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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ten
acetylcholine receptor
(
AChR
)-specific T cell clones from Lewis rats were studied. These clones had various
AChR
subunit and peptide specificities, and proliferated in response to antigen on appropriate
APC
. All the T cell clones were CD4+CD8- and OX22-, helped anti-
AChR
antibody production by
AChR
-primed lymph node B cells, and could secrete IL-2. However, several lines of evidence suggested that IL-2 was not the lymphokine that mediated T cell help. B cells primed with native
AChR
and then exposed in culture to very low concentrations of native
AChR
effectively presented the Ag to the T cell lines, presumably due to uptake via Ag receptors, but primed B cells were no more effective than were non-specific
APC
at presenting a synthetic
AChR
peptide which is recognized by
AChR
-specific T cells but not by
AChR
-specific B cells. Increasing
AChR
doses produced an antibody production response that was bell shaped and low doses stimulated, whereas higher
AChR
concentrations suppressed the antibody production response. Evidence suggested that
AChR
exerted its inhibitory effect through the T cells, but not via IL-2.
...
PMID:Regulation of antibody production by helper T cell clones in experimental autoimmune myasthenia gravis. 297 72
Previous study has shown that reduced T cell response to peptide alpha 146-162 of Torpedo californica
acetylcholine receptor
(tAChR) in B6.C-H-2bm12 (bm12) mice, a mutant of C57BL/6 (B6) mice, correlated with its nonsusceptiblity to experimental autoimmune myasthenia gravis. There are three amino acid differences between the I-A beta b of the two strains (positions 67, 70, and 71). We synthesized peptides I-A beta b62-76 (peptide b6), I-A beta bm1262-76 (peptide bm), and three additional peptides, b6(67F), b6(70Q), and b6(71K), and determined their ability to bind peptide alpha 146-162 and the dissociation constants (Kd) of the binding. Peptide alpha 146-162 bound with a significantly higher affinity to peptide b6 than to peptides bm or b6(71K), suggesting that the lower affinity of peptide alpha 146-162 to I-Abm12 is a factor in the reduced response to this peptide by bm12 T cells. This was confirmed by measurement of the Kd values of the binding of peptide alpha 146-162 to the I-A molecules of B6 and bm12. Furthermore,
APC
of bm12 presented the peptide, or tAChR, poorly to peptide-specific or to tAChR-specific B6 T cells. The major effect is caused by the change of Thr-71 in I-A beta b to lysine in I-A beta bm12. However,
APC
of B6 also presented peptide alpha 146-162 much less efficiently to peptide-specific T cells of bm12. This demonstrated that these three amino acid changes also influence the T cell receptor recognition of peptide-MHC complex and that both B6 and bm12 T cells recognizing peptide alpha 146-162 or tAChR are under a high H-2 restriction.
...
PMID:Effect of amino acid substitutions within the region 62-76 of I-A beta b on binding with and antigen presentation of Torpedo acetylcholine receptor alpha-chain peptide 146-162. 753 3
The I-Abm12 mutation in C57B1/6 (B6) mice yields the B6.C-H-2bm12 (bm12) strain, which is resistant to Experimental Myasthenia Gravis (EMG) induced by immunization with Torpedo
acetylcholine receptor
(TAChR), while the parental B6 strain is highly susceptible to EMG. CD4+ cells from bm12 mice immunized with TAChR do not recognize three sequence regions of the TAChR alpha subunit which dominate the CD4+ cell sensitization in B6 mice. We immunized with TAChR bm12, B6 and (bm12 x B6)F1 mice. B6 and F1 mice developed EMG with comparable frequency. Their CD4+ cells recognized the same TAChR alpha subunit peptide sequences (T alpha 150-169, T alpha 181-200 and T alpha 360-378). CD4+ cells from TAChR-sensitized F1 mice were challenged with TAChR and alpha subunit epitope peptides, using F1, B6 or bm12
APC
. B6 and F1
APC
presented all these Ag efficiently, while bm12
APC
presented TAChR and peptide T alpha 150-169 poorly and erratically. Anti-TAChR and anti-alpha subunit epitope CD4+ lines propagated from F1 and B6 mice had similar TcR V beta usage. All lines but those specific for the sequence T alpha 150-169 had unrestricted V beta usage. Anti-T alpha 150-169 lines from both B6 and F1 mice had a strong preferential usage of V beta 6. Anti-T alpha 150-169 lines from F1 mice had also a slightly higher V beta 14 usage. B6, bm12 and F1 mice developed similar anti-TAChR Ab titres, and had Ab bound to muscle AChR in comparable amounts. Therefore EMG resistance of bm12 mice must be due to a subtle shift in the anti-AChR Ab repertoire, and absence of special Ab able to cause destruction and/or dysfunction of muscle AChR. This is probably related to the absence of CD4+ cells sensitized to epitopes within the sequence T alpha 150-160, consequent to the inability of the I-Abm12 molecule to present this sequence.
