Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We have investigated the phenotypic and functional characteristics of murine pre-B cells obtained in semisolid and liquid culture with stem cell factor (SCF) and interleukin 7 (IL-7). Both serum-supplemented and serum-deprived culture conditions were used. The source of bone marrow cells was either normal mice (CD1 and C3H) or the lupus strain of mice MRL/lpr and its congenic strain MRL/+. SCF (100 ng/ml) and IL-7 (250 ng/ml) supported murine B cell proliferation in vitro from all the murine strains analyzed both in serum-supplemented and serum-deprived conditions. Maximal colony growth was observed in both cases when the factors were used in combination. The growth factors alone induced some colony growth in serum-supplemented cultures but were either ineffective or had modest activity in serum-deprived cultures. Cells harvested from the colonies or generated in liquid cultures and stimulated with SCF + IL-7 in the absence of serum had almost exclusively a pre-B cell phenotype (BP-1+, B220+, slg-, CD4-, CD8-, Mac-1-, RB-6-). Both the maximal colony growth in semisolid culture and the maximal number of cells in liquid culture were observed at day 12-14. At this time, the pre-B cells failed to differentiate further and started to die. Pre-B cells generated in vitro were, however, capable of differentiating in vivo. SCID mice injected with 2 x 10(6) pre-B cells had readily detectable serum levels of IgM (54 +/- 26 micrograms/ml) and IgG (60 +/- 95 micrograms/ml) at 4 weeks and 6 weeks posttransplantation, respectively. Mature B and T cells of the donor major histocompatibility complex type were detected in the SCID mice at sacrifice 14 weeks posttransplantation. These data indicate that purified (> 80% BP-1+) populations of functional pre-B cells can be grown from murine bone marrow of normal mice as well as of lupus mice in serum-deprived cultures stimulated with SCF and IL-7. These cultures, therefore, provide a highly enriched source of pre-B cells but also contain T cell precursors that differentiate upon adoptive transfer into SCID mice.
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PMID:Functional characterization of lymphoid cells generated in serum-deprived culture stimulated with stem cell factor and interleukin 7 from normal and autoimmune mice. 754 56

Utilizing this unique animal model of thrombosis we demonstrated that human (IgG, IgM or IgA) polyclonal and monoclonal antiphospholipid antibodies derived from APS patients have a significant enhancing effect on thrombus formation. This effect is reversed by treatment of the mice with hydroxychloroquine (plaquenil). In addition murine polyclonal and monoclonal anticardiolipin antibodies induced by active immunization with human beta 2-GP1 or human anticardiolipin antibodies showed to have thrombogenic properties in CD1 mice. Antibodies with antihuman beta 2-GP1 activity alone did not seem to affect thrombus formation.
Lupus 1996 Oct
PMID:In vivo models of thrombosis for the antiphospholipid syndrome. 890 80

T cells with T cell receptor (TCR) transgenes that recognized CD1 on syngeneic B cells stimulated B cells to secrete immunoglobulins in vitro. The CD4+, CD8+, or CD4-CD8- T cells from the spleen of the TCR transgenic BALB/c donors induced lupus with anti-double stranded DNA antibodies, proteinuria, and immune complex glomerulonephritis in irradiated BALB/c nude mice reconstituted with nude bone marrow. Injection of purified CD4-CD8- T cells from the marrow of transgenic donors prevented the induction of lupus by the transgenic T cells. Transgenic T cells that induced lupus secreted large amounts of interferon (IFN)-gamma and little interleukin (IL)-4, and those that prevented lupus secreted large amounts of IL-4 and little IFN-gamma or IL-10.
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PMID:Subsets of transgenic T cells that recognize CD1 induce or prevent murine lupus: role of cytokines. 946 3

In the past few years, several studies have unravelled a novel pathway of antigen presentation to T cells of the mammalian immune system. The antigens are presented by CD1, which appears to have evolved to present glycolipid antigens to alphabeta T cells. CD1-restricted T cells are frequently autoreactive, and can promptly release key regulatory cytokines such as IL-4 and IFN-gamma. They have been implicated in a variety of autoimmune diseases including type I diabetes and lupus, in intracellular bacterial infections, and in tumor rejection. They are likely to be involved at the early, innate phase of these immune responses, providing a unique model to study the interface between the innate and adaptive immune systems.
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PMID:Innate and adaptive functions of the CD1 pathway of antigen presentation. 979 14

