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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-dependent diabetic patients with increased urinary albumin excretion are characterized by elevated blood pressure and declining kidney function. In addition, such patients have a high risk of atherosclerotic vascular disease, proliferative retinopathy, and cardiomyopathy, suggesting that albuminuria is a marker of widespread vascular dysfunction. Increased transport of macromolecules across the vascular wall, elevated plasma levels of von Willebrand factor, and impaired fibrinolytic capacity have been demonstrated in albuminuric patients. The cause of this vascular vulnerability in susceptible patients is unknown, but increasing evidence has suggested that loss of the proteoglycan heparan sulfate in the vasculature may explain the widespread nature of the disease. Heparan sulfate is important for the glomerular endothelial cell and basement membrane charge densities, the anticoagulant properties of the vessel wall, and the growth regulation of intimal smooth muscle cells. Recent studies have shown that heparin increases the biosynthesis of heparan sulfate in endothelial cell cultures and prevents the characteristic glomerular basement membrane thickening when given to diabetic rats. Moreover, heparin has been shown to reduce albuminuria in patients with incipient diabetic nephropathy. Although increasing evidence supports the hypothesis that loss of heparan sulfate may play a pathophysiological role in the development of diabetic vascular complications, there are still many unresolved problems. What are the mechanisms of action of glycosaminoglycans at the molecular biology level, and how can we select compounds without anticoagulant activity suitable for long-term use in the prevention and treatment of late diabetic complications?
Diabetes 1997 Sep
PMID:Pathogenesis of diabetic vascular disease: evidence for the role of reduced heparan sulfate proteoglycan. 928 8

The core protein of the proteoglycan decorin binds and neutralizes transforming growth factor-beta (TGF-beta). Activation of TGF-beta is crucial to tissue injury in diabetic nephropathy, but it is not currently known whether decorin plays a role in this disease. Mouse kidney cortex demonstrates more than a twofold increase in decorin mRNA after 1, 2, 3, and 6 wk of streptozotocin diabetes. Various mouse and rat renal cell types are studied in culture under normal or high-glucose conditions. Mouse glomerular mesangial and proximal tubular epithelial cells constitutively express decorin, and high glucose (450 mg/dl) increases decorin mRNA fourfold compared with 100 mg/dl glucose. Unlike rat mesangial cells, rat glomerular epithelial and endothelial cells do not constitutively express decorin, and no induction is observed in high glucose. When mouse mesangial and proximal tubular cells are exposed to TGF-beta1 (1 ng/ml), decorin mRNA is significantly decreased. Our findings suggest that the increased decorin expression in the diabetic kidney may counteract the hypertrophic and prosclerotic effects of increased TGF-beta levels and that a negative feedback loop may exist between decorin and TGF-beta.
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PMID:Increased decorin mRNA in diabetic mouse kidney and in mesangial and tubular cells cultured in high glucose. 981 41

Our purpose was to elucidate the hypothesis that paracrine-produced transforming growth factor (TGF)-beta1 regulates the accumulation of extracellular matrix (ECM) in renal glomeruli, a hallmark of diabetic nephropathy. To produce TGF-beta1 from the juxtaglomerular apparatus in mouse kidneys, we cloned a mouse Ren-1c promoter fragment (-4.100 to +6 base pairs) upstream of porcine TGF-beta1 (pTGF-beta1) cDNA, mutated to ensure secretion of biologically active TGF-beta beta1. The resulting transgenic mice had significantly more TGF-beta1 in their kidneys than was in those of nontransgenic controls, as confirmed by immunohistochemistry, and the production of TGF-beta1 was enhanced in vivo by captopril-induced stimulation of the Ren-1c promoter. Overproduction of pTGF-beta1 close to the glomerulus resulted in a local accumulation of ECM, composed partly of collagen type IV and laminin, and thickening of the basement membrane, characteristic features of diabetic nephropathy. Interstitial accumulation of ECM and signs of tubular atrophy were present only in older mice (>5 months of age). Results from in situ hybridization and immunohistochemistry suggest that pTGF-beta1 stimulated the production of endogenous TGF-beta1 along collecting ducts and connecting tubules. The increased amount of biologically active TGF-beta1, transgenic as well as endogenous, was corroborated by heightened proteoglycan synthesis from incubated kidney slices. This transgenic model demonstrates that sustained local expression of TGF-beta1 leads to glomerulopathy. We conclude that autocrine- or paracrine-produced TGF-beta1 may play a role in the development of glomerular diseases, such as diabetic nephropathy.
Diabetes 1999 Jan
PMID:Under control of the Ren-1c promoter, locally produced transforming growth factor-beta1 induces accumulation of glomerular extracellular matrix in transgenic mice. 989 41

