Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024141 (systemic lupus erythematosus)
 44,322 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Systemic lupus erythematosus (SLE) is a systemic autoimmune disease of unknown aetiology. Although it has been reported that T cells might be responsible for the pathogenesis of SLE, it remains unclear whether immune aberrations of SLE T cells are the primary event in this pathological process. We have recently reported that tyrosine phosphorylation and expression of the T cell receptor zeta chain (TCR zeta) was significantly decreased in SLE T cells and that two SLE patients exhibited a 36 bp, exon 7 deletion of the TCR zeta mRNA. To investigate further common mutations in TCR zeta mRNA among SLE patients, mRNA was isolated from the peripheral blood T cells of two normal controls, two systemic sclerosis (SSc) patients, and eight SLE patients. TCR zeta cDNA was amplified by RT-PCR. Five out of the eight SLE patients exhibited abnormal migration patterns of the TCR zeta cDNA in PCR single stranded conformational polymorphism analysis. PCR products were ligated into pUC18 and five clones obtained were sequenced. Analysis of the nucleotide sequences revealed that all of the five pUC18 clones from the normal controls and SSc patients had the normal nucleotide sequence, whereas all eight SLE patients had mutations in TCR zeta cDNA accompanied by predicted amino acid substitutions. Mutations found in six of these patients corresponded to those of the third immunoreceptor tyrosine-based activation motif (ITAM) domain or the GTP/GDP binding site in TCR zetaThus, these mutations in TCR zeta mRNA could be responsible for the decreased expression of the TCR zeta protein in SLE T cells.
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PMID:Mutations in T cell receptor zeta chain mRNA of peripheral T cells from systemic lupus erythematosus patients. 980 20

New Zealand Black (NZB) mice have been well documented to have a variety of thymic epithelial cell microenvironmental abnormalities, including disruption of corticoepithelial cell networks and medullary cell clusters. These abnormalities of the thymic stromal network are particularly important because similar observations have been noted in other models of murine lupus. Thymic epithelial cells, a key component of the microenvironment, play an important role in selection of the mature T cell receptor repertoire. Recently, a homotypic calcium-independent human and murine epithelial cell adhesion molecule, Ep-CAM, has been described which is located at the thymocyto-cortical cell junction. The function of Ep-CAM is still unclear but its unique location within the thymus suggests that it is critical in the process of providing maturation signals. Consequently, we examined the thymic expression of Ep-CAM in a series of autoimmune prone mice by thymic distribution of Ep-CAM in NZB, NZW, NZB/W, BXSB-Yaa, MRL- lpr/lpr, C3H- gld/gld and the control strains BALB/c, C57BL6, C3H and MRL(+/+), by immunohistology and flow cytometry. Interestingly, NZB mice are similar to control mice from day 4 to 2 weeks of age, having a very low expression of Ep-CAM at the thymocyto-cortical junction. In control strains, there is a marked increased in expression of Ep-CAM beginning at 5 weeks of age. In contrast, NZB mice fail to show significant expression of Ep-CAM even well into adulthood. This abnormality of NZB mice was also noted in NZB/W F1 and BXSB mice, but not MRL- lpr/lpr or C3H- gld/gld mice. Given the potential importance of Ep-CAM in thymic selection, this study provides important evidence that a defective stromal microenvironment is likely to be of etiological significance in the susceptibility of NZB to autoimmune disease.
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PMID:Abnormal thymic expression of epithelial cell adhesion molecule (EP-CAM) in New Zealand Black (NZB) mice. 1058 55

PD-1 is an immunoglobulin superfamily member bearing an immunoreceptor tyrosine-based inhibitory motif, and disruption of the PD-1 gene results in the development of lupus-like autoimmune diseases. In this study, we examined effects of the PD-1 deficiency on the thymocyte differentiation at the clonal level using T cell receptor (TCR)-beta (Vbeta8) and TCR-alpha/beta (H-Y and 2C) transgenic mice. In these TCR transgenic lines, PD-1 expression in the thymus was variably augmented, but as in the normal mice, confined largely to the CD4(-)CD8(-) thymocytes. The transgenic mice crossed with PD-1(-/)- mice in the neutral genetic backgrounds exhibited selective increase in the CD4(+)CD8(+) (DP) population with little effect on other thymocytes subsets. Similarly, the absence of PD-1 facilitated expansion of DP thymocytes in recombination activating gene (RAG)-2(-/)- mice by anti-CD3epsilon antibody injection. On the other hand, H-Y or 2C transgenic PD-1(-/)- mice with the positively selecting background showed significantly reduced efficiency for the generation of CD8(+) single positive cells bearing the transgenic TCR-alpha/beta in spite of the increased DP population. These results collectively indicate that PD-1 negatively regulates the beta selection and modulates the positive selection, and suggest that PD-1 deficiency may lead to the significant alteration of mature T cell repertoire.
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PMID:Facilitation of beta selection and modification of positive selection in the thymus of PD-1-deficient mice. 1070 69