Mice deficient in beta2-microglobulin expression are resistant to the induction of experimental systemic lupus erythematosus (SLE). The present studies were designed to identify the beta2-microglobulin-dependent cell surface molecule(s) that confers sensitivity to experimental SLE, and to determine its role in disease development. We report hat mice lacking the transporter associated with antigen presentation (TAP-/-) were also resistant to disease, whereas CD1-/- and CD8-/- mice were susceptible; susceptibility also did not correlate with neonatal Fc receptor or HEPH expression. These data indicate that disease susceptibility is determined by expression of MHC class I. Furthermore, by analyzing both adoptive transfer and radiation bone marrow chimeras, we demonstrate that MHC class I expression is necessary for propagation of disease, but not for induction of pathogenic cells.
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PMID:Differing MHC class I requirements for induction and propagation of experimental systemic lupus erythematosus. 1042 89

Since anti-CD1 TCR transgenic T cells can activate syngeneic B cells via CD1 to secrete IgM and IgG and induce lupus in BALB/c mice, we studied the role of CD1 in the pathogenesis of lupus in NZB/NZW mice. Approximately 20% of B cells from the spleens of NZB/NZW mice expressed high levels of CD1 (CD1high B cells). The latter subset spontaneously produced large amounts of IgM anti-dsDNA Abs in vitro that was up to 25-fold higher than that of residual CD1int/low B cells. T cells in the NZB/NZW spleen proliferated vigorously to the CD1-transfected A20 B cell line, but not to the parent line. Treatment of NZB/NZW mice with anti-CD1 mAbs ameliorated the development of lupus. These results suggest that the CD1high B cells and their progeny are a major source of autoantibody production, and activation of B cells via CD1 may play an important role in the pathogenesis of lupus.
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PMID:Cutting edge: a role for CD1 in the pathogenesis of lupus in NZB/NZW mice. 1079 51

To understand the mechanism of T cell help for IgG production in systemic lupus erythematosus (SLE) we investigated the response of CD4- and CD8-negative (double-negative (DN)) T cells because 1) DN T cells are present at unusually high frequency in patients with SLE and can induce pathogenic autoantibodies; 2) the DN T cell repertoire includes cells restricted by CD1 Ag-presenting molecules; and 3) CD1c is expressed on a population of circulating B cells. We derived DN T cell lines from SLE patients and healthy individuals. In the presence of CD1(+) APCs, DN T cell lines from SLE patients produced both IL-4 and IFN-gamma, whereas DN T cells from healthy donors produced IFN-gamma, but no IL-4. In general, cells from patients with highly active disease produced high levels of IFN-gamma; cells from those with little activity produced high IL-4. Coculture of CD1c-directly reactive T cells from healthy donors with CD1c(+) B cells elicited IgM Abs, but little or no IgG. In contrast, CD1c-directly reactive T cells from SLE patients induced isotype switching, with a striking increase in IgG production. Neutralizing Abs to CD1c inhibited the ability of DN T cells to induce IgG production from CD1c(+) B cells, further indicating that CD1c mediated the T and B cell interaction. IgG production was also inhibited by neutralizing Abs to IL-4, correlating with the cytokine pattern of DN T cells derived from these patients. The data suggest that CD1c-restricted T cells from SLE patients can provide help to CD1c(+) B cells for IgG production and could therefore promote pathogenic autoantibody responses in SLE.
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PMID:Human double-negative T cells in systemic lupus erythematosus provide help for IgG and are restricted by CD1c. 1104 69