...
PMID:Mechanisms by which the I-ABM12 mutation influences susceptibility to experimental myasthenia gravis: a study in homozygous and heterozygous mice. 763 Nov 55
We propagated from myasthenia gravis (MG) patients by stimulation in vitro with synthetic sequences (alpha 48-67, alpha 304-322, gamma 75-94 and gamma 321-340) of the human muscle
acetylcholine receptor
(
AChR
), CD4+ lines against four 20-residue sequence regions of the
AChR
alpha and gamma subunits that are recognized by Th cells of most MG patients. Most lines secreted IL-2 and not IL-4, suggesting that they comprise Th1 cells. For three lines we verified that, as reported previously,
AChR
epitopes are presented by DR molecules: their response to the relevant peptide was abolished by anti-DR Abs. The DR molecules presenting
AChR
epitopes were identified by testing the response of the lines to the relevant peptide, using
APC
from donors homozygous for the different DR alleles of the line. We tested the lines with single residue-substituted analogues of the epitope sequence. The results of these experiments indicated that the lines were polyclonal and recognized overlapping epitopes. Their response was abolished by some substitutions, identifying residues common to all epitopes within a given region, whereas other substitutions reduced but did not obliterate the response, indicating residues included in some but not all epitopes recognized by the line. Comparison of the residues involved in epitope formation for different lines supported the conclusion that within the 20-residue immunodominant regions investigated here, the same sequence segment is involved in formation of epitopes, even in DR-discordant patients.
...
PMID:Myasthenia gravis. Residues of the alpha and gamma subunits of muscle acetylcholine receptor involved in formation of immunodominant CD4+ epitopes. 790 21
Experimental autoimmune myasthenia gravis (EAMG) can be induced in C57BL/6 (B6) mice by immunization with Torpedo californica
acetylcholine receptor
(tAChR). We had previously shown that pretreatment with a monomethoxypolyethylene glycol (mPEG) conjugate of myasthenogenic tAChR alpha-chain peptide alpha125-148 (mPEG-peptide) suppressed EAMG. In order to understand the mechanism involving T cells in the induction of this suppression, we have studied, in the present work, the in vitro responses of T cells from mPEG-peptide treated B6 mice after an initial tAChR injection to determine the early effect of mPEG-peptide treatment on these responses. Treatment with mPEG-peptide reduced the T cell responses to tAChR and several tAChR alpha-chain peptides. To further investigate the T cell helper function in vivo, we transferred T cells from B6 mice that received either mPEG-peptide or control PBS followed by two tAChR injections to non-immune B6 mice. T cell transfer from mPEG-peptide pretreated mice down regulated, in recipient mice, Ab induction (after cell transfer) and Ab production (after two tAChR injections) toward alpha-chain peptides. Treatment of B6 mice with mPEG-peptide did not alter the ability of their
APC
to present peptide alpha146-162 to peptide-specific B6 T cells. The results indicate that suppression of EAMG by treatment with mPEG-peptide is due to T cell involvement and not to a defect in
APC
function.
...
