UMLS:C0409974 - FACTA Search

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Query: UMLS:C0409974 (lupus)
22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously demonstrated that the introduction of the bm12 mutation into NZB mice results in animals that spontaneously produce high titer IgG autoantibodies to dsDNA. The observation that NZB.H-2bm12 develop lupus although NZB.H-2b control mice do not, provides a unique system to study the role of Th cells in the production of antibodies to dsDNA. We have isolated, in the absence of a known stimulating autoantigen, a series of seven autoreactive T cell clones that provide help in vitro for the production of IgG anti-dsDNA antibodies by syngeneic B cells. The data on these seven cloned T cell lines was compared to two cloned T cell lines specific for keyhole limpet hemocyanin. The seven cloned T cell lines, coined clones 19D, 23G, 410F, 410H, C1, C15, and C52 all show significant help in vitro for production of IgM and IgG antibodies to ssDNA and dsDNA; antibody levels increased 7- to 30-fold compared to cultures without T cells. Clones C1, C15, and C52 were furthered studied and were shown to provide help for IgM antihistone and anti-OVA responses but provided significantly less help for IgG antibodies. In contrast, keyhole limpet hemocyanin-specific cloned T cell lines TK2 and TK5 provided help for IgM antibodies to ssDNA, dsDNA, and histone, but failed to significantly increase IgG antibodies to ssDNA, dsDNA, or histone. The cloned T cell lines were restricted to H-2bm12 and proliferated only in response to APC from NZB.H-2bm12 and B6.C-H-2bm12 but not NZB.H-2b or NZB.H-2d mice; their in vitro helper activity was inhibited by antibodies to class II. All cloned T cell lines expressed Thy-1, CD5, and TCR-alpha/beta. Three of the seven clones used TCR-V beta 4. However, the V beta expression of the four remaining autoreactive T cell clones could not be determined. All of the autoreactive cloned T cell lines produce significant IL-4 but no detectable IL-2 or IFN-gamma. We believe that HPLC-purified peptides eluted from I-Abm12 molecules from APC can potentially provide insight on the putative autoantigen.
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PMID:Generation and characterization of cloned T helper cell lines for anti-DNA responses in NZB.H-2bm12 mice. 146 Feb 94

In previous work, we found that only 59 (15%) of 396 "autoreactive" T cell clones derived from five patients with lupus nephritis had the ability to selectively augment the production of pathogenic anti-DNA autoantibodies and the majority (49/59) of those autoimmune T helper (Th) clones were CD4+. Surprisingly, 7 of those Th clones were CD4-/CD8- and gamma/delta TCR+, capable of augmenting the production of pathogenic anti-DNA autoantibodies up to 125-fold. The gamma/delta Th clones responded in a MHC-nonrestricted manner to some endogenous autoantigen associated with heat shock proteins (HSP60) on the lupus B cells. The gamma/delta TCR genes expressed by 4 of these Th clones were amplified and sequenced here. Three of the 4 Th clones, each from a different lupus patient, expressed a gene from the V gamma 1 subgroup. Moreover, 2 of the Th clones expressed V delta 5, and the others V delta 1 or V delta 3. These TCRs are rarely expressed by peripheral blood gamma/delta T cells of normal adult humans. The predominant gamma/delta T cells in human peripheral blood express V gamma 2 (V gamma 9) and V delta 2 TCR genes, including HSP-responsive T cells. None of the lupus Th clones expressed this combination of TCR genes. In addition, some of these pathogenic autoantibody-inducing Th clones from the lupus patients had limited diversity and few N-nucleotide additions in their gamma/delta TCR junctional regions (CDR3), thus resembling fetal gamma/delta thymocytes early in ontogeny.
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PMID:Pathogenic autoantibody-inducing gamma/delta T helper cells from patients with lupus nephritis express unusual T cell receptors. 153 88

