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:C0011881 (diabetic nephropathy)
10,836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We used cloning in silico coupled with polymerase chain reaction to demonstrate that IHG-2 is part of the 3'-untranslated region of gremlin, a member of the DAN family of secreted proteins that antagonize the bioactivities of members of the transforming growth factor (TGF)-beta superfamily. Mesangial cell gremlin mRNA levels were induced by high glucose, cyclic mechanical strain, and TGF-beta1 in vitro, and gremlin mRNA levels were elevated in the renal cortex of rats with streptozotocin-induced diabetic nephropathy in vivo. gremlin expression was observed in parallel with induction of bone morphogenetic protein-2 (BMP-2), a target for gremlin in models of cell differentiation. Together these data indicate that (a) IHG-2 is gremlin, (b) gremlin is expressed in diabetic nephropathy in vivo, (c) both glycemic and mechanical strain stimulate mesangial cell gremlin expression in vitro, (d) high glucose induces gremlin, in part, through TGFbeta-mediated pathways, and (e) Gremlin is a potential endogenous antagonist of BMPs within a diabetic glomerular milieu.
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PMID:IHG-2, a mesangial cell gene induced by high glucose, is human gremlin. Regulation by extracellular glucose concentration, cyclic mechanical strain, and transforming growth factor-beta1. 1074 62

Bone morphogenetic proteins are members of the transforming growth factor-beta superfamily of cytokines and consist of a group of at least 15 morphogens involved in intracellular messaging through complex bone morphogenetic protein receptor mediated Smad signaling. Bone morphogenetic protein-7 knockout mice die shortly after birth due to uremia, demonstrating that this morphogenetic protein is essential for renal development. Recent investigations have characterized renal bone morphogenetic protein-7 receptors, shown exogenous bone morphogenetic protein-7 to prevent fibrogenesis associated with ureteral obstruction, indicated a loss of renal bone morphogenetic protein-7 associated with diabetic nephropathy, and an improvement in glomerular pathology in rodent streptozocin-induced diabetes with bone morphogenetic protein-7 treatment. In addition, this morphogenetic protein has been shown to reduce glomerulonephritis and tubulointerstitial fibrosis in a murine model of lupus nephritis as well as decrease the peritrabecular fibrosis associated with murine high turnover renal osteodystrophy. Finally, we review the effects of bone morphogenetic protein-7 on vascular calcification in an animal model, a potential complication of this therapy given its osseous morphogenetic effect.
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PMID:Bone morphogenetic protein-7: an anti-fibrotic morphogenetic protein with therapeutic importance in renal disease. 1175 84

A number of novel genes that are up-regulated in diabetic kidneys have been identified. Recently, transforming growth factor-beta (TGF-beta)--driven secreted proteins, i.e., connective tissue growth factor (CTGF) and gremlin, were identified. They are up-regulated in kidneys of diabetic animals and modulate the biology of mesangial cells. CTGF mediates TGF-beta--induced matrix overproduction by the mesangial cells. Gremlin is a putative antagonist of bone morphogenetic protein-2 that blocks mesangial cell proliferation. Thus, gremlin may modulate the biology of mesangium by stimulating mesangial cell proliferation and in turn production of matrix. In addition, transcriptionally regulated kinases, serum glucocorticoid-regulated kinase and munc-13 have been identified. The former stimulates renal tubular Na+ transport and is involved in hyperfiltraion of diabetic kidneys by a Na+ transport feedback mechanism. Munc-13 has been shown to induce apoptosis in hyperglycemic state via diacylglycerol-activated, PKC-independent signaling pathway. Another pathway relevant to diabetic nephropathy is polyol pathway, where glucose is reduced to sorbitol by aldose reductase. Recently, a renal-specific reductase of the aldo-keto reductase family was isolated. It is up-regulated in diabetic mice, and this could serve as a suitable target for gene therapy in renal complications of diabetes. Several mitochondrial genome-encoded genes, such as, cytochrome oxidase and NADH dehydrogenase, are up-regulated in diabetic kidneys. A novel nuclear-encoded mitochondrial gene, i.e., translocase inner mitochondrial membrane 44 (Tim44), is up-regulated in diabetic kidneys, and it may also serve as another target for molecular therapeutic intervention at the core storage energy sites, i.e., mitochondria. In this review, these novel differentially regulated genes that respond to hyperglycemic stress are described, and they may serve as possible targets for gene therapy in the treatment of diabetic nephropathy.
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PMID:Gene expression and identification of gene therapy targets in diabetic nephropathy. 1184 17

