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)

Chemokines participate in leukocyte infiltration, which plays a major role in glomerular injury during immune complex glomerulonephritis (IC-GN). Because target cell expression of chemokine receptors (CCR) is thought to mediate leukocyte migration, the expression pattern of chemokines and CCR in a model of IC-GN was examined. The transient course and predominant glomerular pathology of this model allows the examination of both the induction and resolution phases of IC-GN. GN was induced in mice by daily apoferritin injection for 2 wk. Urine samples and kidneys were obtained at 1, 2, and 4 wk. Albuminuria was noted at 2 wk, but resolved after 4 wk. This was associated with glomerular IC deposits and mesangial proliferation. Glomerular macrophage infiltration was prominent at 1 and 2 wk, which resolved at 4 wk. Expression of monocyte chemoattractant protein-1 (MCP-1) and RANTES mRNA was upregulated at week 1 and decreased to control levels at weeks 2 and 4. The expression was localized to glomeruli by in situ hybridization and immunohistochemistry. The mRNA of CCR1, CCR2, and CCR5 but not CCR3 or CCR4 were upregulated at week 1 and decreased at weeks 2 and 4. Expression of CCR5 was located to the glomerulus by in situ hybridization and quantitative reverse transcription-PCR of isolated glomeruli. In summary, in a model of transient IC-GN, MCP-1 and RANTES and their receptors CCR1, CCR2, and CCR5 are expressed early and are already downregulated at the peak of proteinuria and leukocyte infiltration. Resolution of glomerulonephritis is associated with a return to baseline of chemokine and CCR expression. Therefore, it is concluded that glomerular MCP-1 and RANTES production directs circulating leukocytes that express CCR1, CCR2, and CCR5 into the glomerulus. After initiating GN, MCP-1 and RANTES and their receptors are readily downregulated.
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PMID:Chemokine and chemokine receptor expression during initiation and resolution of immune complex glomerulonephritis. 1131 50

We investigated changes in various serum cytokines in a case of systemic lupus erythematosus (SLE) accompanied by hemophagocytic syndrome (HPS). The patient, a 15-year-old male, presented in December 1998 with bilateral salivary gland swelling and a history of fever continuing for more than 10 days. After admission, cerebellar ataxia and clouding of consciousness developed. Laboratory examinations revealed leukopenia, thrombocytopenia, high serum LDH and ferritin, hypercytokinemia, and prominent hemophagocytosis in the bone marrow. Given these findings and positive titers of antinuclear antibody, hypocomplementemia, proteinuria and pericarditis, a diagnosis of HPS with associated SLE was made. The patient was treated with high dose methylprednisolone followed by oral prednisolone and cyclosporine. The patient's clinical symptoms, abnormal blood and urine laboratory data consequently improved, and no recurrence of the symptoms has been documented. However, hemophagocytosis in bone marrow recurred with concomitantly increased serum levels of IL-6 and IL-1 beta. This case indicated that aberrant production of these inflammatory cytokines might be involved in HPS in autoimmune disease.
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PMID:[Systemic lupus erythematosus with bilateral salivary gland swelling and clouding of consciousness accompanied by hemophagocytic syndrome--a study of serial determination of serum cytokines]. 1246 29

The chemokine CC chemokine ligand (CCL)5/RANTES as well as its respective receptor CCR5 mediate leukocyte infiltration during inflammation and are up-regulated early during the course of glomerulonephritis (GN). We tested the effects of the two CCL5/RANTES blocking analogs, Met-RANTES and amino-oxypentane-RANTES, on the course of horse apoferritin (HAF)-induced GN. HAF-injected control mice had proliferative GN with mesangial immune complex deposits of IgG and HAF. Daily i.p. injections of Met-RANTES or amino-oxypentane-RANTES markedly reduced glomerular cell proliferation and glomerular macrophage infiltration, which is usually associated with less glomerular injury and proteinuria in HAF-GN. Surprisingly, however, HAF-GN mice treated with both analogs showed worse disease with mesangiolysis, capillary obstruction, and nephrotic range albuminuria. These findings were associated with an enhancing effect of the CCL5/RANTES analogs on the macrophage activation state, characterized by a distinct morphology and increased inducible NO synthetase expression in vitro and in vivo, but a reduced uptake of apoptotic cells in vivo. The humoral response and the Th1/Th2 balance in HAF-GN and mesangial cell proliferation in vitro were not affected by the CCL5/RANTES analogs. We conclude that, despite blocking local leukocyte recruitment, chemokine analogs can aggravate some specific disease models, most likely due to interactions with systemic immune reactions, including the removal of apoptotic cells and inducible NO synthetase expression.
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PMID:CC chemokine ligand 5/RANTES chemokine antagonists aggravate glomerulonephritis despite reduction of glomerular leukocyte infiltration. 1275 47