MRL-lpr/lpr mice develop a severe autoimmune disease that resembles systemic lupus erythematosis in humans. The predominant immunological feature in these mice is the development of peripheral lymphadenopathy due to the expansion of an unusual T cell subset (TCR-alpha/beta +5CD3+4-8-B220+), which may be related to the onset of their autoimmunity. However, it is unknown whether such abnormal lymphocytes proliferate in the specific organs or not. We demonstrated in the present study that the number of liver nonparenchymal mononuclear cells (MNC) in the diseased MRL-lpr/lpr mice was 10 times greater than that of control MRL-+/+ mice. Moreover, the freshly isolated liver MNC of MRL-lpr/lpr mice vigorously proliferated in vitro and consisted of abnormal CD3+4-8- lymphocytes. Such in vitro proliferation was not observed in the MNC of other peripheral lymphoid organs. A potent natural cytotoxicity was also confined to the liver MNC in MRL-lpr/lpr mice. In vivo injection of [3H]TdR demonstrated that liver MNC incorporated [3H]TdR; such incorporation showed a peak on day 1, and the MNC-incorporated [3H]TdR appeared in the lymph nodes as late as day 5 after the injection. These results suggest that the liver is a possible site for the proliferation of abnormal lymphocytes, which may migrate thereafter into the peripheral organs in MRL-lpr/lpr mice.
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PMID:Liver is a possible site for the proliferation of abnormal CD3+4-8- double-negative lymphocytes in autoimmune MRL-lpr/lpr mice. 214 31

There are a number of mechanisms which cooperate to produce and maintain T-cell tolerance. First, and perhaps most important, is the clonal deletion in the thymus of T cells with high affinity for self antigens. However, to ensure that a wide repertoire of T cells is available in the periphery to combat foreign antigens, the threshold of clonal deletion may be set low enough so that T cells whose TCR's have sub-threshold affinity for self antigens mature and migrate to the periphery. T cells which recognize self antigen-derived peptides not expressed or presented in the thymus will also fail to be deleted. For those self-reactive T cells which are not deleted in the thymus, other mechanisms may produce tolerance, including an undefined alteration of signalling pathways which produces clonal anergy, and lowering the avidity of the TCR for its ligand by downregulating coreceptor and accessory molecules. Active suppression of T-cell responses in another well-described phenomenon whose mechanism is undefined. From our observations with the model systems discussed here, we have observed three distinct mechanisms by which T-cell tolerance can be circumvented, allowing autoimmune phenomena to occur. These mechanisms may have relevance for different types of autoimmune diseases seen in humans. In gld mice, the autoimmune disease seems to be related to a global defect in T-cell differentiation and function, which allows for the expansion of autoimmune B cells. While we showed that clonal deletion of V beta-bearing T cells is appropriate in certain cases, aberrant lymphokine secretion by the abnormal T cells or disruption of immune system regulation are most probably responsible for allowing autoantibody production. While human lupus erythematosis shares much of the pathology of lpr and gld mice, there is no expansion of T cells with a similar phenotype in human lupus. There are environmental factors which must play a role in the development of human lupus, since the incidence of the disease does not follow an absolute genetic pattern. The escape from clonal deletion and subsequent reactivation of autoimmune T cells which we observed in V beta 8.1 TCR-transgenic mice can be a model for human autoimmune diseases such as multiple sclerosis and type I diabetes, in which T cells are directed against a specific autoantigen. According to this model, susceptibility loci for autoimmune disease such as the MHC would function by producing different repertoires of T cells which in some cases could gain autoreactivity following activation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanisms of autoimmunity in the context of T-cell tolerance: insights from natural and transgenic animal model systems. 215 Apr 1

It is generally accepted that human Th cells express the surface glycoproteins CD4 and alpha/beta-chain heterodimer of the TCR whereas cytotoxic/suppressor cells are usually CD8+ and alpha/beta TCR+. Another minor set of T cells found in the periphery are CD4-/CD8- (double negative) and express the gamma/delta TCR; these cells can manifest MHC-restricted or nonrestricted cytotoxicity but no helper function. Herein we describe the existence of an unusual Th population in the peripheral blood of humans that are CD4-/CD8- and alpha/beta TCR+. These double-negative Th were markedly expanded in patients with the autoimmune disease SLE and along with CD4+ Th, they induced production of the pathogenic variety of anti-DNA autoantibodies that are IgG in class and cationic in charge. The cationic anti-DNA antibodies induced by the Th were markedly restricted in spectrotype indicating that an oligoclonal population of B cells were committed to produce the pathogenic autoantibodies in active lupus. IL-2-dependent T cell lines were also derived from the patients with active lupus nephritis but the majority of those T cell lines lacked pathogenic autoantibody-inducing capability. Only 4 out of 42 T cell lines from a lupus patient could induce the production of cationic IgG class anti-DNA autoantibodies. The phenotypes of the pathogenic autoantibody-inducing Th lines were similar to the Th subsets: CD4+, alpha/beta TCR+ or CD4-/CD8-, alpha/beta TCR+. These studies suggest that production of pathogenic autoantibodies in human lupus is mediated by mechanisms that are distinct from the generalized, nonspecific polyclonal B cell hyperactivity that leads to excessive production of natural autoantibodies.
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PMID:T cell receptor alpha/beta expressing double-negative (CD4-/CD8-) and CD4+ T helper cells in humans augment the production of pathogenic anti-DNA autoantibodies associated with lupus nephritis. 252 44

