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: UNIPROT:P02794 (ferritin)
17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mice undergoing prolonged (5 to 8 weeks) immunization with cadium-free feeritin were studied 1 to 32 days following the last ferritin injection. Urine protein was measured and renal tissue examined by light, immunofluorescence, and electron microscopy. Immunized animals developed significant proteinuria and circulating antibody to ferritin.by light microscopy, proetinuric animals had a proliferative glomerular lesion with mesangial hypercellularity and martrix increase, focal and segmental necrosis, fibrin deposits, and occasional crescents. Iron stains revealed prominent mesangial iron deposition. In immunized animals, IgG and C3 deposits were localized mainly in the mesanglium. Electron microscopic studies revealed marked deposition of ferratin complexesexpanded mesangial matrix and mesangial interposition. Ferratin immune complexes were also visualized in epithelial spaces. In the latter location ferritin immune complexes occasionally formed characteristic electron-dense subepithelial deposits. In this model, mesangial and subepithelial localization of autologous ferritin immune complexes is associated with development of glomerulonephritis and characteristic mesangial lesions resembling those seen in some types of human glomerulonephritis.
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PMID:Experimental glomerulonephritis in the mouse associated with mesangial deposition ofautologous ferritin immune complexes. 12 61

Immune complex glomerulonephritis was induced in three groups of mice by long-term immunization. Two antigens of similar molecular weight were used. The first group was immunized with ferritin (mol wt 480,000). In altered glomeruli deposits of immune complexes were seen in the subendothelial and subepithelial spaces of the glomerular basement membrane (GBM) and in the mesangium. The immune complex deposits were formed by amorphous matrix with marked dense molecules of ferritin. The second group was immunized with human fibrinogen (mol wt 450,000). The immune complex deposits were present in the intramembranous, subepithelial and subendothelial spaces of the GBM and in the mesangium. These deposits were relatively less electron-dense and had a fine granular structure. The third group of mice were immunized with both ferritin and fibrinogen simultaneously. Two types of deposits situated subendothelially in the GBM and in the mesangium were seen in one animal of this group. One type of deposit resembled structurally the ferritin-antiferritin complex deposits, the other resembled the fibrinogen-antifibrinogen complex deposits. The individual deposits in the GBM and in the mesangium formed discrete homogeneous masses. The two types of deposit were occassionally in direct contact with one another, but were more often completely separate and were never mixed. It can be assumed that in at least some phase of the experiment both types of complex were present in the circulating blood simultaneously. However, since none of the complexes deposited in the GBM or in the mesangium were mixed, it seems probable that each type of complex is deposited separately in the form of "clusters" composed of a single type of complex. The phagocytic activity of mesangial cells of animals with complex glomerulonephritis was not increased when compared with control animals.
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PMID:Experimental immune complex glomerulonephritis in the mouse with two types of immune complexes. 14 86

In order to study the effects of the protein moiety independent of the protein-iron complex in the development of ferritin-induced glomerulonephritis, we compared the effects of ferritin, equimolar amounts of apoferritin, and equimolar amounts of iron dextran in Swiss albino mice. The results were compared to both saline-injected and non-injected controls. Ferritin resulted in a glomerulonephritis associated with predominantly mesangial deposition of immune complexes. Tubulo-interstitial changes occurred as well. Iron dextran resulted in similar but less severe tubulo-interstitial changes and evoked no glomerular alterations. Apoferritin resulted in an immune complex glomerulonephritis usually associated with membranous deposits. No tubular or interstitial changes occurred. Proteinuria developed in animals receiving apoferritin. Since the protein-iron complex caused tubular and interstitial damage, apoferritin may provide a more suitable model of immune-complex-mediated glomerulonephritis.
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PMID:Ferritin- and apoferritin-induced immune complex glomerulonephritis in mice. 49 22

The morphologic basis of proteinuria in experimental chronic serum sickness glomerulonephritis in rabbits was studied by light and electron microscopy using horseradish peroxidase (effective radius 30 A; mol. wt. 40,000) and ferritin (effective radius 60 A; mol. wt. 480,000) as protein tracers. It was found that more ferritin, but paradoxically, less horseradish peroxidase gained access to the urinary space. Observations made by electron microscopy appeared to indicate a decreased permeability of most part of the damaged glomerular capillary wall to both tracers. These results favor the interpretation that proteinuria in chronic serum sickness glomerulonephritis is the result of focal rather than diffuse increase in permeability of the glomerular capillary wall. Lesions of segments of the nephron other than the glomerular capillary wall, may contribute to the leakage of proteins to the urinary space.
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PMID:The morphologic basis of proteinuria in experimental chronic serum sickness glomerulonephritis. A light and electron microscopic study using horseradish peroxidase and ferritin as tracers. 66 50

