Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011881 (diabetic nephropathy)
 10,836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The exact mechanisms by which growth hormone (GH) damages the kidney inducing diabetic nephropathy has not yet been elucidated. Recently, it has been shown that transferrin has the same diabetogenic effects of GH, being its mediator. Transferrin was studied using immunohistochemistry and immunoelectron microscopy in cases of early diabetic nephropathy, and in controls. Transferrin was only found in diabetic cases in podocytes and Bowman's capsule cells, but also in the tubular cells of both diabetic and non-diabetic controls. Immuno-electron microscopy for the presence of transferrin showed positive signals in the cytoplasm of diabetic podocytes, but not in pedicels. This selective deposition was associated with signs of organelle and cytoskeleton damage. On the basis of previous evidence and present glomerular findings, these results suggest an indirect diabetogenic effect on the kidney by GH mediated through transferrin.
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PMID:Diabetogenic transferrin damages podocytes in early human diabetic nephropathy. 1129 98

BACKGROUND: Transferrinuria is thought to be a marker for early stages of diabetic nephropathy. Transferrin has also been proposed as a mediator of tubular toxicity because the reabsorption of transferrin results in the release of reactive iron in proximal tubular cells, promoting the formation of hydroxyl radicals. We evaluated the role of urinary transferrin excretion in diabetic patients with early nephropathy by comparing tubulointerstitial injury in renal biopsy specimens. PATIENTS AND METHODS: 45 type 2 diabetic patients with normoalbuminuria (urinary albumin excretion <30 mg/24 h) or microalbuminuria (30-300 mg/24 h) were studied. All patients with microalbuminuria underwent renal biopsy, and the severity of the tubulo-interstitial lesions was determined by a semiquantitative estimate of interstitial fibrosis, tubular atrophy, and interstitial inflammatory infiltrates. Subjects were classified into group A (normoalbuminuria, n=25), group B (microalbuminuria without tubulointerstitial changes, n=11) or group C (microalbuminuria with tubulointerstitial changes, n=9). RESULTS: Urinary transferrin excretion (UTf), as well as UTf/creatinine clearance (Ccr), and transferrin clearance (CTf/Ccr), was significantly higher in groups B and C than in group A, and it was significantly higher in group C than in group B. There were no significant differences in urinary albumin excretion or mesangial expansion rate (MR% estimated by quantitative morphometric studies) between groups B and C. Although urinary beta2-microglobulin excretion was significantly higher in group C than in groups A and B, urinary N-acetyl-beta-D-glucosaminidase activity was significantly higher in groups B and C than in group A. CONCLUSIONS: Increased transferrinuria in the microalbuminuric stage may lead to the development of tubulointerstitial injuries in type 2 diabetic patients.
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PMID:Transferrinuria in type 2 diabetic patients with early nephropathy and tubulointerstitial injury. 1202 Jun 27

Diabetes mellitus is associated with altered iron homeostasis in both human and animal diabetic models. Iron is a metal oxidant capable of generating reactive oxygen species (ROS) and has been postulated to contribute to diabetic nephropathy. Two proteins involved in iron metabolism that are expressed in the kidney are the divalent metal transporter, DMT1 (Slc11a2), and the Transferrin Receptor (TfR). Thus, we investigated whether renal DMT1 or TfR expression is altered in diabetes, as this could potentially affect ROS generation and contribute to diabetic nephropathy. Rats were rendered diabetic with streptozotocin (STZ-diabetes) and renal DMT1 and TfR expression studied using semi-quantitative immunoblotting and immunofluorescence. In STZ-diabetic Sprague-Dawley rats, renal DMT1 expression was significantly reduced and TfR expression increased after 2 weeks. DMT1 downregulation was observed in both proximal tubules and collecting ducts. Renal DMT1 expression was also decreased in Wistar rats following 12 weeks of STZ-diabetes, an effect that was fully corrected by insulin-replacement but not by cotreatment with the aldose reductase inhibitor, sorbinil. Increased renal TfR expression was also observed in STZ-diabetic Wistar rats together with elevated cellular iron accumulation. Together these data demonstrate renal DMT1 downregulation and TfR upregulation in STZ-diabetes. Whilst the consequence of altered DMT1 expression on renal iron handling and oxidant damage remains to be determined, the attenuation of the putative lysosomal iron exit pathway in proximal tubules could potentially explain lysosomal iron accumulation reported in human diabetes and STZ-diabetic animals.
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PMID:Altered expression of iron transport proteins in streptozotocin-induced diabetic rat kidney. 1587 45