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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:Experimental gold-induced autoimmunity. 174 85
Mercuric chloride (HgCl2) induces in
Brown
Norway rats a CD4+ T lymphocyte-dependent systemic autoimmune syndrome, involving synthesis of anti-glomerular basement membrane autoantibodies and development of proteinuria. Lewis rats are resistant to HgCl2-induced autoantibody production and, in contrast, develop immunosuppression, mediated by CD8+ T lymphocytes. In the present study, genetic requirements governing autoreactivity or immunosuppression in response to HgCl2 were further explored. Both major histocompatibility complex (MHC) and non-MHC genes are involved in determining susceptibility to HgCl2-induced autoimmunity. Both AO (RT1u) and DZB (RT1u) rats were found to develop a membranous autoimmune
glomerulopathy
upon exposure to HgCl2. Only the DZB strain, which differs in part of the non-MHC background from AO, developed proteinuria. AO.1P (RT1.AuB1D1Eu) rats, which are genetically identical to AO except for the Lewis haplotype at the MHC class II loci, appeared to develop immunosuppression upon exposure to HgCl2. It is concluded that autoreactivity and immunosuppression, induced by HgCl2, are both dependent on the MHC class II haplotype. In autoimmune responder strains the type of autoimmune
glomerulopathy
is influenced by non-MHC genes.
...
PMID:Susceptibility to the induction of either autoimmunity or immunosuppression by mercuric chloride is related to the major histocompatibility complex class II haplotype. 200 8
Most glomerulopathies are immunologically-mediated. Their pathogenesis is now better understood. The role of cell-mediated immunity has recently been envisaged. The role of circulating antibodies now seems to be more important than that of circulating immune complexes. Antibodies may recognize structural or "planted" antigens in the kidney, the latter being non-renal molecules that may bind renal structures for non-immune reasons. The linear or granular pattern observed at immunofluorescence depends upon the regular or irregular distribution of the antigen. In susceptible individuals, various toxins (heavy metals such as mercury or gold, drugs with an SH group, non-steroidal anti-inflammatory agents) may induce an immune
glomerulopathy
. It has recently been shown that
Brown
-Norway rats exposed to one of the above-mentioned agents develop anti-self class II T lymphocytes that are responsible for a polyclonal activation of B cells. Among the various autoantibodies that are produced, some have a nephritogenic potential. Other drugs are responsible for glomerular lesions due to a direct toxic effect of the compound. Doxorubicin induces a nephrotic syndrome in the rabbit, while mitomycin induces a haemolytic uraemic syndrome in humans. Finally, drug addiction often leads to glomerulosclerosis.
...
PMID:[Toxic glomerulonephritis]. 257
Autologous immune complex
glomerulopathy
(AICG) is induced by immunizing rats with a crude brushborder fraction of rat kidney tubules (Fx1A) or with the purified GP 330 antigen. In these animals, anti-brushborder antibodies develop, leading to subepithelial immune complexes along the glomerular capillary wall. In rats with AICG, thymocytes sensitized against Fx1A as well as thymocytes recognizing anti-Fx1A are present. These latter cells might play a role in the specific tolerance against the pathogenetic antigen GP 330. To substantiate this notion, immunofluorescence studies were performed in which the number of anti-GP 330 binding cells was quantified in thymus cell suspensions of rats with AICG, in control rats and in naive rats with different genetic background. It is shown that increased numbers of anti-GP 330-binding thymocytes in rats with AICG are associated with a decline in the serum anti-brushborder titer. Furthermore, it appears that the number of anti-GP 330-binding thymocytes in naive rats of the non-responder
Brown
Norway strain is significantly higher as compared to the PVG/c and Lewis strains, which are susceptible for AICG. The correlation between the numbers of anti-GP 330-binding thymocytes and the susceptibility for AICG suggests a role for these cells in maintaining the tolerance against the Fx1A (GP 330) antigen.
...
PMID:Thymocytes reacting with heterologous antibodies against GP 330 in autologous immune complex glomerulopathy (AICG) in the rat. The relation between susceptibility for AICG and anti-GP 330-binding thymocytes. 269 45
In
Brown
-Norway rats HgCl2 induces an autoimmune disease due to a T-dependent B cell polyclonal activation. This disease is marked by the production of numerous antibodies including antiglomerular basement membrane (GBM) antibodies. Rats exhibit a biphasic
glomerulopathy
with heavy proteinuria. Initially anti-GBM antibodies are found linearly deposited; they precede the appearance of membranous
glomerulopathy
. Rats recover spontaneously even if HgCl2 injections are pursued, but mechanisms at play are unclear. We have assessed the effects of transplanting the spleen from a BN rat, either at the acme of the disease or at the time of convalescence, into naive BN rats, some of which were then injected with HgCl2. Transplantation of a spleen from HgCl2-injected rats at the acme of the disease dramatically protects BN rats from all the manifestations of the mercury disease. BN rats transplanted with a spleen from HgCl2-injected rats at the time of convalescence only exhibited a typical membranous
glomerulopathy
with heavy proteinuria but without circulating anti-GBM antibodies. Antilaminin antibodies were eluted from the glomeruli. This study shows that spleen cells from HgCl2-injected rats are able to confer tolerance to HgCl2-induced autoimmunity. It also shows that some B cell clones escape this tolerance. Finally, this study strongly suggests that membranous
glomerulopathy
, responsible for proteinuria in this model, is related to the presence of antilaminin antibodies.
...
PMID:Evidence for a role of antilaminin-producing B cell clones that escape tolerance in the pathogenesis of HgCl2-induced membranous glomerulopathy. 838 32
Brown
-Norway (BN) and Dorus Zadel Black (DZB) rats develop a T-cell-dependent membranous
glomerulopathy
(MGP) with high proteinuria and antiglomerular basement membrane (GBM) autoreactive antibodies (Abs), upon exposure to mercuric chloride (HgCl2). Laminin is an important autoantigenic target of the anti-GBM Abs, absorbing approximately 30% of the anti-GBM reactivity. Although many anti-GBM Abs have undergone isotype switching, it is currently unclear whether affinity maturation occurs during the HgCl2-induced autoimmune response. To address this question we analysed the rearranged immunoglobulin heavy chain variable-region genes (VHDJH regions) of 15 mAbs that were previously obtained from HgCl2-treated rats. Seven of these mAbs exhibit reactivity towards laminin. Our study showed that the VH-gene usage of antilaminin mAbs is largely restricted to the PC7183 VH-gene family (six out of seven). In addition, we demonstrated that at least three out of six laminin reactive and five out of six non-laminin-binding mAbs are encoded by germline VH genes (a total of eight out of 12 mAbs). Of the eight mAbs that are encoded by germline VH genes, seven are of a non-immunoglobulin M (IgM) isotype, indicating that isotype switching has occurred in these mAbs in the absence of somatic mutations. The mutations observed in the VH genes of the four remaining mAbs do not provide strong evidence for antigenic selection. The data support the notion that B cells in this model of MGP are not subjected to affinity maturation and probably result from polyclonal B-cell activation.
...
PMID:Immunoglobulin VH-gene usage of autoantibodies in mercuric chloride-induced membranous glomerulopathy in the rat. 1141 7
