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)

Although it is known that a single peptide can be recognized by CTL restricted to two MHC class I alleles, there is no direct evidence for presentation of a single peptide by two MHC class I molecules. Furthermore, it is unclear whether such peptides are presented to the same T cell or to different T cells. Our previous study suggested that CTL recognition of the human immunodeficiency virus-1 (HIV-1) Pol HIV-B35-SF2-24 epitope (IPLTEEAEL) occurs via both HLA-B35 and HLA-B51 restriction. Here we provide the first direct evidence that a single CTL clone can recognize this peptide presented by both HLA-B35 and HLA-B51. Furthermore, we directly purified this peptide eluted from both HLA-B*3501 and HLA-B*5101 molecules isolated from target cells infected with HIV-1 recombinant vaccinia virus. These results demonstrate that HIV-B35-SF2-24 is a naturally processed peptide which is presented by both HLA-B*3501 and HLA-B*5101. TCR analysis of one CTL clone suggested that it is a single clone. B*3501-SF2-24-tetrameric complexes inhibited both HLA-B*3501- and HLA-B*5101-restricted recognition of this clone, suggesting that the TCR of this clone cross-recognize the structure of both HLA class I-peptide complexes.
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PMID:A single CTL clone can recognize a naturally processed HIV-1 epitope presented by two different HLA class I molecules. 1100 85

We have sequenced the Pan troglodytes class I (Patr) molecules from three common chimpanzees and expressed them as single molecules in a class I-deficient cell line. These lines were utilized to obtain purified class I molecules to define the peptide binding motifs associated with five different Patr molecules. Based on these experiments, as well as analysis of the predicted structure of the B and F polymorphic MHC pockets, we classified five Patr molecules (Patr-A*0101, Patr-B*0901, Patr-B*0701, Patr-A*0602, and Patr-B*1301) within previously defined supertype specificities associated with HLA class I molecules (HLA-A3, -B7, -A1, and -A24 supertypes). The overlap in the binding repertoire between specific HLA and Patr class I molecules was in the range of 33 to 92%, depending on the particular Patr molecule as assessed by the binding of HIV-, hepatitis B virus-, and hepatitis C virus-derived epitopes. Finally, live cell binding assays of nine chimpanzee-derived B cell lines demonstrated that HLA supertype peptides bound to Patr class I molecules with frequencies in the 20-50% range.
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PMID:Identification of five different Patr class I molecules that bind HLA supertype peptides and definition of their peptide binding motifs. 1103 79

Since the mid-1990s, southern African countries have been experiencing an expansion of human immunodeficiency virus type 1 (HIV-1) infection caused by HIV-1 subtype C. To facilitate the design of an HLA-based HIV vaccine, we studied the distribution of the HLA class I antigen specificities in Botswana, a southern African country with a high prevalence of HIV infection. Botswana's highly efficient health care system and its central geographical location within southern Africa suggests that it might be an appropriate candidate site for future trials of an HLA-based HIV vaccine. Specificities of HLA class I genes have been investigated in DNA samples obtained from 161 persons of Botswana origin by polymerase chain reaction (PCR) with sequence-specific primers. We identified 4 HLA-A, 7 HLA-B, and 5 HLA-C specificities that were observed at high frequencies in the Botswana population: A30, A02, A23, A68, B58, B72, B42, B8, B18, B44, B45, Cw7, Cw2, Cw17, Cw6, and Cw4. HLA-A30, A02, A23, A68, B58, Cw2, Cw4, Cw6, Cw7, and Cw17 were observed at frequencies of more than 10%. The frequency of HLA-A30 was 27.3%. HLA-B58 (17.9%) was the most frequent generic HLA-B type. Other frequent antigen specificities detected for the HLA-B were B72 (9.6%), B42 (9.3%), B8 (7.4%), B18 (7.4%), B44 (7.4%), and B45 (6.4%). Analysis of haplotype frequencies revealed that haplotypes HLA-A30/HLA-B58 (6.7%), A30/B42 (6.1%), A30/B8 (4.1%), A30/B45 (3.2%), and A23/B58 (2.5%) were the most frequent among two-locus haplotypes. The comparison of HIV-positive patients and noninfected controls for HLA class I specificities confirmed the previously described association of A2/A6802 supertype with resistance to HIV. Our study suggested an increased resistance to HIV infection associated with A68 rather than A2. We also found that the generic HLA-B58 type was associated with increased susceptibility to HIV infection. Our findings suggest that the design of an HLA-based HIV vaccine that includes multiple CTL epitopes restricted by identified common HLA class I specificities might target up to 97.5% of the population in Botswana. The results of this study extend the HLA map to a southern African country that has high rates of HIV and also provide a database for the design of an HLA-based HIV vaccine.
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PMID:Identification of most frequent HLA class I antigen specificities in Botswana: relevance for HIV vaccine design. 1118 25