Glomerulonephritis in idiopatic mixed cryoglobulinemia represents perhaps a glomerular damage by immune complexes. In this study, a sigmoidal-like curve was obtained after addition of 13 different mixed cryoglobulins to both autologous and isologous platelet-rich plasma, tested in platelet aggregometer. The lag phase of the curve corresponds to platelet phagocytosis of cryoglobulin-binding ferritin, as shown in electron microscopy and the optical density decrease phase corresponds to the aggregation of platelets that shows the same ultrastructural characteristics of ADP-induced platelet aggregation. This platelet aggregation is inhibited by different drugs. Intraglomerular platelet aggregation by cryoglobulins might play a key role in determining the glomerular damage in cryoglobulinemia by the release of nucleotides and vasoactive amines.
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PMID:Human platelet aggregation by mixed cryoglobulins. 80 77

In situ immune complex glomerulonephritis can be induced in the rat employing cationized antigen planted in the glomerular basement membrane (GBM) as a target for specific antibody. Another possible mechanism of in situ immune complex formation is antibody already present in the GBM to bind circulating antigen. Present study was performed in order to determine whether cationized antibodies planted in the GBM could react with anionic as well as cationic antigens to form immune deposits. Horse ferritin, rabbit antibody to horse native ferritin (f-Ab) and rabbit antibody to ovalbumin (o-Ab) were highly cationized as described by Danon et al. The ability of the cationized antibodies to precipitate antigens was estimated by Ouchterlony analysis. 500 micrograms/100 g body weight (b.w.) of cationized f-Ab or o-Ab was perfused into the left renal artery of male Wistar rats and 0.1-10.0 mg/100 g b.w. of either native or cationized ferritin or ovalbumin was injected respectively into the tail vein 1 hr later. Estimation of proteinuria was done and the kidneys were removed up to 5 days for immunohistological as well as electron microscopical examination. Cationized antibodies bound to anionic sites of the GBM and combined with subsequently injected cationized ferritin or native ovalbumin in situ, both leading to formation of subepithelial immune deposit with activation of C3 and caused mild proteinuria. Native ferritin, however, induced neither subepithelial immune deposit nor proteinuria, because it didn't permeate through the GBM. The presented model indicates that antibody molecules of high positive charge can bind to the GBM and react with specific antigens that are traversing the barrier to form immune deposits. This is independent of the charge of antigen provided that the antigen molecules are permeable into the GBM, as is the case with ovalbumin but not native ferritin.
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PMID:[In situ immune complex glomerulonephritis induced by perfusion of cationized antibody]. 228 98

Morphologic studies were performed in a passive model of in situ immune complex glomerulonephritis in rats. The formation and fate of subepithelial immune complexes as well as the role of glomerular polyanion in the induction of disease were examined. Unilateral in situ immune complex glomerulonephritis was induced in rats by perfusion of cationised horse spleen ferritin (pI greater than 9.5) (400 micrograms/rat) into the left kidney followed by systemic injection of 0.2 ml (= 400 micrograms precipitating antibody) of sheep anti-ferritin antiserum 2 h later. This schedule induced glomerulonephritis with proteinuria (mean maximum 100 mg/24 h between the 5th and the 12th day). Rats were sacrificed at intervals between 1 h and 42 days after induction of glomerulonephritis, samples of renal tissue were examined by light, immunofluorescence and electron microscopy (including staining of anionic sites by polyethyleneimine). The lesion induced closely resembled that of membranous glomerulonephritis in man as massive subepithelial deposits were seen with very little cellular infiltration or proliferation. The antigen (ferritin) deposits were initially located subepithelially; from 2 weeks onwards intramembranous deposits in the thickened basement membrane were present, the apparent translocation being due to excessive newly synthesised basement membrane material which encloses the deposits. A loss of anionic sites in the lamina rara interna, lamina rara externa and on the epithelial cell surface coat preceded the development of proteinuria.
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PMID:Ultrastructural studies in passive in situ immune complex glomerulonephritis. A rat model for membranous glomerulonephritis. 248 73

