UMLS:C0026918 - FACTA Search

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Query: UMLS:C0026918 (Mycobacterium)
52,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The quality of the response produced by regulatory or helper T (Th) cells presently receives much attention because of its possible implications for vaccine development and immunomodulation. Apart from cytokines and so-called costimulatory signals, antigens and the presenting major histocompatibility complex (MHC) molecules may play a role in determining the type of T-cell response generated toward antigens. To examine the role of antigen and/or HLA in control of T-cell subset activation, we have studied a special case, namely CD4+ suppressor T (Ts) cells in leprosy. Mycobacterium leprae-induced Ts cell clones have been previously isolated from peripheral blood and skin lesions of lepromatous leprosy patients and were shown to specifically down-regulate mycobacterium-specific Th cell responses. Despite considerable effort, the antigens recognized by these Ts cells have thus far not been identified. Here we report that all HLA-DR2-restricted CD4+ Ts cell clones derived from a lepromatous leprosy patient recognize an epitope that maps between the amino acid residues 439 and 448 of the mycobacterial hsp65. The peptide was presented to these Ts cells by HLA-DRB1*1503, a recently discovered HLA-DR2 variant. Non-suppressor T-cell clones derived from the same patient recognized antigens other than the hsp65 and were also stimulated by other HLA-DR2 variants. In independent cloning experiments peptide 435-449 and recombinant hsp65 induced exclusively Ts cells in this lepromatous leprosy patient. The Ts clones recognizing this particular epitope were derived from at least seven different progenitors, as they expressed different T-cell receptor alpha and beta chains. Thus, our data indicate that a specific peptide-HLA class II combination may exclusively activate Ts cells.
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PMID:Definition of a human suppressor T-cell epitope. 752 76

By combining a DNA subclone and synthetic-peptide approach, we mapped epitopes of the immunogenic mycobacterial 70-kDa heat shock protein (HSP70) recognized by human CD4+ T-cell clones and lines. In addition, we identified the respective HLA-DR molecules used in antigen presentation. The donor groups used were healthy persons immunized with killed Mycobacterium leprae and tuberculoid leprosy patients. The results show that the N-terminal part of the HSP70 molecule contains three different T-cell epitopes, of which two were presented by DR7 (amino acids [aa] 66 to 82 and 210 to 226) and one was presented by DR3 (aa 262 to 274). The C-terminal part contains one epitope (aa 413 to 424) presented by HLA-DR2. The C-terminal epitope shows extensive homology to the corresponding region of the human HSP70 sequence. All of the T-cell epitopes identified were presented by only one particular HLA-DR molecule. We also found that HLA-DR5 and DRw53 can present HSP70 to T cells, demonstrating the presence of additional epitopes not yet defined at the peptide level. On the basis of the donors used in this study, recognition of HSP70 at the epitope level seems to be ruled by the restriction elements expressed by the donor rather than by any difference in reactivity between healthy individuals and patients. In conclusion, mycobacterial HSP70 is relevant to subunit vaccine design since it contains a variety of T-cell epitopes presented in the context of multiple HLA-DR molecules.
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PMID:Mapping of multiple HLA class II-restricted T-cell epitopes of the mycobacterial 70-kilodalton heat shock protein. 752 84