Genetic variations at the closely related tumor necrosis factor alpha (TNFalpha or TNF) and lymphotoxin alpha (LTalpha, formerly TNFbeta) loci have been well documented in various human populations, and several haplotypes spanning the MHC class I and class II loci are known to carry specific TNF alleles. Genotyping of the TNFc microsatellite within the first intron of LTalpha in 285 Rwandans and 319 Zambians revealed two predominant alleles, c1 at frequencies of 0.598 and 0.683 and c2 at 0.384 and 0.307, respectively. Overall, the distribution of TNFc genotypes containing the major alleles conformed well to the Hardy-Weinberg equilibrium in both cohorts. Two previously unrecognized minor TNFc alleles were also detected: the first, designated c0, was found in 10 native Africans and was the only allele present in 10 chimpanzees; the second, designated c3, was seen in 6 other African patients. Further genotyping at loci for HLA class I, class II, and for transporters associated with antigen processing, subunit 1 (TAP1) in those 16 individuals suggested a tight, stable extended haplotype involving c0 and 26Asn (LTalpha)-TNF3 (TNF promoter -238A and -308G)-DRB1*1503-DQB1*0602-TAP1.2 (333Val)-TAP1.4 (637Gly). The c3 allele was observed on another extended haplotype with 26Thr (LTalpha)-TNF1 (TNF promoter -238G and -308G)-DQB1*0102-DQB1*0501-TAP1*0101 (333Ile and 637Asp). The c3-tagged haplotype further extended to Cw*15 at the HLA class I C locus, but no specific A or B alleles could be unambiguously assigned. Positive associations between c2 homozygosity and HIV-1 seronegative status in both Rwandans and Zambians (odds ratio = 2.03 and 2.00, p = 0.04 and 0.07, respectively) had little effect on the haplotype assignments. These findings suggest a preferential expansion of the human TNFc dinucleotide (CT/AG) repeat sequence and further imply the existence of two extended MHC lineages that have not been disrupted by recombinations.
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PMID:Novel alleles at the lymphotoxin alpha (LTalpha) locus mark extended HLA haplotypes in native Africans. 1125 44

As part of the ongoing study of natural HIV-1 resistance in the women of the Nairobi Sex Workers' study, we have examined a resistance-associated HLA class I allele at the molecular level. Typing by polymerase chain reaction using sequence-specific primers determined that this molecule is closely related to HLA-A*0214, one of a family of HLA-A2 supertype alleles which correlate with HIV-1 resistance in this population. Direct nucleotide sequencing shows that this molecule differs from A*0214, having a silent nucleotide substitution. We therefore propose to designate it HLA-A*02142. We have determined the peptide-binding motif of HLA-A*0214/02142 by peptide elution and bulk Edman degradative sequencing. The resulting motif, X-[Q,V]-X-X-X-K-X-X-[V,L], includes lysine as an anchor at position 6. The data complement available information on the peptide-binding characteristics of this molecule, and will be of use in identifying antigenic peptides from HIV-1 and other pathogens.
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PMID:Sequence and peptide-binding motif for a variant of HLA-A*0214 (A*02142) in an HIV-1-resistant individual from the Nairobi Sex Worker cohort. 1126 25

We demonstrate that dendritic cells loaded in vitro with human immunodeficiency virus type 1 (HIV-1) protein-liposome complexes activate HLA class I-restricted anti-HIV-1 cytotoxic T-lymphocyte and gamma interferon (IFN-gamma) responses in autologous CD8+ T cells from late-stage HIV-1-infected patients on prolonged combination drug therapy. Interleukin-12 enhanced this effect through an interleukin-2- and IFN-gamma-mediated pathway. This suggests that dendritic cells from HIV-1-infected persons can be engineered to evoke stronger anti-HIV-1 CD8+ T-cell reactivity as a strategy to augment antiretroviral therapy.
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PMID:Restoration of anti-human immunodeficiency virus type 1 (HIV-1) responses in CD8+ T cells from late-stage patients on prolonged antiretroviral therapy by stimulation in vitro with HIV-1 protein-loaded dendritic cells. 1128 92

Therapeutic intervention with antiretroviral therapy (ART) enables the modulation of HIV virus load and hence provides a unique opportunity to study the consequences of varying antigen load on the phenotype of virus-specific CD8(+) T lymphocytes in a persistent human viral infection. The recent advent of tetrameric peptide / HLA class I complexes has enabled the direct phenotypic characterization of antigen-specific T cell populations ex vivo. Here, we use this technology to examine directly ex vivo the consequences of therapeutic manipulation of HIV virus load on the phenotype of HIV-specific CTL. Our observations show that: (1) distinct sequential activation patterns of CD8(+) T cells are associated with increasing virus load; (2) T cell receptor (TCR) down-regulation without apoptosis represents an early event during the generation of a T cell response in a natural infection and precedes the emergence of two distinct antigen-specific CD8(+) T cell populations which differ in TCR and CD8 expression levels. Clear differences in surface Annexin V staining were observed between these populations. The observation that CTL activation, demonstrated by TCR and CD8 down-regulation, in response to rising levels of virus load, co-segregates with apoptosis only during later stages of the response indicates that antigen-associated cell death is restricted to distinct subpopulations of CTL.
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PMID:Direct ex vivo analysis reveals distinct phenotypic patterns of HIV-specific CD8(+) T lymphocyte activation in response to therapeutic manipulation of virus load. 1129 36