These experiments examined the effects of genes outside of the H-2 region on disease susceptibility and pathogenesis. Four strains of mice with the susceptible H-2 type, H-2d, but different non-H-2 genes were studied. B10, D2, Balb/c, NZB, and DBA/2J mice were injected with 4 mg of apoferritin i.p. q.d. for 28 days. B10, D2 and Balb/c mice developed proliferative and crescentic glomerulonephritis. NZB mice developed proliferative and crescentic glomerulonephritis with wire loop lesions suggestive of lupus. DBA/2J mice developed only minimal mesangial proliferation without crescents or necrosis. Electron microscopy showed subepithelial and mesangial deposits in B10, D2, moderate subepithelial and mesangial deposits in Balb/c, and marked mesangial, subendothelial and subepithelial deposits in NZB. Immunofluorescence demonstrated the presence of IgG, IgM, C3 and apoferritin in these deposits. The DBA/2J mice had only minimal mesangial deposits by immunofluorescence and electron microscopy. These experiments demonstrate that non-H-2 genes alter the H-2d determined disease susceptibility seen in H-2 congenic mice. NZB genes can alter the disease so that lupus-like lesions develop and DBA/2J genes can substantially ameliorate the disease.
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PMID:Non-H-2 genes alter the H-2 determined susceptibilities in immune complex nephritis. 253 Mar 82

The sequence of antigen localization and the interaction of immune deposits with the anionic sites of the glomerular basement membrane (GBM) were investigated in an active model of in situ immune complex glomerulonephritis using a cationized ferritin. Three weeks after immunization with native horse spleen ferritin, the left kidneys of rats were perfused with 500 micrograms of cationized ferritin through the left renal artery. One h after renal perfusion, most of ferritin particles localized subendothelially, corresponding to the anionic sites of the lamina rara interna. In the glomerular capillary loops, infiltrating polymorphonuclear leukocytes and monocytes were seen. Some of these monocytes were in direct contact with immune complexes containing ferritin aggregates associated with anionic sites of the lamina rara interna. At 24 h, numerous ferritin aggregates were present subepithelially, preferentially beneath the slit membrane. The subepithelial location of ferritin did not always correspond to the anionic sites of the lamina rara externa. From days 3 to 7, there was remarkable endocapillary cell proliferation in some loops and pronounced effacement of epithelial foot processes. Focal detachment of epithelium from the GBM was observed occasionally. From days 14 to 28, most of ferritin aggregates were located intramembranously and subepithelially. Membranous transformation has already begun around the subepithelial deposits. This morphological study provides insight into the fate of immune deposits and injury to the GBM in the glomerulonephritis.
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PMID:Ultramicroscopic localization of cationized antigen in the glomerular basement membrane in the course of active, in situ immune complex glomerulonephritis. 285 86

To examine the mechanism by which prostaglandin E2 (PGE2) inhibits the development of apoferritin (HAF)-induced immune complex glomerulonephritis (ICGN), weekly determinations of glomerular histologic conditions, blood urea nitrogen (BUN), total immunoglobulin levels, anti-HAF antibody, peripheral blood and splenic T cell subsets, and splenic suppressor cell activity were compared between mice receiving HAF and mice additionally treated with PGE2. PGE2 therapy prevented the development of glomerular hypercellularity and the increase in BUN concentration. Administration of PGE2 reduced anti-HAF IgG levels, but total IgM and IgG1, IgG2a, and IgG2b levels were unchanged. Mice receiving HAF alone demonstrated serial reductions in phenotypically identified peripheral blood pan-T cells and suppressor-cytotoxic T cells. PGE2-treated mice maintained normal levels of peripheral blood T cell subsets. Significant reductions in splenic total T cells and suppressor-cytotoxic cells occurred in mice receiving HAF as compared with normal mice. This reduction was offset by an increase in splenic B cells. PGE2 therapy prevented the decrease in splenic T cells at week 1, but not at week 4. Nonspecific suppressor cell activity, as measured by the ability of spleen cells from experimental mice to suppress a mixed lymphocyte reaction (MLR) or to suppress MLR-induced polyclonal IgG synthesis, was not different between the two groups. We conclude that prevention of HAF-ICGN by PGE2 is associated with a reduction in nephritogenic antibody production without an alteration in total immunoglobulin synthesis or the generation of nonspecific suppressor T cells. Changes in the percent of peripheral blood and splenic T cells and B cells may represent an effect of PGE2 on antigen-stimulated B cell proliferation.
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PMID:Serial changes in humoral and cellular immunity induced by prostaglandin E2 treatment of murine immune complex glomerulonephritis. 293 13


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