UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The immunoreactivity, functional activity, and molecular features of a human monoclonal antibody (HMAb), F240, from an HIV-1-infected individual have been studied. Flow cytometric analysis demonstrated that F240 is reactive with cells infected with a broad range of laboratory isolates but not with uninfected cells. Reactivity of F240 is greatly enhanced by preincubation of infected cells with soluble CD4, and to a much lesser extent, with F105, an HMAb reactive with the CD4-binding site of gp120. This enhancement is temperature dependent, with maximum enhancement observed at 37 degrees C, and suggests that the F240 epitope may be more accessible after gp120 has bound to CD4 in vivo. Immunoblot analysis reveals antigen specificity of F240 for gp41 or its precursor gp160. F240 specificity is mapped to the immunodominant region of the gp41 ectodomain by Pepscan analysis. This epitope has been implicated in eliciting nonprotective antibodies that enhance infection in the presence of complement. Consistent with this, F240 failed to neutralize laboratory isolates and enhanced viral infection in a complement-dependent manner. The F240 VH demonstrates extensive somatic mutations compared with the product of its closest homologous germline gene VH3-3.11. Most amino acid substitutions occur in CDR2, characteristic of an antigen-driven response, and in FR3, a phenomenon observed in other anti-HIV-1 envelope HMAbs. Primary structure analysis of the F240 heavy chain revealed strong homology in the CDR domains to an HMAb (3D6) reactive with the same gp41 region, which suggests that these HMAbs could define a potential human antibody clonotype.
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PMID:Functional and molecular characterization of human monoclonal antibody reactive with the immunodominant region of HIV type 1 glycoprotein 41. 976 11

Progress in therapeutic or prophylactic immune intervention in HIV-1 infections may only come about with a detailed understanding at the molecular/atomic level of how antibodies neutralize (inactivate) virus infectivity. Currently information on the molecular aspects of antibody-virus interaction comes predominantly from X-ray crystallography, a process that is dependent on the production of suitable crystals. NMR can also be valuable but is complex and time consuming, while mass spectrometry has been limited to matrix-assisted laser-desorption ionization (MALDI) analysis of peptides eluted from the cognate antibody. Here, we have used electrospray ionization mass spectrometry (ESI-MS) to detect directly the interactions of a novel 17-amino-acid microantibody (MicroAb) that has HIV-1-inhibitory activity, and peptides representing the V3 regions of primary HIV-1 strains isolated from Brazil (clade B) and Africa (clade A). The MicroAb is based on the third complementarity-determining region of the heavy chain (CDR-H3) of a murine monoclonal IGGI (F58) specific for the V3 loop of the gp120 envelope glycoprotein of HIV-1. ESI-MS proved to be rapid (taking < 3 h for the entire analysis), sensitive (analytes at 2 mmol/ml), and accurate (RMM estimation to 0.01-0.1%). With it, we showed that the MicroAb forms complexes with the V3 peptides, implying that its antiviral activity is mediated by binding directly to the virus particle. In addition, through controlled protease digestion of the V3 peptides, we concluded that the CDR-H3 MicroAb bound to RKXXXIGPGR, a region similar to the epitope of the whole IgG as determined by ELISA. We believe that the approach exemplified here will be applicable generally to the identification of groups involved in receptor-ligand interactions.
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PMID:Rapid analysis of epitope-paratope interactions between HIV-1 and a 17-amino-acid neutralizing microantibody by electrospray ionization mass spectrometry. 985 6

To study whether an expansion of HIV-1-specific CTL is contributing to the skewed TCR repertoire in HIV-1-infection, we characterized the TCR usage of CTL clones specific for a conserved epitope in HIV-1 reverse transcriptase (RT/476-484). CTL clones from three HIV-1-infected patients displayed highly similar TCR usage and used the identical Vbeta6.1 and Valpha2.5 gene segments. CTL clones from two patients showed a very high degree of similarity within the TCR complementarity-determining region-3 (CDR-3). In accordance with the similar molecular structure, all three CTL clones also exhibited a similar functional activity with regard to recognition of variant peptides and cytokine secretion pattern. In one subject clonal expansion of a single CTL specificity could be shown over a 10-mo period. TCR spectratyping of PBMC from two patients revealed a marked expansion of CDR-3 segments of a certain length within the Vbeta6-family. Sequence analysis of these CDR-3 yielded sequences identical to the RT/476-484-specific CTL previously isolated from the same patients. This analysis demonstrates that clonal expansion of HIV-1-specific CTL is contributing to the skewed TCR repertoire in HIV-1-infected patients.
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PMID:Biased TCR repertoire in HIV-1-infected patients due to clonal expansion of HIV-1-reverse transcriptase-specific CTL clones. 1035 8