We have analyzed the TCR-alpha beta repertoire specific for a given peptide/MHC complex by using pairs of HLA-identical individuals ranging from monozygotic twins to unrelated individuals to examine the contribution of genetic background and HLA expression in shaping the potential response to a single antigenic epitope. This panel has been previously defined, demonstrating that the concordance of the peripheral TCR-alpha beta repertoires directly correlates to the level of relation and HLA identity. We have analyzed peptide-specific T cell clones derived from T cell lines from these individuals specific for MHC class II-restricted peptides: Mycobacterium bovis 65-kDa heat shock protein (65-kDa hsp) amino acids (aa) 3-13 (DR3-restricted), and myelin basic protein aa 84-102 (DR2-restricted). DNA sequence analysis was used to determine the composition of the TCR-alpha beta V regions. Although the overall TCR-alpha beta repertoires between individuals were diverse, an intra-individual limited restriction was evident. There was also a limited conservation in the response to the different peptides: high frequencies of V beta 2, 4, 7, 19, V alpha 21, and J alpha 17 responded to the MBP aa84-102, whereas these V/J regions were limited or absent in the 65-kDa hsp aa3-13 repertoire. Similarly, V beta 5.1 and J alpha 9 were increased in the 65-kDa hsp aa3-13 repertoire. Within the CDR3s, motifs could be identified that were similar between twins. Furthermore, one of these motifs resembled CDR3s previously found in corresponding animal models. Similarities could also be seen in the CDR3s of T cell clones sharing V gene usage and peptide specificity. Thus, the in vitro response to antigenic peptides seems to be quite heterogeneous overall and individual specific.
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PMID:Limited restriction in the TCR-alpha beta V region usage of antigen-specific clones. Recognition of myelin basic protein (amino acids 84-102) and Mycobacterium bovis 65-kDa heat shock protein (amino acids 3-13) by T cell clones established from peripheral blood mononuclear cells of monozygotic twins and HLA-identical individuals. 752 79

Alveolar macrophages form the first line of defense against inhaled droplets containing Mycobacterium tuberculosis by controlling mycobacterial growth and regulating T cell responses. CD4+ and gamma delta T cells, two major T cell subsets activated by M. tuberculosis, require accessory cells for activation. However, the ability of alveolar macrophages to function as accessory cells for T cell activation remains controversial. We sought to determine the ability of alveolar macrophages to serve as accessory cells for resting (HLA-DR-, IL-2R-) and activated (HLA-DR+, IL-2R+) gamma delta T cells in response to M. tuberculosis and its Ag, and to compare accessory cell function for gamma delta T cells of alveolar macrophages and blood monocytes obtained from the same donor. Alveolar macrophages were found to serve as accessory cells for both resting and activated gamma delta T cells in response to M. tuberculosis Ag. At high alveolar macrophage to T cell ratios (> 3:1), however, expansion of resting gamma delta T cells was inhibited by alveolar macrophages. The inhibition of resting gamma delta T cells by alveolar macrophages was dose-dependent, required their presence during the first 24 h, and was partially overcome by IL-2. Alveolar macrophages did not inhibit activated gamma delta T cells even at high accessory cell to T cell ratios, and alveolar macrophages functioned as well as monocytes as accessory cells. Monocytes were not inhibitory for either resting or activated gamma delta T cells. These findings support the following model. In the normal alveolus the alveolar macrophage to T cell ratio is > or = 9:1, and therefore the threshold for resting gamma delta T cell activation is likely to be high. Once a nonspecific inflammatory response occurs, such as after invasion by M. tuberculosis, this ratio is altered, favoring gamma delta T cell activation by alveolar macrophages.
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PMID:Alveolar macrophages as accessory cells for human gamma delta T cells activated by Mycobacterium tuberculosis. 775 39

Peripheral blood mononuclear cells (PBMC) from the majority of adults (12 out of 18 subjects tested) showed an in vitro proliferative response to a 20 amino acid long peptide (peptide 1, a.a 18-37) derived from TSST-1. In contrast, thymocytes and PBMC from cord blood did not proliferate to this peptide. TSST-1 peptide 1 did not induce IL-1 beta mRNA in monocytes indicating that it does not behave as a superantigen. Proliferation of PBMC to peptide 1 could be blocked by anti-HLA-DR, but not by anti-HLA DP or DQ monoclonal antibodies suggesting that HLA-DR molecules are the restriction elements for the recognition of this peptide by T cells. Studies with subjects of known HLA-DR types showed that all types tested are capable of responding to this peptide. Peptide 1 shows homology to a.a 180-193 of mycobacterial hsp 65 and was shown to stimulate the proliferation of T cell lines and T cell clone specific for the purified protein derivative (PPD) of Mycobacterium tuberculosis. This cross reactivity may confer on TSST-1 the potential to trigger self reactivity and may also contribute to the natural immunity against TSST-1.
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PMID:A toxic shock syndrome toxin-1 peptide that shows homology to amino acids 180-193 of mycobacterial heat shock protein 65 is presented as conventional antigen. 785 57