IL-13 is produced by T helper 2 (Th2) cells, has a role in stimulating Th2-mediated injury, alters humoral responses, and may directly suppress macrophage and neutrophil function. In immune renal disease, the engagement of different effector mediator systems, including humoral and cell-mediated effectors, can result in glomerular injury. Experimental crescentic glomerulonephritis (known as autologous anti-glomerular basement membrane glomerulonephritis) induced by planting an antigen in glomeruli of mice is Th1 directed, delayed-type hypersensitivity (DTH)-like, and antibody independent. To test the hypothesis that, like the counterregulatory Th2 cytokines IL-4 and IL-10, endogenous IL-13 limits effector Th1 responses in glomerulonephritis, crescentic glomerulonephritis was induced in IL-13+/+ and IL-13-/- mice. Although IL-13-/- mice developed increased serum antigen-specific antibody levels, increased glomerular antibody deposition and enhanced switching to the Th1-associated IgG2a subclass, they developed a similar degree of crescentic glomerulonephritis, with similar glomerular T cell/macrophage numbers, renal impairment, and proteinuria. Antigen-specific dermal DTH and IFN-gamma production by antigen-stimulated splenocytes was unaltered. In immune complex (apoferritin-induced) glomerulonephritis, where renal injury is humorally mediated, IL-13-/- mice developed enhanced humoral immune responses and increased proteinuria, with increased IgG2a responses, a more peripheral distribution of immune complexes, but no alterations in leukocyte recruitment. These results demonstrate dissociation of IL-13's effects in antigen induced renal disease with little effect on cellular responses but suppressive effects on humoral effectors and switching to IgG2a. They indicate a role for IL-13 in limiting antibody-mediated renal injury, but not in regulating DTH-like cell-mediated responses in the kidney.
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PMID:Endogenous IL-13 limits humoral responses and injury in experimental glomerulonephritis but does not regulate Th1 cell-mediated crescentic glomerulonephritis. 1533 86

We have suggested that renal tubular synthesis of C3 and its activation in the cortical interstitium is a mechanism for the progression of glomerulonephritis to interstitial injury. To test this hypothesis, immune complex glomerulonephritis was induced in C57BL/6 mice by intraperitoneal injections of horse spleen apoferritin and lipopolysaccharide (HSA/LPS). When compared to wild-type (WT) animals, C3 knockout (C3KO) mice had glomerular changes that were identical. Morphometric analysis of the cortical interstitium, however, showed marked differences. WT mice had more interstitial inflammation, edema, and tubular atrophy, when compared to C3KO mice. At the end of the experiment, WT animals also had significantly more proteinuria than did C3KOs. These experiments provide further evidence of a role of locally synthesized complement in the progression of glomerular disease.
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PMID:C3 is central to the interstitial component of experimental immune complex glomerulonephritis. 1587 25