First and foremost among the many factors that influence epitope presentation are the degradation of Ag, which results in peptide liberation, and the presence of HLA class I molecules able to present the peptides to T lymphocytes. To define the regions of HIV-1 Nef that can provide multiple T cell epitopes, we analyzed the Nef sequence and determined that there are 73 peptides containing 81 HLA-binding motifs. We tested the binding of these peptides to six common HLA molecules (HLA-A2, -A3, -A24, -B7, -B8, and -B35), and we showed that most of them were efficient binders (54% of motifs), especially peptides associating with HLA-A3, -B7/35, and -B8 molecules. Nef peptides most frequently recognized by T cells of HIV-1-infected individuals were 90-97, 135-143, 71-81, 77-85, 90-100, 73-82, and 128-137. The frequency of T cell recognition was not directly related to the strength of peptide-HLA binding. The generation of Nef epitopes is crucial; therefore, we investigated the digestion by the 20S proteasome of a large peptide, Nef(66-100). This fragment was efficiently cleaved, and NH(2)-terminally extended precursors of epitope 71-81 were recognized by T cells of an HIV-1-infected individual. These results suggest that a high frequency of T cell recognition may depend on proteasome cleavage.
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PMID:Characteristics of HIV-1 Nef regions containing multiple CD8+ T cell epitopes: wealth of HLA-binding motifs and sensitivity to proteasome degradation. 1134 37

HIV-1-specific cytotoxic T-lymphocyte (CTL) responses have been detected at a low frequency in many HIV-1-exposed, persistently seronegative (HEPS) subjects. However, it is unclear how CTLs could protect against HIV acquisition in HEPS subjects, when high levels of circulating CTL fail to prevent disease progression in most seropositive subjects. To address this issue we studied CD8(+) lymphocyte responses to a panel of HIV-1 CTL epitopes in 91 HEPS and 87 HIV-1-infected Nairobi sex workers. HIV-specific responses in seropositive women focused strongly on epitopes rarely or never recognized in HEPS subjects, who targeted epitopes that were subdominant or unrecognized in infected women. These differences in epitope specificity were restricted by only those HLA class I alleles that are associated with a reduced risk of HIV-1 infection in this cohort. Late seroconversion in HEPS donors was associated with a switch in epitope specificity and/or immunodominance to those epitopes preferentially recognized by HIV-1-infected women. The likelihood of detecting HIV-1-specific responses in HEPS women increased with the duration of viral exposure, suggesting that HIV-1-specific CD8(+) responses are acquired over time. The association between differential recognition of distinct CTL epitopes and protection from HIV-1 infection may have significant implications for vaccine design.
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PMID:CD8(+) lymphocytes respond to different HIV epitopes in seronegative and infected subjects. 1137 20

Cytotoxic T lymphocytes (CTL) target multiple epitopes in human immunodeficiency virus (HIV)-infected persons, and are thought to influence the viral set point. The extent to which HLA class I allele expression predicts the epitopes targeted has not been determined, nor have the relative contributions of responses restricted by different class I alleles within a given individual. In this study, we performed a detailed analysis of the CTL response to optimally defined CTL epitopes restricted by HLA class I A and B alleles in individuals who coexpressed HLA A2, A3, and B7. The eight HIV-1-infected subjects studied included two subjects with acute HIV infection, five subjects with chronic HIV infection, and one long-term nonprogressor. Responses were heterogeneous with respect to breadth and magnitude of CTL responses in individuals of the same HLA type. Of the 27 tested epitopes that are presented by A2, A3, and B7, 25 were targeted by at least one person. However, there was wide variation in the number of epitopes targeted, ranging from 2 to 17. The A2-restricted CTL response, which has been most extensively studied in infected persons, was found to be narrowly directed in most individuals, and in no cases was it the dominant contributor to the total HIV-1-specific CTL response. These results indicate that HLA type alone does not predict CTL responses and that numerous potential epitopes may not be targeted by CTL in a given individual. These data also provide a rationale for boosting both the breadth and the magnitude of HIV-1-specific CTL responses by immunotherapy in persons with chronic HIV-1 infection.
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PMID:Relative dominance of epitope-specific cytotoxic T-lymphocyte responses in human immunodeficiency virus type 1-infected persons with shared HLA alleles. 1141 94

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