HLA-B27-related arthritis is probably mediated by an immune response against HLA-B27 complexed with peptides derived from proteins of arthritis-causing bacteria. Immunogenic proteins with a high degree of homology among bacteria, such as in the hsp60 family, are likely candidates. To create such complexes experimentally, we transfected an HLA-B27 cell line with the Mycobacterium tuberculosis hsp60 gene. Because of previous observations that HLA-B27-peptide complexes can be distinguished by antibodies, we tested the transfected cell line with a panel of sera from 24 HLA-B27+ arthritis patients. Significant antibodies were detected in at least eight of the sera. Several cell lines and peptides were used as negative controls to ensure that the antibody reactivity was specific to HLA-B27-peptide complexes. A panel of nine peptides derived from the sequence of the Mycobacterium hsp60 were synthesized and tested. At least three were identified as being responsible for the serological activities.
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PMID:Serum antibodies from patients with ankylosing spondylitis and Reiter's syndrome are reactive with HLA-B27 cells transfected with the Mycobacterium tuberculosis hsp60 gene. 790 62

Phylogenetic comparisons of polymorphic second-exon sequences of MHC class II DRB genes showed that equivalents of the HLA-DRB1*03 alleles are present in various nonhuman primate species such as chimpanzees, gorillas, and rhesus macaques. These alleles must root from ancestral structure(s) that were once present in a progenitor species that lived about 35 million years ago. Due to accumulation of genetic variation, however, sequences that cluster into a lineage are generally unique to a species. To investigate the biologic importance of such conservation and variation, the peptide-binding capacity of various Mhc-DRB1*03 lineage members was studied. Primate Mhc-DRB1*03 lineage members successfully binding the p3-13 peptide of the 65-kD heat-shock protein of Mycobacterium tuberculosis/leprae share a motif that maps to the floor of the peptide-binding site. Apart from that, some rhesus macaque MHC class-II-positive cells were able to present the p3-13 peptide to HLA-DR17-restricted T cells whereas cells obtained from great ape species failed to do so. Therefore, these studies open ways to understand which MHC polymorphisms have been maintained in evolution and which MHC residues are essential for peptide binding and T-cell recognition.
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PMID:The biologic importance of conserved major histocompatibility complex class II motifs in primates. 810 78

Peptide binding to DQ molecules has not previously been described. Here we report a biochemical peptide-binding assay specific for the DQ2 [i.e. DQ(alpha 1*0501, beta 1*0201)] molecule. This molecule was chosen since it shows a strong association to diseases such as celiac disease and insulin-dependent diabetes mellitus. Initially we radiolabelled some selected peptides and tested them for binding to affinity-purified DQ2 molecules. One of the peptides, a Mycobacterium bovis (MB) 65 kDa 243-255Y peptide, displayed a good signal-to-noise ratio and was thus chosen as an indicator peptide in the DQ2 binding assay. The MB 65 kDa 243-255Y peptide bound to DQ2 in a strictly pH-dependent fashion, with optimal binding around pH 5 and only weak binding at pH 7.4. The association of the MB 65 kDa 243-255Y peptide to DQ2 was slow, but once formed, the peptide-HLA complexes were very stable. The binding of peptides to DQ2 was specific, as shown in inhibition experiments with a panel of 47 peptides, differing in length, sequence, and origin. The binding of peptides to DR3 was tested in a similar assay with a Mycobacterium tuberculosis 65 kDa 3-13 peptide as the binding indicator. DQ2 and DR3 molecules bound to different sets of peptides. However, the peptide binding to DQ2 and DR3 showed, in general, similar characteristics with respect to pH dependence and kinetic parameters, indicating that the overall rules for peptide binding to DQ molecules are the same as those previously shown for human DR and murine I-A and I-E molecules.
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PMID:Binding of peptides to HLA-DQ molecules: peptide binding properties of the disease-associated HLA-DQ(alpha 1*0501, beta 1*0201) molecule. 818 96