The etiopathogenesis of systemic lupus erythematosus remains an enigma that will probably not be solved until the genetic basis for susceptibility is defined. Through genomewide searches, we have provided a foundation for this by identifying and characterizing loci predisposing to specific disease traits in four major lupus-susceptible mouse strains. Further ongoing work that includes the study of interval-specific congenic lines and precise mapping of loci should lead to identification of the corresponding genes and elucidation of processes critical for disease pathogenesis. Another important area of investigation is the study of cell-cycle and apoptosis genes in systemic autoimmunity and aging. Based on earlier work, we proposed that the characteristic overexpansion of memory phenotype cells in these conditions may be owing to replicative senescence. Understanding the molecular mechanisms that regulate the generation of these cells may permit selective manipulations to control this process. Other areas of investigation that we are actively engaged in are the role of T cell receptor repertoire in disease and the definition of cellular genes affected by infection with human immunodeficiency virus.
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PMID:Genetic studies in systemic autoimmunity and aging. 1085 8

A depletion of natural killer (NK) cells seems to play a role in the course of systemic lupus erythematosus (SLE) whereas the possible involvement in this disease of T cell receptor (TCR) gamma/delta positive T cells is still debated. The aim of this study was to evaluate the peripheral blood mononuclear cells (PBMCs) that express NK surface markers CD16 and CD56 or gamma/delta TCR antigen in 58 SLE patients, investigating the possible role of these cell subsets involved in non-MHC-restricted cytotoxicity and their relationship with the main clinical and laboratory parameters. SLE patients had, with respect to controls, considerably decreased values of NK cells (P<0.0004 in percentage and P<0.00004 as absolute number), of non-MHC-restricted T cytotoxic lymphocytes (P<0.007 and P<0.0015, respectively) and of T cells expressing gamma/delta TCR (P<0.02 and P<0.004, respectively). The absolute numbers of these cell subsets positively correlated to each other (P<0.009). gamma/delta T cells inversely correlated with higher ESR values, both percentually (P<0. 006; r=-0.367) and in absolute number (P<0.009; r=-0.350). Moreover, the percentage values of this cell subset inversely correlated with higher levels of CRP (P<0.05; r=-0.256) while SLE patients with anti-SSB/La antibodies had lower values of T lymphocytes bearing gamma/delta TCR, both as percentage (P<0.008) and as absolute number (P<0.02). Our study indicates that non-MHC-restricted cytotoxicity, shared by NK, NK-like and gamma/delta T cells, may be down-regulated in SLE patients, owing to a significant reduction of these PBMC subsets. These specific cell subset impairments seem to affect only some aspects of the disease, suggesting a weakening of the regulatory properties of these cells in the control of different immunological and inflammatory features of SLE, that could be of importance in its clinical expression.
Lupus 2000
PMID:Down-regulation of natural killer cells and of gamma/delta T cells in systemic lupus erythematosus. Does it correlate to autoimmunity and to laboratory indices of disease activity? 1087 24

The fate of the lymphocyte is determined by integration of signals delivered after the binding of antigen to the surface antigen receptor, signals delivered by cytokines that bind to their surface receptors, and signals initiated after the engagement of other surface receptors, known as costimulatory molecules. The summation of this input determines whether the immune cell will become stimulated, ignore the signal (anergy), or die (apoptosis). Antigen-receptor signaling events are abnormal in lupus lymphocytes, manifested by increased calcium responses and hyperphosphorylation of several cytosolic protein substrates. Further down, at the gene transcription level, the activity of the nuclear factor kappaB is decreased. These events are underwritten by defective T cell receptor zeta chain expression, overexpression of the gamma chain of the Fc(epsilon)RI that functions as an alternate of zeta chain, and decreased p65 -Rel A protein that is responsible for the inducible NFkappaB activity. Accumulated research data have enabled us to begin deciphering the molecular basis of the abnormal lupus lymphocyte and may lead to the development of new medicinal treatments for lupus.
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PMID:Immune cell signaling in lupus. 1099 Jan 69

During the past five years, there has been an intense interest in studying candidate susceptibility genes for systemic lupus erythematosus (SLE). Many such studies have been focused on candidates located on chromosome 1, demonstrating association of certain genetic variants with SLE. Some of the tested candidate genes were chosen because they encode molecules with relevant immunological functions that may play a role in the pathogenesis of SLE. More recently, the identification of genomic segments linked to SLE has suggested novel positional candidate genes. Thus far, there is considerable evidence supporting that multiple genes on this chromosome contribute to the development and expression of SLE. This review highlights the genetic loci located on chromosome 1 that have recently been associated with SLE. These include loci encoding the tumor necrosis factor receptor 2 (TNFR2), complement component C1q, Fcgamma receptors, T cell receptor zeta chain, interleukin-10 (IL-10), poly (ADP-ribose) polymerase (PARP), and HRES-1.
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PMID:Lupus susceptibility genes on human chromosome 1. 1101 22

