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:C0155339 (Brown)
12,436 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mercuric chloride induces anti-glomerular basement membrane antibodies in Brown Norway rats (Ag B3) and not in Lewis rats (Ag B1). Studies on (Lewis X BN) F1 and F2 and with back-crosses (Lewis X BN) F1 X Lewis demonstrate a genetic control for this immune response. This genetic control probably depends on two non-linked, autosomal and dominant genes. One of these genes is linked to the major histocompatibility locus.
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PMID:[Induction of anti-glomerular basement membrane antibodies in BN rats: genetic control]. 30 May 99

Mercuric chloride induces anti-glomerular basement membrane antibodies in the Brown-Norway rat. Various other inbred rat strains (Lewis, Wistar AG, August, PVG/c) were not found to be able to produce such antibodies under the same experimental conditions. Hybrids (F1, F2 and F1 x LEW) were bred from Brown-Norway and Lewis rats and injected with mercuric chloride. It has been demonstrated that the induction of anti-glomerular basement membrane antibodies by mercuric chloride in these crosses is under genetic control. The response was found to depend on two or three genes one of which was H-1-linked. The negative results obtained with L.BN congenic rats were in complete agreement with this conclusion.
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PMID:Mercuric chloride-induced anti-glomerular basement membrane antibodies in the rat: genetic control. 30 6

Anti-glomerular basement membrane (GBM) antibodies were induced in the Brown-Norway rat by mercuric chloride. The existence of anti-GBM antibodies was suspected because of the immunofluorescent linear pattern. It was proved because eluted antibodies from kidneys and circulating IgG had an anti-glomerular basement membrane activity. A glomerular basement membrane antigen modified by HgCl2 is probably responsible for the appearance of such antibodies. The previous demonstration of the occurrence of an immun complex type glomerulonephitis, in outbred Wistar rats, under the same experimental conditions, suggests the existence of a genetic control for this type of immune response.
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PMID:Induction of anti-glomerular basement membrane antibodies in the Brown-Norway rat by mercuric chloride. 32 75

HgCl2 chronically injected in the Brown-Norway rat induced a biphasic renal disease. The first stage was characterized by anti-glomerular basement membrane antibodies. The second stage by the appearance of immune complexe type deposits in the glomerular tufts and in the small renal arteries. These immune complexes were constituted of a basement membrane component and anti-basement membrane antibodies. Other immune complexes were perhaps involved. In most of the rats, a proteinuria and a nephrotic syndrome appeared, as a consequence of this immune disease. No abnormalities were observed in Lewis rats, suggesting a role for a genetic control of this immune response.
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PMID:Immune type glomerulonephritis induced by HgCl2 in the Brown Norway rat. 74 85

We previously demonstrated that mercuric chloride (HgCl2) injected-(Lewis x Brown-Norway) F1 rats are protected against experimental autoimmune uveoretinitis (EAU) induced by active immunization with the retinal S-antigen (S-Ag). To better understand the mechanisms of the protection promoted by HgCl2, we studied the effect of HgCl2-induced autoimmune disease on transferred EAU. We demonstrate herein that HgCl2 has no effect on adoptively transferred EAU. Therefore, the HgCl2-induced autoimmune disease does not affect effector S-Ag specific T cells activated in vitro but acts at an earlier stage.
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PMID:Adoptive transfer of experimental autoimmune uveoretinitis in HgCl2 injected rats. 142 35

The present paper demonstrates that HgCl2 can affect rat peritoneal polymorphonuclear leukocyte (PMN) and macrophage (M phi) functions in vitro. In addition, we have noticed that these effects of mercury vary according to the rat strain: for example, HgCl2 stimulates H2O2 release from Lewis (LEW) but not Brown Norway (BN) PMN. Similarly, LEW M phi produce high levels of H2O2 when exposed to HgCl2 in vitro, whereas BN M phi do not. Finally, mercury inhibits erythrophagocytosis of both LEW and BN "resident" peritoneal M phi. Preliminary experiments using M phi from other rat strains have also shown that MAXX M phi are stimulated by HgCl2 to release H2O2 in vitro, whereas Yoshida M phi are inhibited. Differences in lymphocyte responses (e.g. delayed-type hypersensitivity reactions and mitogen stimulation) between rats of various strains are well known. To these examples one may now add variations in PMN and M phi responses to mercury and possibly other metals. Our results suggest that caution should be exercised in interpreting the outcome of immunotoxicity studies in experimental animals. In particular, outbred rats may not provide appropriate models, that might be better obtained by comparative investigations of rats from various inbred strains.
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PMID:The in vitro effects of mercury on peritoneal leukocytes (PMN and macrophages) from inbred brown Norway and Lewis rats. 142 60