PMID:T cells of mice treated with mPEG-myasthenogenic peptide conjugate are involved in protection against EAMG by stimulating lower pathogenic antibody responses. 1095 75
Several HLA-DR alleles are genetically associated with rheumatoid arthritis. DRB1*0401 predominates in Northern Europe and has a characteristic (70)QKRAA motif. This sequence contacts bound peptides and the TCR. Further interactions have been suggested with additional proteins during Ag loading. We explored the much stronger processing/presentation of full-length recombinant human
acetylcholine receptor
alpha subunit to a specific T cell clone by
APC
from DRB1*0401+ than *0408+ donors. Using DR*04 transfectants, we show that this difference results largely from the single Lys71<-->Arg interchange (0401<-->0408), which scarcely affects epitope binding, rather than from any other associated polymorphism. Furthermore, we proved our recombinant polypeptides to contain the Escherichia coli 70-kDa heat shock protein molecule DnaK and its requirement for efficient processing and presentation of the epitope by DRB1*0401+ cells. According to a recent report, 70-kDa heat shock protein chaperones preferentially bind to the QKRAA, rather than the QRRAA, motif. Variations between the shared epitope motifs QKRAA and QRRAA are emphasized by underlining. We propose that such interactions enhance the intracellular epitope loading of *0401 molecules. They may thus broaden immune responses to pathogens and at least partially explain the distinct contributions of DRB1*0401 and other alleles to disease predisposition.
...
PMID:Major differences in antigen-processing correlate with a single Arg71<-->Lys substitution in HLA-DR molecules predisposing to rheumatoid arthritis and with their selective interactions with 70-kDa heat shock protein chaperones. 1221 16
Dendritic cells (DC) are professional
APC
that are able to modulate immune response in either a positive or negative manner depending upon their lineage and state of maturation. RelB is a NF-kappaB family member which plays a key role in the differentiation and maturation of DC. In this study, we constructed lentiviral vector expressing RelB-specific short hairpin RNAs (ShRNAs) that efficiently silenced the RelB gene in bone marrow-derived dendritic cells (BMDCs). These RelB-silenced BMDCs were maturation resistant and could functionally decrease antigen-specific T cells proliferation. We tested the therapeutic effect of RelB-silenced BMDCs in C57BL/6 mice with experimental autoimmune myasthenia gravis (EAMG). Injection i.v. with RelB-silenced BMDCs plused with Torpedo
acetylcholine receptor
(TAChR) dominant peptide Talpha(146-162) on days 3, 33, and 63 after first immunization decreased the incidence and severity of clinical EAMG with suppressed IFN-gamma production and increased IL-10 and IL-4 production in vitro and in vivo, and also leads to a decreased serum anti-AChR IgG, IgG1, IgG2b Ab levels. Furthermore, RelB-silenced BMDCs promoted regulatory T cell profiles as indicated by a marked increase of FoxP3 in splenocyte. Our data suggested that lentiviral-mediated RNAi targeting RelB was effective methods to inhibit the maturation of BMDCs, thus possess therapeutic potential to prevent autoimmune disorders such as EAMG or human MG.
...
PMID:Dendritic cells transduced with lentiviral-mediated RelB-specific ShRNAs inhibit the development of experimental autoimmune myasthenia gravis. 1903 57
Neuromuscular junctions (NMJs) are peripheral synapses between motoneurons and skeletal muscle fibers that are critical for the control of muscle contraction. Dysfunction of these synapses has been implicated in congenital myasthenic syndrome (CMS). In vertebrates, agrin-LRP4-MuSK signaling plays a critical role in
acetylcholine receptor
(
AChR
) clustering and NMJ formation. The adaptor protein DOK7 is the downstream substrate of MuSK and also a cytoplasmic activator of MuSK. The role of DOK7 in the promotion of
AChR
clustering and the mechanisms involved have been well studied; however, the negative regulation of DOK7 after MuSK activation remains unknown. Anaphase-promoting complex 2 (APC2), the core subunit of
APC
/C E3 ligase complex, was originally believed to regulate cell-cycle transitions. Here, we show that APC2 is enriched at post-synapse of NMJs in postmitotic myotubes. In response to agrin stimulation, APC2 negatively regulates
AChR
clustering by promoting the ubiquitination of DOK7 at lysine 243 for its proteolytic degradation, which relies on MuSK kinase activity and the phosphorylation of tyrosine 106 in DOK7. Thus, this study provides a mechanism whereby agrin signaling is negatively regulated as part of vertebrate NMJ homeostasis.
...
PMID:APC2
CDH1
negatively regulates agrin signaling by promoting the ubiquitination and proteolytic degradation of DOK7. 3268 71