Mini-inteins derived from Synechocystis sp. (Ssp DnaB intein) and Mycobacterium xenopi (Mxe GyrA intein) that have been modified to cleave peptide bonds at their C and N termini, respectively, were cloned in-frame to the N and C termini of a target protein. Peptide bond cleavage of the modified inteins generated an N-terminal cysteine and a C-terminal thioester on the same protein. These complementary reactive groups underwent intra- or intermolecular condensation to generate circular or polymeric protein species with a new peptide bond at the site of ligation. Three cyclic peptides, BBP, an organ specific localization peptide; RGD, an inhibitor of platelet aggregation; and CDR-H3/C2, which inhibits HIV-1 replication, were isolated using the two-intein system. BBP, RGD, and CDR-H3/C2 had masses of 977.1, 1119.9, and 2098.6 g/mol, respectively, as determined by matrix-assisted laser desorption-time of flight mass spectrometry, which agreed well with the values of 977.2, 1120.3, and 2098.3 g/mol, respectively, predicted for the cyclic species. This system was used to cyclize proteins as large as 395 amino acids. Furthermore, multimers of thioredoxin were formed upon concentration of the reactive species, indicating the potential to form novel biomaterials based on fibrous proteins.
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PMID:The cyclization and polymerization of bacterially expressed proteins using modified self-splicing inteins. 1037 40

We have previously reported that a murine anti-Tat sFv intrabody, termed sFvtat1Ck, directed against the proline-rich N-terminal activation domain of HIV-1, is a potent inhibitor of HIV-1 replication [Mhashilkar, A. M., et al. (1995). EMBO J. 14, 1542-1551]. In this study, the protective effect of sFvtat1Ck expression on HIV-1 replication in both acutely infected and persistently infected CD4+ cells was examined. Stably transfected CD4+ SupT1 cells were resistant to HIV-1 infection at high MOI with both the laboratory isolate HxB2 and six syncytium-inducing (SI) primary isolates. Persistently infected U1 cells, which can be induced to increase HIV-1 mRNA synthesis on addition of PMA or TNF-alpha, showed decreased production of HIV-1 in the presence of sFvtat1Ck. In transduced CD4+-selected, CD8+-depleted, and total PMBCs, the sFvtat1Ck-expressing cells showed marked inhibition of HIV-1 replication. The anti-Tat sFv was subsequently humanized by substituting compatible human framework regions that were chosen from a large database of human V(H) and V(L) sequences on the basis of high overall framework matching, similar CDR length, and minimal mismatching of canonical and V(H)/V(L) contact residues. One humanized anti-Tat sFv intrabody, termed sFvhutat2, demonstrated a level of anti-HIV-1 activity that was comparable to the parental murine sFv when transduced PBMCs expressing the murine or humanized sFv intrabodies were challenged with HxB2 and two SI primary isolates. Because Tat is likely to have both direct and indirect effects in the pathogenesis of AIDS through its multiple roles in the HIV-1 life cycle and through its effects on the immune system, the strategy of genetically blocking Tat protein function with a humanized anti-Tat sFv intrabody may prove useful for the treatment of HIV-1 infection and AIDS, particularly when used as an adjuvant gene therapy together with highly active antiretroviral therapies that are currently available.
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PMID:Inhibition of human immunodeficiency virus type 1 replication in vitro in acutely and persistently infected human CD4+ mononuclear cells expressing murine and humanized anti-human immunodeficiency virus type 1 Tat single-chain variable fragment intrabodies. 1039 67

Despite advances in antimicrobial and anti-retroviral treatment in the past decade, the natural history of HIV-1 infection remains largely unchanged. Clinical monitoring has led to the introduction of effective prophylaxis of Pneumocystis carinii pneumonia and has facilitated the early detection and treatment of opportunistic infections. Pneumocystis carinii pneumonia now makes up a smaller proportion of first AIDS defining diagnoses than before prophylaxis was introduced. The proportion made up by more unusual opportunistic infections and malignancies, that occur later in the course of the disease, is growing. Late stage HIV disease--which is now complicated by infections with organisms of low pathogenicity, often combined with systemic Kaposi's sarcoma or lymphoma--presents major problems in clinical management. Further changes in the clinical features of HIV-1 infection may be expected in the future as more effective antimicrobial and anti-retroviral treatments are developed.
Commun Dis Rep CDR Rev 1994 Apr 29
PMID:The changing clinical features of HIV-1 infection in the United Kingdom. 1088 58