The small proteoglycan decorin may intercept the activity of the TGF-beta system. Decorin administration has been advocated as potential therapy in renal fibrotic diseases, because of the findings of a relative deficiency of decorin and a relative excess of TGF-beta in acute glomerulonephritis. Does a similar situation pertain in diabetic kidney disease? Activation of TGF-beta seems to be crucial to tissue injury in diabetic nephropathy, but until recently it has not been established whether decorin plays any role in the manifestations of this disease. We review evidence that a surfeit rather than a deficit in decorin expression exists in diabetic renal disease, and that there exists a negative feed-back loop whereby TGF-beta1 induces down-regulation of decorin expression. Rat and mouse mesangial cells as well as mouse proximal tubular cells in culture exhibit increased decorin mRNA levels in high ambient glucose. Decorin mRNA level in the kidney of streptozotocin-induced diabetes in mice is rapidly and significantly increased following the induction of diabetes. Thus, the available evidence suggests that renal decorin is not deficient in this disorder and hence decorin supplementation does not seem to be warranted. Rather, interception of the effects of TGF-beta seems to be an approach most likely to yield beneficial results in diabetic nephropathy.
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PMID:What is the role of decorin in diabetic kidney disease? 1034 40

The increased susceptibility to atherosclerosis of diabetic individuals, may result from diabetes-associated modification in plasma low density lipoproteins (LDL) which enhance their interaction with arterial extracellular matrix proteoglycans. Using a nonhuman primate model for human diabetes, studies were conducted to examine diabetes-induced changes in LDL. Plasma LDL were isolated from control (n = 4) and streptozotocin-induced diabetic (n = 3) cynomolgus macaques by differential ultracentrifugation. An in vitro binding assay was used to measure LDL interaction with arterial proteoglycans. Significantly more diabetic LDL bound to proteoglycans than control LDL (12.9+/-0.7 microg LDL cholesterol/microg proteoglycan versus 8.9+/-0.5 microg LDL cholesterol/microg proteoglycan (mean +/- S.E.M.), P < 0.005). Glycation of LDL, determined by fructosamine content, was significantly enhanced in diabetic versus control animals (37+/-3.1 versus 20+/-1.5 micromol/l (mean +/- S.E.M.) P < 0.005). The correlation coefficient between fructosamine content of LDL and its binding to arterial proteoglycans was 0.95. No LDL compositional variables other than glycation correlated with proteoglycan binding. Removal of the glycated portion of LDL from diabetic animals returned LDL proteoglycan binding to normal. These data demonstrate that the diabetes induced glycation of LDL increases its proteoglycan binding properties: thus, a critical mechanism in atherosclerosis, enhanced LDL interaction with arterial proteoglycans, may be accelerated by the diabetic state.
Diabetes Res Clin Pract 1999 Oct
PMID:Glycation of plasma low density lipoproteins increases interaction with arterial proteoglycans. 1058 Jun 10

