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

Naturally occurring thymocytotoxic autoantibodies (NTA) have been described both in humans and in mice with SLE, and have been reported to be preferentially reactive with T suppressor as compared to T helper cells. However, although NTA has been shown by some groups of investigators to induce autoantibodies in normal strains of mice, other researchers have suggested that NTA has only a minor, if any, role in murine lupus. We have been studying the characteristics of a monoclonal antibody (TC-17) derived from the fusion of 4-mo-old NZB spleen cells with P3-X63-AG8.653 plasmacytoma cells. This monoclonal IgM reagent is cytotoxic for approximately 40% of total thymocytes, 50% of cortical thymocytes, less than 1% of cortisol-resistant thymocytes, 10% of splenocytes and lymph node cells, and less than 3% of bone marrow and fetal liver cells. The thymocytotoxicity can be absorbed by thymocytes but not by brain cells. Although NZB, NZW, NFS, and BALB/c thymocytes all manifest reactivity with TC-17, there was considerable difference between strains with respect to antigen density; NZB thymocytes have the highest density. By FACS analysis, TC-17 occurs independently of Lyt-1, Lyt-2, and T helper cell-specific antigens, and is more prevalent on larger proliferating thymocytes. TC-17 augments the response to SRBC but does not influence responses to TI-1 (TNP-BA) or TI-2 (DNP-Ficoll) antigen and production of LPS-induced B cell colonies. We believe that TC-17 recognizes a new T cell antigen, probably one involved in T cell differentiation. Because this monoclonal NTA reacts with only 40% of thymocytes, and is not absorbed with brain, it would not have been detected in mouse sera by using previously published methods. NTA are a heterogeneous group of autoantibodies; some specificities such as TC-17 went unrecognized in the past, and may be important either for disease pathogenesis or for secondary immunologic abnormalities.
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PMID:Characteristics of a spontaneous monoclonal thymocytotoxic antibody from New Zealand Black mice: recognition of a specific NTA determinant. 620 78

B cell hyperactivity, a feature common to all lupus-prone murine strains, may be caused by hyperresponsiveness to, overproduction of, or bypassing of certain signals required for B cell activation, proliferation, and differentiation. In this study, we have compared the responses of B cells from three lupus-prone strains of mice (BXSB males, MRL and NZB/W females) and normal strains in a number of assays for which two or more signals are required to obtain a response. In medium to low density cultures of B cells from BXSB and NZB/W but not MRL/l lupus mice, the cells' proliferation induced by bacterial lipopolysaccharide (LPS) or anti-mu antibody was much higher than that of B cells from normal controls. At low B cell density, polyclonal activation by these substances and subsequent Ig secretion were dependent on accessory signals present in supernatants of concanavalin A-treated normal lymphocytes (CAS) or on the MRL/l proliferating T cell-derived B cell differentiation factor (L-BCDF) in both lupus-prone and immunologically normal mice. However, the responses of B cells from BXSB and NZB/W, but not MRL/l, mice to these accessory signals were higher than those of normal mice. Ig synthesis by fresh B cells of BXSB and NZB/W mice cultured in the absence of mitogens but in the presence of CAS or L-BCDF was higher than by similar cells from other strains, suggesting an increased frequency of B cells activated in vivo in these two autoimmune strains of mice. The patterns of IgG subclass secretion in response to LPS (without added CAS or L-BCDF) were abnormal in all lupus strains, with a predominance of IgG2b and/or IgG2a and low levels of IgG3, contrary to normal B cells for which IgG3 synthesis predominated. However, IgG1 synthesis in vitro by autoimmune and normal B cells alike was highly dependent on T cell-derived soluble mediators. Antigen-specific responses to SRBC in vitro of B cells from all lupus strains, like those of B cells from normal strains, required a minimum of three signals (antigen, LPS, T cell-derived antigen nonspecific helper factors). Yet, once triggered, B cells of BXSB and NZB/W mice gave higher responses than those of the other strains. We conclude that B cells of lupus mice have signal requirements similar to those of normal mice. Nevertheless, B cells of BXSB and NZB/W, but not MRL/l, lupus mice hyperrespond or process some accessory signals abnormally.
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PMID:B cell dependence on and response to accessory signals in murine lupus strains. 640 39

Induced IgM anti-ss-DNA antibodies in NZB/W female mice did not alter the time of onset nor the course of nephritis. Monthly pulse doses of cyclophosphamide suppressed the mortality of these mice, and also prevented a switch of anti-ss-DNA from IgM to IgG class. The production of IgM anti-SRBC was markedly reduced in old NZB/W mice, but IgG anti-SRBC was only moderately reduced and this hyporesponsiveness towards SRBC could be reversed by CPA treatment. These observations are discussed in relation to cyclophosphamide as an effective therapeutic agent for the murine lupus syndrome.
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PMID:Effects of pulse cyclophosphamide on NZB/W disease. 645 49

Isoniazid (INH), antituberculous drug with immunomodulatory properties, have been described as lupus-like syndrome inducer. The development of autoimmunological phenomena results from immunoregulatory disturbances. The goal of this work was to determine the influence of INH on selected parameters of the immune response in vivo and in vitro. In vivo (in B6AF1 mice) the influence of long-term treatment on primary humoral response and cellular response was evaluated. Drug dose was 25 mg/kg. In vitro (using peripheral blood of volunteers) the influence of INH on mitogen induced proliferation, metabolic activity of granulocytes and production of angiogenic cytokines by diverse subpopulation of mononuclear cells was examined. The concentrations tested were 0.5 mg/ml, 5 mg/ml and 50 mg/ml. No effect of INH could be demonstrated on the production anti-SRBC antibodies nor on the cellular response in mice. In vitro INH added to the cell cultures increased PHA and ConA stimulated proliferation. The chemiluminescence of human granulocytes increased in the presence of INH. Drug enhanced production of angiogenic cytokines by human lymphocytes CD4+ and suppressed angiogenic activity of CD8+ cells. The results suggest that INH has strong immunomodulatory properties which may explain its involvement in pathogenesis of lupus-like disease.
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PMID:[Influence of isoniazid on selected parameters of immunological response]. 1076 48

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