Skeletal demineralization is a frequent accompaniment of chronic renal disease and is likely multifactorial. We studied the role of inflammation in stimulating bone resorption in a rat model of glomerulonephritis (GN). Three-week-old Sprague-Dawley rats received either saline (n = 8) or horse spleen apoferritin and lipopolysaccharide (HSA/LPS, n = 8) by intraperitoneal injection, for 6 weeks; afterward, they were observed for either an additional 3 weeks (9 weeks total; n = 4 from each group) or 14 weeks (20 weeks total; n = 4 from each group). Kidneys were analyzed by histomorphometry, and blood and urine samples were obtained to assess bone resorption. Whole-body and isolated femur Dual-Energy X-ray Absorptiometry (DEXA) scans were performed at the end of each study. HSA/LPS-treated animals developed a proliferative GN by 9 weeks, which is associated with proteinuria but no change in renal function. Between 9 and 20 weeks, there was evidence of an increasing interstitial inflammation (1381 +/- 67 interstitial cells/mm(2) at 9 weeks and 1818 +/- 28 interstitial cells/mm(2) at 20 weeks.) There was also evidence of bone resorbing activity as assessed by experimental/control (E/C) < 1.0 at 9 (E/C plasma = 0.66 +/- 0.05) and 20 (E/C plasma = 0.52 +/- 0.04) weeks. Parathyroid hormone (PTH) levels were normal at all time points, and no differences in bone mineral density were found. This model produces not only an immune glomerular/tubular injury, but also a stimulus for bone resorption that is related to objective measures of inflammation severity. The bone resorption is not caused by renal insufficiency, hyperparathyroidism, or steroid therapy. This model will prove useful in other studies of the role of renal inflammation in skeletal disorders.
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PMID:Nonparathyroid hormone-mediated calcium resorption in a rat model of immune glomerulonephritis. 1613 56

Primary defects in either podocytes or the glomerular basement membrane (GBM) cause proteinuria, a fact that complicates defining the barrier to albumin. Laminin beta2 (LAMB2) is a GBM component required for proper functioning of the glomerular filtration barrier. To investigate the GBM's role in glomerular filtration, we characterized GBM and overlying podocyte architecture in relation to development and progression of proteinuria in Lamb2-/- mice, which model Pierson syndrome, a rare congenital nephrotic syndrome. We found ectopic deposition of several laminins and mislocalization of anionic sites in the GBM, which together suggest that the Lamb2-/- GBM is severely disorganized, although it is ultrastructurally intact. Importantly, albuminuria was detectable shortly after birth and preceded podocyte foot process effacement and loss of slit diaphragms by at least 7 days. Expression and localization of slit diaphragm and foot process-associated proteins appeared normal at early stages. GBM permeability to the electron-dense tracer ferritin was dramatically elevated in Lamb2-/- mice, even before widespread foot process effacement. Increased ferritin permeability was not observed in nephrotic CD2-associated protein-null (Cd2ap-/-) mice, which have a primary podocyte defect. Together these data show that the GBM serves as a barrier to protein in vivo and that the glomerular slit diaphragm alone is not sufficient to prevent the passage of albumin into the urinary space.
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PMID:Proteinuria precedes podocyte abnormalities inLamb2-/- mice, implicating the glomerular basement membrane as an albumin barrier. 1688 57

CD100, a member of the semaphorin family, is a costimulatory molecule in adaptive immune responses by switching off CD72's negative signals. However, CD100's potential pathogenetic effects in damaging immune responses remain largely unexplored. We tested the hypothesis that CD100 plays a pathogenetic role in experimental immune complex glomerulonephritis. Daily injection of horse apoferritin for 14 days induced immune complex formation, mesangial proliferative glomerulonephritis and proteinuria in CD100-intact (CD100+/+) BALB/c mice. CD100-deficient (CD100-/-) mice were protected from histological and functional glomerular injury. They exhibited reduced deposition of Igs and C3 in glomeruli, reduced MCP-1 and MIP-2 intrarenal mRNA expression, and diminished glomerular macrophage accumulation. Attenuated glomerular injury was associated with decreased Ag-specific Ig production, reduced CD4+ cell activation and cytokine production. Following Ag injection, CD4+ cell CD100 expression was enhanced and dendritic cell CD86 expression was up-regulated. However, in CD100-/- mice, dendritic cell CD86 (but not CD80) up-regulation was significantly attenuated. Following i.p. immunization, CD86, but not CD80, promotes early Ag-specific TCR-transgenic DO11.10 CD4+ cell proliferation and IFN-gamma production, suggesting that CD100 expression enables full expression of CD86 and consequent CD4+ cell activation. Transfer of CD100+/+ DO11.10 cells into CD100-/- mice resulted in decreased proliferation demonstrating that CD100 from other sources in addition to CD100 from Ag-specific CD4+ cells plays a role in initial T cell proliferation. Although T cell-B cell interactions also may be relevant, these studies demonstrate that CD100 enhances pathogenetic humoral immune responses and promotes the activation of APCs by up-regulating CD86 expression.
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PMID:CD100 enhances dendritic cell and CD4+ cell activation leading to pathogenetic humoral responses and immune complex glomerulonephritis. 1692 Sep 82