When mutations that inactivate molecules that function in the immune system have been crossed to murine lupus strains, the result has generally been a uniform up-regulation or down-regulation of autoimmune disease in the end organs. In the current work we report an interesting dissociation of target organ disease in beta(2)-microglobulin (beta(2)m)-deficient MRL-Fas(lpr) (MRL/lpr) mice: lupus skin lesions are accelerated, whereas nephritis is ameliorated. beta(2)m deficiency affects the expression of classical and nonclassical MHC molecules and thus prevents the normal development of CD8- as well as CD1-dependent NK1(+) T cells. To further define the mechanism by which beta(2)m deficiency accelerates skin disease, we studied CD1-deficient MRL/lpr mice. These mice do not have accelerated skin disease, excluding a CD1 or NK1(+) T cell-dependent mechanism of beta(2)m deficiency. The data indicate that the regulation of systemic disease is not solely governed by regulation of initial activation of autoreactive lymphocytes in secondary lymphoid tissue, as this is equally relevant to renal and skin diseases. Rather, regulation of autoimmunity can also occur at the target organ level, explaining the divergence of disease in skin and kidney in beta(2)m-deficient mice.
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PMID:Deficiency in beta(2)-microglobulin, but not CD1, accelerates spontaneous lupus skin disease while inhibiting nephritis in MRL-Fas(lpr) nice: an example of disease regulation at the organ level. 1150 49

Lupus-prone (MRLxC57BL/6) F(1) mice lacking gammadelta T cells show more severe lupus than their T cell-intact counterparts, suggesting that gammadelta T cells down-modulate murine lupus. To determine the mechanisms for this effect, we assessed the capacity of gammadelta T cell lines derived from spleens of alphabeta T cell-deficient MRL/Mp-Fas(lpr) (MRL/Fas(lpr)) mice to down-regulate anti-dsDNA production generated by CD4(+)alphabeta T helper cell lines and activated B cells from wild-type MRL/Fas(lpr) mice. One line, GD12 (gd TCR(+), CD4(-)CD8(-)), had the capacity to reduce anti-dsDNA production in a contact-dependent manner. GD12 also killed activated MRL/Fas(lpr) (H-2(k)) B cells, with less cytolysis of resting B cells than that generated by in comparison to cytokine-matched gammadelta T cell lines. In addition, GD12 also killed activated B cells derived from C57BL/6-Fas(lpr) (H-2(b)) or beta(2)-microglobulin (beta(2) M)-deficient MRL/Fas(lpr) mice, suggesting cytolysis was neither MHC- nor CD1-restricted. Killing by GD12 was inhibited by anti-TNFalpha and anti-TNF-R1, and partially blocked by anti-gd TCR Fab fragments, but not by anti-FasL, anti-TNF-R2 (p75) or concanamycin A. IL-10 produced by GD12 also partially inhibited alphabeta Th1-dependent but not alphabeta Th2-dependent autoantibody production. These findings prove that we have identtified a gammadelta T cell line that suppresses autoantibody synthesis by alphabeta T-B cell collaboration in vitro.
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PMID:Regulation of T cell-dependent autoantibody production by a gammadelta T cell line derived from lupus-prone mice. 1242 98

Natural killer T cells are an immunoregulatory population of lymphocytes that plays a critical role in controlling the adaptive immune system and contributes to the regulation of autoimmune responses. We have previously reported deficiencies in the numbers and function of NKT cells in the nonobese diabetic (NOD) mouse strain, a well-validated model of type 1 diabetes and systemic lupus erythematosus. In this study, we report the results of a genetic linkage analysis of the genes controlling NKT cell numbers in a first backcross (BC1) from C57BL/6 to NOD.Nkrp1(b) mice. The numbers of thymic NKT cells of 320 BC1 mice were determined by fluorescence-activated cell analysis using anti-TCR Ab and CD1/alpha-galactosylceramide tetramer. Tail DNA of 138 female BC1 mice was analyzed for PCR product length polymorphisms at 181 simple sequence repeats, providing greater than 90% coverage of the autosomal genome with an average marker separation of 8 cM. Two loci exhibiting significant linkage to NKT cell numbers were identified; the most significant (Nkt1) was on distal chromosome 1, in the same region as the NOD mouse lupus susceptibility gene Babs2/Bana3. The second most significant locus (Nkt2) mapped to the same region as Idd13, a NOD-derived diabetes susceptibility gene on chromosome 2.
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PMID:Genetic control of NKT cell numbers maps to major diabetes and lupus loci. 1296 Mar 9


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