Rt6 is a T cell-restricted GPI-anchored membrane protein and a member of the family of mono(ADP-ribosyl)transferases. One of the two murine Rt6 genes is deleted in NZW mice. This finding is reminiscent of the deletion of one of the TCR beta genes in the same mouse strain and it is an intriguing possibility that these gene deletions arose by a common genetic mechanism. The Rt6 locus retained by the NZW mouse (designated Rt6-1) is polymorphic among inbred strains of laboratory mice. The NZW mouse shows several strain-specific restriction fragment length variants in this Rt6 locus and five amino acid substitutions occur in the predicted native Rt6 polypeptide of the NZW mouse relative to the corresponding polypeptides of NZB and BALB/c mice. Whereas transcript levels of the two Rt6 genes appear to be normal in spleen and intestine of NZB mice, the corresponding tissues of NZW mice show reduced levels of transcripts from the Rt6 locus retained in this mouse strain. Moreover, reduced levels of Rt6 mRNA also occur in spleen and intestine of (NZB x NZW)F1 hybrid animals, indicating that F1 animals have inherited a dominant factor from the genetic background of the NZW mouse, resulting in low levels of Rt6 expression. It is conceivable that the alterations in the Rt6 genes of the NZW mouse and/or the factor(s) affecting defective Rt6 expression constitute part of the genetic contribution of the NZW mouse to the autoimmune lupus-like disease in (NZB x NZW)F1 animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Defects in the structure and expression of the genes for the T cell marker Rt6 in NZW and (NZB x NZW)F1 mice. 754 15

Allelic exclusion at the T cell receptor alpha locus TCR-alpha is incomplete, as demonstrated by the presence of a number of T lymphocyte clones carrying two expressed alpha chain products. Such dual alpha chain T cells have been proposed to play a role in autoimmunity, for example, because of a second TCR-alpha beta pair having bypassed negative selection by virtue of low expression. We examined this hypothesis by generating mice of various autoimmunity-prone strains carrying a hemizygous targeted disruption of the TCR-alpha locus, therefore unable to produce dual alpha chain T cells. Normal mice have a low but significant proportion of T cells expressing two cell-surface TCR-alpha chains that could be enumerated by comparison to TCR-alpha hemizygotes, which have none. Susceptibility to various autoimmune diseases was analyzed in TCR-alpha hemizygotes that had been backcrossed to disease-prone strains for several generations. The incidence of experimental allergic encephalomyelitis and of lupus is not affected by the absence of dual TCR-alpha cells. In contrast, nonobese diabetic (NOD) TCR alpha hemizygotes are significantly protected from cyclophosphamide-accelerated insulitis and diabetes. Thus, dual alpha T cells may play an important role in some but not all autoimmune diseases. Furthermore, since protected and susceptible NOD mice both show strong spontaneous responses to glutamic acid decarboxylase, responses to this antigen, if necessary for diabetetogenesis, are not sufficient.
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PMID:Dual T cell receptor alpha chain T cells in autoimmunity. 756 98