Alport disease is caused by mutations in genes encoding the alpha3, alpha4, or alpha5 chains of type IV collagen, which form the collagenous network of mature glomerular basement membrane (GBM). In the absence of alpha3, alpha4, alpha5 (IV) collagen, alpha1, alpha2 (IV) collagen persists, which ordinarily is found only in GBM of developing kidney. In addition to dysregulation of collagen IV, Alport GBM contains aberrant laminins, which may contribute to the progressive GBM thickening and splitting, proteinuria, and renal failure seen in this disorder. This study sought to characterize further the laminin dysregulation in collagen alpha3(IV) knockout mice, a model of Alport disease. With the use of confocal microscopy, laminin alpha1 and alpha5 abundance was quantified, and it was found that they co-distributed in significantly large amounts in areas of GBM thickening. In addition, labeling of entire glomeruli for laminin alpha5 was significantly greater in Alport mice than in wild-type siblings. Reverse transcriptase-PCR from isolated glomeruli demonstrated significantly more laminin alpha5 mRNA in Alport mice than in wild-type controls, indicating upregulated transcription of Lama5. For testing glomerular barrier function, ferritin was injected into 2-wk-old Alport and control mice, and GBM was examined by electron microscopy. Highest ferritin levels were seen in Alport GBM thickenings beneath effaced podocyte foot processes, but morphologically normal GBM was significantly permeable as well. We concluded that (1) ultrastructurally normal Alport GBM residing beneath differentiated podocyte foot processes is inherently and abnormally permeable, and (2) upregulation of Lama5 transcription and concentration of laminin alpha1 and alpha5 within Alport GBM thickenings contribute to abnormal permeabilities.
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PMID:Laminin compensation in collagen alpha3(IV) knockout (Alport) glomeruli contributes to permeability defects. 1769 9

In the review paper an issue of the administration of iron containing drugs in the treatment of anemia in non-dialyzed patients with chronic kidney disease (CKD) is presented. Iron deficiency in patients with CKD (serum ferritin concentration below 100 ng/ml, transferrin saturation below 20%) occurs in 20-70% of cases. Prevalence of iron deficiency depends on stage of CKD and patients' gender. Among causes of iron deficiency the following reasons are mentioned: blood loss through gastrointestinal tract (17-18% of patients in pre-dialysis stage show positive results of tests on occult blood), diminished absorption (uremic gastroenteropathy, administration of drugs decreasing iron absorption), decreased delivery of food (anorexia, low protein diet), infections and inflammatory state. In the course of infections and inflammatory states body iron storage may be normal, but its utilization for erythropoesis is deteriorated (functional iron deficiency). Results of randomized controlled studies indicate greater efficiency of intravenous therapy in comparison with oral route of iron administration. In practice, the main route of administration of iron-containing drugs to non-dialyzed patients with CKD remains, however, the oral one (iron sulfate, iron fumarate, hem iron) as more convenient and seldom leading to serious side effects. Intravenous iron therapy (iron dextrose, iron polymaltose, sodium-iron gluconate, iron sucrose) is required for cases with absolute deficiency of this microelement, disturbed intestinal absorption, poor tolerance of oral iron medication or its ineffectiveness from other reasons. Administration of erythropoiesis stimulating agents in predialysis period may require intravenous iron therapy because of enhanced consumption of its stores for erythropoiesis. Attention should be paid to possible nephrotoxic effects of administration of iron containing drugs (transient proteinuria, damage of renal tubules, decrease in glomerular filtration rate).
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PMID:[Administration of iron-containing drugs in non-dialyzed patients with chronic kidney disease]. 1772 76


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