Gremlin is a member of the differential screening-selected gene aberrative in the neuroblastoma (DAN) family of bone morphogenetic protein (BMP) antagonists. Gremlin influences diverse processes in growth, differentiation and development. Increased expression of gremlin has recently been demonstrated in several models of diabetic nephropathy. Gremlin arrests the cell cycle in mesangial cells and has also been shown to be upregulated in transdifferentiated renal proximal tubular cells. This review summarizes emerging evidence implicating gremlin in the pathophysiology of glomerulosclerosis and tubulointerstitial fibrosis. Gremlin is a potential novel therapeutic target in progressive renal diseases.
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PMID:Gremlins: is this what renal fibrogenesis has come to? 1209 27

The past two decades have yielded major advances in our understanding of the pathogenetic mechanisms that cause diabetic nephropathy. Of particular interest is the emerging paradigm of the recapitulation of developmental programmes within the diabetic kidney. Recently we have used the complementary techniques of suppression subtractive hybridization and Affymetrix GeneChips to assess changes in gene expression in human mesangial cells subjected to high ambient glucose concentrations and cyclic mechanical strain in vitro, the latter being models of hyperglycaemia and glomerular hypertension, respectively. In this review, we will focus on the potential role of one such differentially expressed gene, namely gremlin, in the pathogenesis of diabetic nephropathy. In the context of developmental nephrology, gremlin warrants special mention. Gremlin is a 184 amino acid protein and a member of the cysteine knot superfamily. The protein is highly conserved during evolution and is present in soluble and cell-associated forms. It belongs to a novel family of bone morphogenetic protein (BMP) antagonists that includes the head-inducing factor Cerberus and the tumour suppressor DAN. These proteins play important roles in limb development and neural crest cell differentiation. Evidence will be presented that mesangial cell gremlin expression is up-regulated by high ambient glucose, cyclic mechanical strain and transforming growth factor-beta (TGF-beta) and that gremlin may be an important modulator of mesangial cell proliferation and epithelial-mesenchymal transdifferentiation in a diabetic milieu.
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PMID:Gremlin: an example of the re-emergence of developmental programmes in diabetic nephropathy. 1238 93

Recently, a protein has emerged as a potential renotrophic factor: bone morphogenetic protein-7 (BMP-7). In a preventive protocol, BMP-7 treatment was found to significantly decrease renal injury in a rat model of ureteral obstruction (UUO), when treatment was initiated at the time of injury. Subsequent studies suggested that BMP-7 treatment also attenuated renal fibrosis when administered after renal fibrosis had begun. This treatment protocol was also found to increase significantly renal function from the levels measured in the vehicle-treated group. BMP-7 also partially reversed the diabetic nephropathy induced in rats by a single dose of streptozotocin. It restored glomerular filtration rate (GFR), decreased the excretion of protein, and restored histology towards normal. These studies also highlight the value of histological parameters as indicators of renal function and the potential of renal homeostatic factors in the treatment of kidney disease.
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PMID:The bone morphogenetic proteins (BMPs). Their role in renal fibrosis and renal function. 1276 64

Over the next decade, the number of patients with end-stage renal disease (ESRD) treated by dialysis may double, and even developed nations will have difficulty in coping with this alarming increase. This review will outline the proven and unproven strategies that have the potential to retard the progression of chronic kidney disease (CKD). Recently, a number of randomised clinical trials have demonstrated the efficacy of several strategies to slow the progression of CKD. Proven strategies include adequate blood pressure control (with angiotensin blockade), and for diabetic nephropathy good glycaemic control. Other potentially beneficial strategies include smoking cessation, lipid control and aldosterone blockade. The early institution of these strategies has the potential to regress established CKD as well as improve the long-term cardiovascular outcomes of these patients. Proof of the efficacy in humans of promising experimental approaches, such as the administration of growth factors (e.g., recombinant bone morphogenetic protein-7), anti-fibrotic agents (e.g., pirfenidone) and novel anti-proteinuric drugs (e.g., pentosan polysulphate), is awaited. Finally, the primary prevention of CKD, at least in part, by the eradication of type 2 diabetes and obesity (through improvement of lifestyle factors), and adequate treatment of hypertension, have the potential to eliminate up to half of the most common causes of CKD (or ESRD) in developed countries.
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PMID:Retardation of kidney failure -- applying principles to practice. 1572 15