Polyclonal CD4(+) T cell activation is characteristic of spontaneous lupus. As a potential explanation for this phenotype, we hypothesized that T cells from lupus-prone mice are intrinsically hyperresponsive to stimulation with antigen, particularly to those peptide ligands having a low affinity for the T cell receptor (TCR). To test this hypothesis, we backcrossed the alpha and beta chain genes of the AND TCR specific for amino acids 88-104 of pigeon cytochrome C (PCC) to the Fas-intact MRL/Mp(+)(Fas-lpr) and to the H-2(k)-matched control backgrounds B10.BR and CBA/CaJ (MRL.AND, B10.AND, and CBA.AND, respectively), and assessed naive CD4(+) TCR transgenic T cell activation in vitro after its encounter with cognate antigen and lower affinity altered peptide ligands (APLs). MRL.AND T cells, compared with control B10.AND and CBA.AND cells, proliferated more when stimulated with agonist antigen. More strikingly, MRL.AND T cells proliferated significantly more and produced more interleukin 2 when stimulated with the APLs of PCC 88-104, having lower affinity for the transgenic TCR. These results imply that one of the forces driving polyclonal activation of alpha/beta T cells in lupus is an intrinsically heightened response to peptide antigen, particularly those with low affinity for the TCR, independent of the nature of the antigen-presenting cell and degree of costimulation.
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PMID:CD4(+) T cells from lupus-prone mice are hyperresponsive to T cell receptor engagement with low and high affinity peptide antigens: a model to explain spontaneous T cell activation in lupus. 1115 53

T cell activation was analysed in peripheral CD4+ T cells from both systemic lupus erythematosus (SLE) patients with active and inactive disease as well as in normal healthy donors (NHD) to investigate the involvement of CD4+ T cells in the etiopathogenesis of SLE. CD4+ T cell receptor (TCR) beta-chain transcripts, containing the complementarity determining region 3 (CDR3), were amplified by reverse transcriptase-polymerase chain reaction (RT-PCR) and analysed by high-resolution polyacrylamide gel electrophoresis. In addition the CDR3 of both clonally activated as well as heterogeneous Vbeta families from SLE patients were analysed at the molecular level. We observed a restricted CDR3 length polymorphism in peripheral CD4+ T cells from SLE patients compared with NHD, more pronounced in patients with high disease activity. Furthermore, in some Vbeta families single peaks in the histogram indicated nearly monoclonal T cell expansion. Sequencing of selected TCR beta-chains revealed a increased content of acidic amino acids in the CDR3 encoded by either proximal Jbeta elements or N nucleotides. We conclude that CD4+ T cells from peripheral blood of SLE patients display features of a secondary antigen driven immune response. The bias of the CDR3 towards acidic amino acids suggests the involvement of positively charged antigens.
Lupus 2001
PMID:CD4 positive peripheral T cells from patients with systemic lupus erythematosus (SLE) are clonally expanded. 1140 61

K/BxN T cell receptor transgenic mice are a model of inflammatory arthritis, most similar to rheumatoid arthritis, that is critically dependent on both T and B lymphocytes. Transfer of serum, or just immunoglobulins, from arthritic K/BxN animals into healthy recipients provokes arthritis efficiently, rapidly, and with high penetrance. We have explored the genetic heterogeneity in the response to serum transfer, thereby focussing on the end-stage effector phase of arthritis, leap-frogging the initiating events. Inbred mouse strains showed clear variability in their responses. A few were entirely refractory to disease induction, and those which did develop disease exhibited a range of severities. F1 analyses suggested that in most cases susceptibility was controlled in a polygenic additive fashion. One responder/nonresponder pair (C57Bl/6 x NOD) was studied in detail via a genome scan of F2 mice; supplementary information was provided by the examination of knock-out and congenic strains. Two genomic regions that are major, additive determinants of the rapidity and severity of K/BxN serum-transferred arthritis were highlighted. Concerning the first region, on proximal chromosome (chr)2, candidate assignment to the complement gene C5 was confirmed by both strain segregation analysis and functional data. Concerning the second, on distal chr1, coinciding with the Sle1 locus implicated in susceptibility to lupus-like autoimmune disease, a contribution by the fcgr2 candidate gene was excluded. Two other regions, on chr12 and chr18 may also contribute to susceptibility to serum-transferred arthritis, albeit to a more limited degree. The contributions of these loci are additive, but gene dosage effects at the C5 locus are such that it largely dominates. The clarity of these results argues that our focus on the terminal effector phase of arthritis in the K/BxN model will bear fruit.
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PMID:Genetic influences on the end-stage effector phase of arthritis. 1148 51


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