To define age-associated alterations in the immune system at the molecular level, we have analyzed TCR V beta gene expression patterns at the fetal, neonatal, adult, and advanced ages of mice. In contrast to V gamma and VH genes, V beta genes rearranged without any preference related to their chromosomal organization. Endogenous superantigen-mediated clonal deletions were registered for the first time at the neonatal stage, presumably reflecting the late developmental appearance of these molecules. Such deletions, once established, were maintained throughout life with little, if any, leakage in this process. Furthermore, bone marrow transplantation and other studies indicated that an involuted thymus maintained its capacity to perform both its functions, i.e. positive and negative selection. Although overall V beta repertoires showed remarkable stability with advanced age, modifications in expression levels for some V beta, particularly those associated with the CD8 subset and presumably reflecting antigenic stimulation, were recorded. Mice with lupus and early-life thymic involution were fully capable of deleting endogenous superantigen-reactive V beta clones, and even lupus mice with a genetic defect in the apoptosis-promoting Fas gene were normal in this regard. The results indicate that, aside from some anticipated clonal expansions induced by antigenic stimulation, age-associated alterations in immune functions are not caused by any profound changes in the overall TCR repertoire.
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PMID:V beta gene repertoire in the aging mouse: a developmental perspective. 759 12

Efforts to define the stromal architecture of thymic tissues of normal mice have used a panel of monoclonal antibodies (MTS series) to examine the localization of cell subtypes, including reagents that define thymic epithelial and stromal elements. Recent work with these MTS mAbs disclosed significant abnormalities in the thymic cortex of New Zealand mice including the appearance of medullary type epithelial cells in the cortical areas and the presence of epithelial free spaces or 'cortical holes'. To determine whether such abnormalities are unique to NZB mice or are found in other models of murine lupus, we examined the thymi of MRL/MP-lpr/lpr BXSB/MpJ Yaa, C3H/HeJ-gld/gld and C57BL/6 control mice. Thymi from all models of murine lupus showed dramatic alterations in the thymic microarchitecture. For example, staining with MTS10, a mAb which is specific for subcapsular and medullary epithelia, was decreased in the subcapsular and medullary regions. Moreover, there was increased staining in the thymic cortex, suggesting an abnormality in the localization of MTS10-reactive cells. Moreover, all three murine lupus strains demonstrated 'cortical holes' or cortical epithelial cell-free regions. By using MTS33, MTS35 and flow cytometry, both C3H/gld and BXSB/Yaa, but not MRL/lpr mice, showed decreased cortical thymocyte frequencies. Possible defects in the maturation of double-positive thymocytes to single-positive status in C3H/gld mice is implied by abnormally high levels of double-positive cells and low levels of single-positive cells. Finally, MRL/lpr thymocytes had lowered frequencies of CD3-4+8+ and increased levels of TCR-alpha/beta high cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thymic microenvironmental abnormalities in MRL/MP-lpr/lpr, BXSB/MpJ Yaa and C3H HeJ-gld/gld mice. 761 45

We studied the TCR/CD3 complex-mediated signal transduction pathway in freshly isolated T cells and T cell lines from patients with systemic lupus erythematosus (SLE). The peak and 5-min anti-CD3 mAb-mediated free intracytoplasmic Ca2+ concentration ([Ca2+]i) increase was statistically significant higher in fresh T cells from SLE patients than in control T cells. Increased CD3-mediated [Ca2+]i responses were observed in T cells from patients with SLE but not in T cells from other rheumatic diseases. Furthermore, significantly increased CD3-mediated [Ca2+]i responses were observed in T cell lines from SLE patients but not from controls. Although the [Ca2+]i response did not correlate with the global SLE disease activity or individual clinical manifestations, it was significantly higher in the group of patients who were not on treatment. Both CD4+ and CD8+ T cell subsets from peripheral blood cells and T cell lines displayed higher CD3-mediated [Ca2+]i responses than their normal counterparts. The peak of the response occurred earlier in the patient than in the normal group. The amount of Ca2+ that was released from the intracellular stores was higher in lupus than control T cells. The TCR/CD3-induced production of inositol phosphate metabolites in SLE cells was comparable with controls. The sarcoplasmic and endoplasmic reticulum Ca(2+)-ATPase inhibitor thapsigargin-induced [Ca2+]i response was similar in both SLE and normal T cells. Our experiments demonstrate for the first time a definite abnormality in the early steps of the TCR/CD3-mediated signal transduction pathway in T cells from SLE patients that involves increased release of Ca2+ from intracellular stores.
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PMID:TCR/CD3 complex-mediated signal transduction pathway in T cells and T cell lines from patients with systemic lupus erythematosus. 763 73

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