We present the crystal structure at 2.7 angstrom resolution of the human antibody IgG1 b12. Antibody b12 recognizes the CD4-binding site of human immunodeficiency virus-1 (HIV-1) gp120 and is one of only two known antibodies against gp120 capable of broad and potent neutralization of primary HIV-1 isolates. A key feature of the antibody-combining site is the protruding, finger-like long CDR H3 that can penetrate the recessed CD4-binding site of gp120. A docking model of b12 and gp120 reveals severe structural constraints that explain the extraordinary challenge in eliciting effective neutralizing antibodies similar to b12. The structure, together with mutagenesis studies, provides a rationale for the extensive cross-reactivity of b12 and a valuable framework for the design of HIV-1 vaccines capable of eliciting b12-like activity.
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PMID:Crystal structure of a neutralizing human IGG against HIV-1: a template for vaccine design. 1149 95

The human monoclonal antibody Fab X5 neutralizes a broad range of HIV-1 primary isolates. The crystal structure of X5 has been determined at 1.9 A resolution. There are two crystallographically independent Fab fragments in the asymmetric unit. The crystallographic R value for the final model is 0.22. The antibody-combining site features a long (22 amino acid residues) CDR H3 with a protruding hook-shaped motif. The X5 structure and site-directed mutagenesis data suggest that X5 amino acid residues W100 and Y100F in the CDR H3 motif may be critical for the binding of Fab X5 to gp120. X5 bound to a complex of a CD4 mimetic and gp120 with approximately the same kinetics and affinity as to a CD4-gp120 complex, suggesting that specific interactions between CD4 and X5 are unlikely to contribute to the binding of X5 to gp120-CD4 complexes. Binding of X5 to alanine scanning mutants of gp120JR-CSF complexed with CD4 suggested a critical role of the highly conserved amino acid residues at positions 423 and 432. The X5 structure and fine mapping of its epitope may assist in the elucidation of the mechanisms of viral entry and neutralization, and the development of HIV-1 inhibitors and vaccines.
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PMID:Crystal structure of the broadly cross-reactive HIV-1-neutralizing Fab X5 and fine mapping of its epitope. 1476 16

The human monoclonal antibody 2F5 neutralizes primary human immunodeficiency virus type 1 (HIV-1) with rare breadth and potency. A crystal structure of a complex of 2F5 and a peptide corresponding to its core epitope on gp41, ELDKWAS, revealed that the peptide interacts with residues at the base of the unusually long (22-residue) third complementarity-determining region of the heavy chain (CDR H3) but not the apex. Here, we perform alanine-scanning mutagenesis across CDR H3 and make additional substitutions of selected residues to map the paratope of Fab 2F5. Substitution of residues from the base of the H3 loop or from CDRs H1, H2, and L3, which are proximal to the peptide, significantly diminished the affinity of Fab 2F5 for gp41 and a short peptide containing the 2F5 core motif. However, nonconservative substitutions to a phenylalanine residue at the apex of the H3 loop also markedly decreased 2F5 binding to both gp41 and the peptide, suggesting that recognition of the core epitope is crucially dependent on features at the apex of the H3 loop. Furthermore, substitution at the apex of the H3 loop had an even more pronounced effect on the neutralizing activity of 2F5 against three sensitive HIV-1. These observations present a challenge to vaccine strategies based on peptide mimics of the linear epitope.
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PMID:The long third complementarity-determining region of the heavy chain is important in the activity of the broadly neutralizing anti-human immunodeficiency virus type 1 antibody 2F5. 1499 Jul 36

The structure of a Fab fragment of a monoclonal antibody (1583) that neutralizes a broad range of HIV-1 isolates has been solved by X-ray crystallography. This antibody is directed against a poliovirus/HIV-I chimaera which presents a conserved epitope of the envelope protein gp41. Crystals of 1583 were obtained in the space group P2(1)2(1)2(1) and the structure solved by molecular replacement. The model has been refined against all data in the range 10-2.9 A to a final crystallographic R factor of 0.198. The antigen-binding site features a well defined groove, typical of antibodies that bind to small antigens, created in part by a relatively short CDR H3. The variable regions of 1583 were sequenced and, given the hydrophilic nature of the epitope, revealed a surprising lack of charged residues in the CDR's. However, the antigen-binding cleft is indeed very polar, due in part to the presence of two charged residues that emanate from outside the recognized CDR's.
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PMID:Structure of the Fab fragment from a neutralizing monoclonal antibody directed against an epitope of gp41 from HIV-1. 1529 53

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