunodeficiency virus isolated from African green monkeys is shown to display extensive genetic variability and defectiveness in the V1- and V2-like variable domains of the external envelope protein comparable to that known for human immunodeficiency virus. However, in contrast to the situation in human immunodeficiency virus-infected individuals, a predominant major virus variant was detected neither in a monkey naturally infected for more than 10 years nor in two monkeys infected with a molecular virus clone for 15-20 months. Extensive variability evolves from a single genotype with a maximal rate of 7.7 mutations per 1000 nucleotides per year. A remarkable selection for nonsynonymous mutations that accounts for 92% of all changes indicates continuous selection of variants.
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PMID:Development of vivo of genetic variability of simian immunodeficiency virus. 189 60

We found that a common amino acid sequence motif exists between the V3-loop region of the human immunodeficiency virus type I envelope protein HIV gp120 and the human immunoglobulin heavy chain variable regions of subclass III (Ig VH-III). In the Ig VH-III sequences, the common motif overlaps with framework-1, complementarity-determining-region-1 and framework-2. In the homologous regions, the two groups of sequences also have a similar distribution of residue variability. On the DNA sequence level, the homology includes the conserved rearrangement signals of the VH-III genes, which lends support to the speculation that the V3 region of gp120 also may be involved in rearrangement processes.
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PMID:Protein and DNA-sequence homologies between the V3-loop of human immunodeficiency virus type I envelope protein gp120 and immunoglobulin variable regions. 189 86


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