The progression of bladder cancer to invasive disease is highly dependent on its ability to penetrate basement membrane of urothelium. Studies on diabetic nephropathy have shown a reduction in proteoglycan content of the glomerular basement membrane. Based on the well-known fact that proteoglycans are one of the main components of basement membrane and extracellular matrix we assessed the relationship between diabetes mellitus, bladder cancer incidence and its behavior. These studies include 252 patients with microscopically confirmed transitional cell carcinoma of bladder, and 549 patients with other urological disorders who served as controls. The prevalence of diabetes mellitus in each group was assessed. The group of patients suffering from transitional cell carcinoma was divided according to etiological risk factors such as cigarette smoking, diabetes and patients that were non-smokers and did not suffer from diabetes mellitus. We assessed the features of bladder cancer behavior in each group. Logistic regression model estimation for statistical analysis was used, with transitional cell carcinoma as a dependent binary variable and age, sexes smoking and diabetes as independent variables. Statistical significance was considered at two levels: p <or=0.001 and p <or=0.05. Odds ratio (OR) adjusted to age, sex, cigarette smoking, diabetes mellitus and 95% Confidence Interval (CI) were calculated for TCC. In the TCC group 22.2% of the patients suffered from diabetes mellitus. In the control group 10.38% suffered from diabetes mellitus. Logistic regression analysis, OR and 95% CI showed a statistically significant relationship between diabetes and TCC. These data are comparable only with smoking (OR 2.3; 95% CI 1.6 3.5 and OR 1.58; 95% CI 1.08 2.4 correspondingly). Based on these data we suggest that diabetes mellitus may be considered an etiological risk factor for bladder cancer development.
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PMID:Increased incidence of diabetes mellitus in the patients with transitional cell carcinoma of urinary bladder. 1134 22

Insulin resistance and type 2 diabetes are associated with elevated circulating levels of insulin, nonesterified fatty acids (NEFAs), and lipoprotein remnants. Extracellular matrix proteoglycan (PG) alterations are also common in macro- and microvascular complications of type 2 diabetes. In liver, extracellular heparan sulfate (HS) PGs contribute to the uptake of triglyceride-rich lipoprotein remnants. We found that HepG2 cells cultured with 10 or 50 nmol/l insulin or 300 micromol/l albumin-bound linoleic acid changed their PG secretion. The glycosaminoglycans (GAGs) of the secreted PGs from insulin-treated HepG2 cells were enriched in chondroitin sulfate (CS) PGs. In contrast, cells exposed to linoleic acid secreted PGs with decreased content of CS. Insulin caused a moderate increase in mRNA for versican (secreted CS PG), whereas linoleic acid markedly decreased mRNA for versican in HepG2 cells, as did the peroxisomal proliferator-activated receptor-alpha agonist bezafibrate. The effects of insulin or linoleic acid on syndecan 1, a cell surface HS PG, were similar to those on versican, but less pronounced. The livers of obese Zucker fa/fa rats, which are insulin-resistant and have high levels of insulin, NEFAs, and triglyceride-rich remnants, showed increased expression of CS PGs when compared with lean littermates. These changes in PG composition decreased the affinity of remnant beta-VLDL particles to PGs isolated from insulin-treated HepG2 cells and obese rat livers. The results indicated that insulin and NEFAs modulate the expression of PGs in hepatic cells. We speculate that in vivo this exchange of CS for HS may reduce the clearance of remnant beta-VLDLs and contribute to the dyslipidemia of insulin resistance.
Diabetes 2001 Sep
PMID:Changes in matrix proteoglycans induced by insulin and fatty acids in hepatic cells may contribute to dyslipidemia of insulin resistance. 1152 80