Heat shock proteins (HSP) are considered to be important targets of the immune response to mycobacteria and, as such, relevant to subunit vaccine design. If HSP are major antigens in cell-mediated immunity, they should be recognized in the context of most of the HLA-DR molecules required for presentation of mycobacterial antigens to T cells. We tested peripheral blood mononuclear cells (PBMC) and T-cell lines from Mycobacterium leprae- and M. bovis BCG-vaccinated subjects for proliferation in response to the 18- and 65-kDa HSP of M. leprae, the 65-kDa HSP of M. bovis BCG, and the 70-kDa HSP of M. tuberculosis. Irrespective of HLA types, PBMC showing a strong response to M. leprae proliferated in response to mycobacterial HSP. HLA restriction analysis with T-cell lines showed that the M. leprae 18-kDa HSP was recognized in the context of HLA-DR4, HLA-Dw4, and HLA-DR1 molecules. The T-cell lines recognized the M. leprae 65-kDa HSP in the context of all of the HLA-DR molecules expressed by autologous antigen-presenting cells, i.e., HLA-DR1, HLA-DR2, HLA-DR5, HLA-DR7, and importantly HLA-DR4 (HLA-Dw4 and HLA-Dw14), which is relevant to autoimmunity. The M. tuberculosis 70-kDa antigen was also presented to the T-cell lines by HLA-DR1, HLA-DR2, HLA-DR5, and HLA-DR7 molecules. In addition, this HSP was recognized in the context of the HLA-DRw53 molecule, which is frequently expressed in many regions where leprosy is endemic. The T-cell lines proliferating in response to a given HSP lysed autologous monocytes-macrophages pulsed with that HSP. The results demonstrate that PBMC from individuals immunized with M. leprae respond to mycobacterial HSP and that these HSP are presented to T cells by multiple HLA-DR molecules, a prerequisite for their application in the next generation of subunit vaccines.
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PMID:Human T cells recognize mycobacterial heat shock proteins in the context of multiple HLA-DR molecules: studies with healthy subjects vaccinated with Mycobacterium bovis BCG and Mycobacterium leprae. 822 3

It is now well established that cultured human melanocytes are capable of expressing immunologically important cell surface molecules and that they can produce cytokines. Not all cells with the ability to express MHC class II molecules are capable of effective Ag presentation. However, the dendritic nature of melanocytes, their strategic position within the skin, and their phagocytic capacity seem to suggest a role for these cells in processing and presenting Ag. This study demonstrates that cultured normal human skin melanocytes can present peptide Ag, and process and present the mycobacterial HSP65 kDa protein and whole Mycobacterium leprae sonicate to CD4+ cytotoxic proliferative T cell clones in an Ag-specific and HLA-class II-restricted manner. T cell stimulation was dependent on costimulatory signals, i.e., LFA-3/CD2 and LFA-1/ICAM-1. Besides eliciting a T cell proliferative response, our studies further demonstrate that melanocytes can function as target cells for T cell-mediated cytotoxicity. The described Ag-processing and -presenting functions of melanocytes, taken together with in vivo behavior of melanocytes in hypopigmentation, provide new clues for the etiopathogenesis of melanin pigmentary disorders.
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PMID:A novel, antigen-presenting function of melanocytes and its possible relationship to hypopigmentary disorders. 825 25

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