Two antibody probes were used to characterize the putative renal antigens of HgCl2-induced antiglomerular basement membrane renal disease in Brown Norway (BN) rat. The first probe was the linear immunofluorescence imparting, in vivo bound, nephritogenic antiglomerular-basement-membrane autoantibody (anti-GBM-Ab). The second probe was a rat monoclonal antibody to the B subunit of laminin that was obtained from fusion of spleen cells of HgCl2 injected BN rat. By enzyme-linked immunosorbent assay (ELISA) the anti-GBM-Ab reacted with laminin, type IV collagen, collagenase-resistant noncollagenous portion of glomerular basement membrane (GBM), saline soluble proteins of kidney cortex homogenate and fibronectin. Western blot analysis of laminin indicated that the reactive epitopes detected by both probes were on the B chain subunit but not the A subunit. In nonreduced collagenase-digested GBM the epitopes were present on 27 kD and 42 to 48 kD polypeptides. A similar pattern was seen on collagenase-digested human GBM. On rat and human GBM the patterns obtained with rat autoantibody and autoantibody from a patient with Goodpasture syndrome were similar, suggesting that some of the in vivo bound anti-GBM autoantibodies in HgCl2-induced disease in rat are directed against epitopes which are similar to the Goodpasture antigen of human. Reactive epitopes were also detected on saline soluble proteins of kidney cortex homogenate with the predominant antigen being a 31 kD polypeptide. In the saline soluble proteins the reactive polypeptides including the major 31 kD polypeptide did not originate from laminin, type IV collagen, or the collagenase-resistant noncollagenous part of GBM. The precise structural origin of soluble proteins was not defined.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal antigens in mercuric chloride induced, anti-GBM autoantibody glomerular disease. 168 61

The pathogenesis of gold-induced autoimmunity and membranous glomerulopathy is not well understood. HgCl2 and D-penicillamine, other chemicals known to trigger membranous glomerulopathy in humans, induce autoimmune manifestations in Brown-Norway (BN) rats but not in Lewis (LEW) rats. These chemicals trigger T-cell clones which are specific for self class II molecules from the major histocompatibility complex and are probably responsible for the polyclonal B-cell activation observed. The aim of this work was to test the effects of aurothiopropanolsulphonate (ATPS) in BN and LEW rats. In BN rats, ATPS induced a polyclonal B-cell activation marked by lymphoproliferation, hyperimmunoglobulinaemia affecting mainly IgE, and by the production of numerous autoantibodies. A glomerulonephritis occurred, initially due to anti-glomerular basement membrane antibody deposition, and later to the formation of granular deposits, occasionally resulting in a typical membranous glomerulopathy. Self class-II-specific T-cells were found that might be responsible for the polyclonal B-cell activation. Lewis rats were free of glomerulopathy but, like BN rats, exhibited an interstitial nephritis and some degree of polyclonal B-cell activation. These findings demonstrate that, depending on the strain, ATPS triggers different B-cell clones inducing different degrees of autoimmunity.
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PMID:Experimental gold-induced autoimmunity. 174 85

Mercuric chloride (HgCl2) induces in Brown-Norway (BN) and (Lewis x Brown-Norway) F1 hybrid rats a transient autoimmune disease characterized by the production of various antibodies to self and non-self antigens and by a dramatic increase of serum IgE. Experimental autoimmune uveoretinitis (EAU) can be induced in Lewis (LEW) and (LEW x BN) F1 hybrid rats by a single immunization with retinal S-antigen (S-Ag). Besides uveoretinitis, animals immunized with S-Ag develop an autoimmune pinealitis (EAP). We demonstrate in this study that (LEW x BN) F1 hybrid rats, injected with HgCl2 7 days before S-Ag immunization, are quite efficiently protected against EAU and EAP. We also show that HgCl2-induced protection is neither due to a cytotoxic effect of HgCl2 nor to CD8+ T-cell dependent mechanisms nor to the HgCl2-induced increase of serum IgE concentration. The role of other hypothetical mechanisms, such as anti-S-Ag anti-idiotypic antibodies and/or HgCl2-induced unbalance between T-helper cell subsets, is discussed.
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PMID:Prevention of experimental autoimmune uveoretinitis and experimental autoimmune pinealitis in (Lewis x Brown-Norway) F1 rats by HgCl2 injections. 174 84

Mercuric chloride (HgCl2) induces the production of autoantibodies to glomerular basement membrane (GBM) in the Brown Norway (BN) rat. The autoimmune response is self-limiting and thereafter the animals are resistant to rechallenge with HgCl2. Resistance can be transferred to naive animals by spleen cells from HgCl2-treated rats. A similar state of resistance can be induced with a low dose of HgCl2, insufficient in itself to induce autoimmunity. We have examined the role of CD8+ T cells in the immunoregulation of this experimental model by depleting this subset in vivo. We have also used inhibition studies in a solid-phase radioimmunoassay in an attempt to demonstrate any effect of anti-idiotypic antibodies in the spontaneous resolution of the anti-GBM antibody response. The initial induction and spontaneous resolution of anti-GBM antibodies were unaffected by depletion of CD8+ T cells. However, CD8-depleted animals were no longer resistant to rechallenge with HgCl2. Cell transfer studies showed that spleen cells from CD8-depleted animals conferred less resistance to HgCl2 than those from animals which had received control antibody. CD8 depletion also reduced the resistance induced by pretreatment with low-dose HgCl2. Studies in which peak sera were pre-incubated with post-recovery sera before testing in a solid-phase anti-GBM radioimmunoassay did not support an important role for anti-idiotypic antibodies. We conclude that CD8+ T cells play an important role in the resistance to rechallenge with HgCl2 in the BN rat, although they are not required for the induction or spontaneous resolution of the initial autoimmune response. Demonstration of the reversal of a suppressive phenomenon in vivo using an anti-CD8 monoclonal antibody is unusual.
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PMID:Immunoregulation of mercuric chloride-induced autoimmunity in Brown Norway rats: a role for CD8+ T cells revealed by in vivo depletion studies. 190 41


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