Type I collagen is the most abundant protein in humans, and it helps to maintain the integrity of many tissues via its interactions with cell surfaces, other extracellular matrix molecules, and growth and differentiation factors. Nearly 50 molecules have been found to interact with type I collagen, and for about half of them, binding sites on this collagen have been elucidated. In addition, over 300 mutations in type I collagen associated with human connective tissue disorders have been described. However, the spatial relationships between the known ligand-binding sites and mutation positions have not been examined. To this end, here we have created a map of type I collagen that includes all of its ligand-binding sites and mutations. The map reveals the existence of several hot spots for ligand interactions on type I collagen and that most of the binding sites locate to its C-terminal half. Moreover, on the collagen fibril some potentially relevant relationships between binding sites were observed including the following: fibronectin- and certain integrin-binding regions are near neighbors, which may mechanistically relate to fibronectin-dependent cell-collagen attachment; proteoglycan binding may potentially impact upon collagen fibrillogenesis, cell-collagen attachment, and collagen glycation seen in diabetes and aging; and mutations associated with osteogenesis imperfecta and other disorders show apparently nonrandom distribution patterns within both the monomer and fibril, implying that mutation positions correlate with disease phenotype. These and other observations presented here may provide novel insights into evaluating type I collagen functions and the relationships between its binding partners and mutations.
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PMID:Mapping the ligand-binding sites and disease-associated mutations on the most abundant protein in the human, type I collagen. 1170 82

Proteoglycans are ubiquitous extracellular proteins that serve a variety of functions throughout the organism. Unlike other glycoproteins, proteoglycans are classified based on the structure of the glycosaminoglycan carbohydrate chains, not the core proteins. Perlecan, a member of the heparan sulfate proteoglycan (HSPG) family, has been implicated in many complications of diabetes. Decreased levels of perlecan have been observed in the kidney and in other organs, both in patients with diabetes and in animal models. Perlecan has an important role in the maintenance of the glomerular filtration barrier. Decreased perlecan in the glomerular basement membrane has a central role in the development of diabetic albuminuria. The involvement of this proteoglycan in diabetic complications and the possible mechanisms underlying such a role have been addressed using a variety of models. Due to the importance of nephropathy among diabetic patients most of the studies conducted so far relate to diabetes effects on perlecan in different types of kidney cells. The various diabetic models used have provided information on some of the mechanisms underlying perlecan's role in diabetes as well as on possible factors affecting its regulation. However, many other aspects of perlecan metabolism still await full elucidation. The present review provides a description of the models that have been used to study HSPG and in particular perlecan metabolism in diabetes and some of the factors that have been found to be important in the regulation of perlecan.
Diabetes Metab Res Rev
PMID:Heparan sulfate proteoglycans in experimental models of diabetes: a role for perlecan in diabetes complications. 1175 76

The pathomechanism of neuropathies associated with diabetes and chronic liver diseases are poorly understood. Both metabolic and vascular factors are involved in the pathogenesis of diabetic neuropathy. It seems likely, that microangiopathy on the one hand and changes of various metabolic pathways due to hyperglycaemia on the other hand are much more related to each other than it was suggested previously. Nitric oxide may be the link between the metabolic and vascular hypotheses of diabetic neuropathy. Both reduced endoneurinal blood flow and increased oxidative stress leads to reduced nitric oxide synthetase activity. There are widespread inter-relationships between the most relevant metabolic changes included polyol pathway hyperactivity, reduced myoinosit concentration, advanced glycation end products formation, increased oxidative stress and lipid peroxidation. Changes of hemorheological conditions and primary hemostasis leeds to hyperviscosity just as to increased activity of the coagulation system. Among patients with chronic alcoholic liver diseases the direct toxic effect of alcohol is of particular relevance, however, malabsorption, impairment of axoplasmatic transport, changes of intermedier metabolism as well as thiamine and pyridoxine deficiency are of importance as well. The role of decreased insulin sensitivity and various degrees of glucose intolerance related to chronic liver diseases are still underestimated. Impairment of proteoglycan metabolism as well as increased oxydative stress are thought to be important factors in the pathogenesis of both diabetic and hepatic neuropathies. Glucose autooxidation and enhanced lipid peroxidation contribute to increased oxidative stress in patients with diabetes and chronic liver diseases as well. Vitamin E deficiency, autoimmun processes, circulating immune complexes, cryoglobulinemia, just as changes of vascular responsiveness associated with nitric oxide activity plays a role in the development of neural damage of hepatic origin. Most likely, similarly to diabetes mellitus, vascular changes contribute to the development of neuropathy in patients with chronic liver diseases.
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PMID:[The pathogenesis of diabetic and hepatic neuropathies]. 1177 53


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