Renal disease is common in sickle cell anemia. In this exploratory work, we used data from a longitudinal study of the natural history of sickle cell disease to examine the hypothesis that polymorphisms (SNPs) in selected candidate genes are associated with glomerular filtration rate (GFR). DNA samples and clinical and laboratory data were available for 1,140 patients with sickle cell anemia. GFR was estimated using the Cockcroft-Gault and Schwartz formulas for adults and children, respectively. We examined approximately 175 haplotype tagging (ht) SNPs in about 70 genes of the TGFbeta/BMP pathway for their association with GFR using linear regression. Four SNPs in BMPR1B, a bone morphogenetic protein (BMP) receptor gene, yielded statistically significant associations (P values ranging from 0.015 to 0.046). Three haplotypes in this gene were also associated with GFR. The TGF-beta/BMP pathway has been associated with the development of diabetic nephropathy, which has some features in common with sickle cell nephropathy. Our results suggest that, as with other subphenotypes of sickle cell disease, renal function may be genetically modulated.
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PMID:Estimated glomerular filtration rate in sickle cell anemia is associated with polymorphisms of bone morphogenetic protein receptor 1B. 1703 27

The present study was designed to observe the expressions of bone morphogenetic protein-7 (BMP-7) and inhibitory Smads in kidney of rats with diabetic nephropathy (DN), and explore the possible mechanism of DN. Male Wistar rats weighing 180-220 g were single injected with streptozocin (STZ, 55 mg/kg body weight) for 2, 4, 8 and 16 weeks to induce DN. Blood glucose, kidney weight/body weight and 24-hour urine protein in the control and DN rats were examined; the expressions of BMP-7, Smad6 and Smad7 were detected by using immunohistochemical techniques, Western blot and real-time PCR. The results showed that blood glucose and 24-hour urine protein in DN rats were higher than that in the control rats and kidney weight/body weight was also elevated in DN rats, especially in 16-week STZ-induced rats. The expressions of BMP-7 and Smad6 proteins in DN rats were elevated, while BMP-7 mRNA expression was increased 2 weeks after STZ injection and decreased 16 weeks after STZ injection. The expressions of Smad7 protein and mRNA were elevated in DN rats 2 weeks after STZ injection and decreased 16 weeks after STZ injection. In addition, the expressions of transforming growth factor-beta1 (TGF-beta1) and collagen type I (COL-I) mRNA were increased in DN rats. These results suggest in the early stage of DN, increase in BMP-7 and inhibitory Smad expression may play a role in the feedback regulation and restrain the development of DN.
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PMID:[Changes of bone morphogenetic protein-7 and inhibitory Smad expression in streptozotocin-induced diabetic nephropathy rat kidney]. 1743 42

DN (diabetic nephropathy) is the leading cause of end-stage renal disease worldwide and develops in 25-40% of patients with Type 1 or Type 2 diabetes mellitus. Elevated blood glucose over long periods together with glomerular hypertension leads to progressive glomerulosclerosis and tubulointerstitial fibrosis in susceptible individuals. Central to the pathology of DN are cytokines and growth factors such as TGF-beta (transforming growth factor beta) superfamily members, including BMPs (bone morphogenetic protein) and TGF-beta1, which play key roles in fibrogenic responses of the kidney, including podocyte loss, mesangial cell hypertrophy, matrix accumulation and tubulointerstitial fibrosis. Many of these responses can be mimicked in in vitro models of cells cultured in high glucose. We have applied differential gene expression technologies to identify novel genes expressed in in vitro and in vivo models of DN and, importantly, in human renal tissue. By mining these datasets and probing the regulation of expression and actions of specific molecules, we have identified novel roles for molecules such as Gremlin, IHG-1 (induced in high glucose-1) and CTGF (connective tissue growth factor) in DN and potential regulators of their bioactions.
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PMID:Regulation and consequences of differential gene expression in diabetic kidney disease. 1879 65


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