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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The contributions of the amino acids at 13 polymorphic positions in the HLA-
DR7
beta 1 chain to T cell recognition of two antigenic peptides of tetanus toxin (p2 and p30) were assessed using transfectants expressing mutant
DR7
beta 1 chains as
APC
for six toxin-specific T cell clones with two different restriction patterns: monogamous (restricted by
DR7
only) or promiscuous (restricted by
DR7
; DR1; DR2, Dw21; and DR4, Dw4). Each of the 13 substitutions significantly decreased or eliminated the ability of the
DR7
molecule to present a peptide to one or more of the T cell clones, but none of the substitutions abolished recognition by all clones. Interestingly, substitutions at positions 4 and 25, which are predicted in the class II model to be located outside the peptide binding groove, decreased the ability of the
DR7
molecule to present Ag to some clones but not to others. Each of the four clones specific for the p2 peptide and the two clones specific for peptide p30 had a different reactivity pattern to the panel of
DR7
beta 1 mutants, indicating that the TCR of each clone has a different view of the p2/
DR7
or p30/
DR7
complex. These data emphasize the complexity of the interactions of multiple residues in
DR7
beta 1 chains in Ag-specific T cell recognition.
...
PMID:Antigen-specific T cells with monogamous or promiscuous restriction patterns are sensitive to different HLA-DR beta chain substitutions. 204 Jul 99
The relative importance of 11 polymorphic positions in the HLA-
DR7
beta 1 chain in T cell recognition of foreign antigens was investigated using transfectants expressing mutant
DR7
beta 1 chains as
APC
for five rabies virus-specific T cell clones. The results indicate that multiple amino acids, located in both the beta-strands and alpha-helix of
DR7
beta 1 in the model of a class II molecule, are involved in
DR7
-restricted T cell recognition of these antigens. Many of the substitutions appeared to reduce the affinity of an antigenic peptide for the mutant
DR7
molecules but did not prevent binding. The heterogeneity of responses of the three G-specific T cell clones to presentation of the G11.3 peptide by several of the mutant
DR7
molecules indicates that the T cell receptor (TCR) of each these clones requires a different view of the G11.3/
DR7
complex and raises the possibility that the G11.3 peptide may bind to the
DR7
molecule in more than one conformation.
...
PMID:The role of polymorphic HLA-DR beta chain residues in presentation of viral antigens to T cells. 235 78
The mechanisms causing nonresponsiveness to hepatitis B surface Ag (HBsAg) vaccines in humans remain largely unknown. The increased incidence of nonresponsiveness in subjects with HLA-DR3 or -
DR7
haplotype suggests that immune response mechanisms governed by genes of the MHC are involved. It is conceivable that
APC
of nonresponders are defective in the presentation of HBsAg because they are unable to adequately take up, process, or present this Ag. To examine this hypothesis we have used PBMC from nonresponders to present recombinant particles containing S or PreS2-S sequences to HBsAg-specific T cell lines from haplo-identical responder vaccinees. The proliferative response of these lines was used to evaluate the efficacy of Ag presentation. Unfractionated PBMC from five DR2+ and six DR7+ nonresponders did not proliferate to HBsAg in vitro, whereas they vigorously proliferated upon stimulation with tetanus toxoid, thus ruling out the presence of a generalized immunodeficiency. All DR2(15)+ nonresponders were able to present hepatitis B envelope Ag to HBsAg-specific, DR1501-restricted T cells. PBMC from six DR7+ nonresponders were all able to present HBsAg to DR07-restricted T cell lines and PBMC from three DPw4+ nonresponders were able to present HBsAg to DP0402-restricted T cell lines. Additional experiments showed that PBMC from two nonresponders presented HBsAg equally well and sometimes better than PBMC from two partially HLA-matched high responders. We conclude that HLA-DR2+, -DR7+, and -DPw4+ nonresponder vaccinees are able to take up, process and present HBsAg to allogeneic, haplo-identical T cell lines in vitro.
...
PMID:Nonresponders to hepatitis B vaccine can present envelope particles to T lymphocytes. 781 65
To investigate the functional roles of DR alpha residues in T-cell recognition, 20 mutants of the DR alpha chain were constructed by site-directed mutagenesis. These DR alpha mutants were expressed with WT DR(beta 1*0701) on mouse L cells and used as
APC
for four
DR7
-restricted T-cell clones specific for rabies virus antigens. The results indicate that the DR alpha residues are differentially involved in recognition of rabies virus antigen by different T-cell clones. Mutations in the floor of the antigen-binding groove (positions 9, 11, 22, and 24), on the alpha-helix (47, 55, 65, 66, and 72), and surprisingly on the outer loop (15, 18, and 19), abrogated recognition by at least one T-cell clone. Most of these residues appear to be involved in either peptide or TCR contact, based on the DR1 crystal structure. The involvement in T-cell recognition of DR alpha residues located in the outer loop outside the binding groove suggests that these residues may directly contact TCR, or indirectly contribute to the conformation of peptide sitting in the groove.
...
PMID:Substitutions in the HLA-DR alpha chain differentially affect DR7-restricted T-cell recognition of rabies virus antigen. 888 8
Monoclonal Abs to the complex formed between human MHC class II molecules (
DR7
and DRw11) and myelin basic protein (MBP) were produced. The specificity of these Abs was established by both FACS analysis and complement-mediated cytotoxicity of MBP- or OVA-pulsed human
APC
of the same or of different DR restriction. These Abs bound to and lysed only MBP-pulsed human
APC
of the same DR restriction (
DR7
or DRw11) but not to
APC
of different DR restriction or pulsed with a different Ag (OVA). The physiologic role of these Abs was further investigated. They blocked the in vitro proliferative response to MBP-specific T cell clones isolated from multiple sclerosis patients in an antigen-specific and DR-restricted manner. However, the Abs did not affect the response of MBP-specific T cell clones of other DR restriction nor did they interfere with the response to other Ags (purified protein derivative or copolymer 1) presented on
APC
with the same DR restriction. These Abs may be useful for treating multiple sclerosis in which reactivity to MBP is implicated. Moreover, this approach may be extended to other autoantigens and their counterpart autoimmune diseases.
...
PMID:Modulation of the immune response in multiple sclerosis: production of monoclonal antibodies specific to HLA/myelin basic protein. 903 99
