UMLS:C0011881 - FACTA Search

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

A review of rat pancreatic transplantation conducted at Meikai University is presented. It was found that pancreas transplantation normalized the endocrine based metabolic disturbances of diabetes. Arginine-induced serum insulin, glucagon, and somatostatin responses in the grafted pancreas were similar to those in normal pancreas. Urine amylase was found to be a more sensitive marker in graft rejection as compared with blood glucose using a urinary drainage model. The value of pancreas transplantation in diabetic nephropathy was dependent upon the timing of the transplantation; performed early in the course of diabetes (less than 4 months, post-diabetes), it was able to reverse the nephropathy.
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PMID:Experience in rat pancreas transplantation at Meikai University. 219 26

To evaluate effects of acute loading of different proteins on renal function, glomerular filtration rate (GFR), albumin excretion rate (AER), and concentrations of plasma amino acids, 11 normal volunteers and 20 diabetic patients were studied before and after eating 1.0 g/kg body weight of either tuna fish meal or bean curd on separate days. In normal subjects, the mean baseline GFR was 115.8 +/- 9.5 ml/min/1.73 m2, and the mean GFRs after ingestion of tuna fish meal were 134.1 +/- 15.5 (1 hr), 146.2 +/- 18.8 (2 hr), and 157.8 +/- 21.2 (3 hr), respectively. GFR did not significantly increase in normal subjects after ingestion of bean curd. GFR in diabetic patients with normoalbuminuria after ingestion of each protein was similar to the response in normal subjects. In diabetic patients with microalbuminuria, GFR did not significantly increase after ingestion of each protein. In diabetes with macroalbuminuria, GFR decreased after ingestion of tuna fish meal and did not significantly change after intake of bean curd. In both normal subjects and diabetic patients, urinary AER did not increase after each kind of protein loading. Plasma concentrations of alanine, glycine, and arginine, known to induce glomerular hyperfiltration, increased to a greater degree after ingestion of tuna fish meal than after administration of bean curd. These findings suggest that responses of GFR to acute protein loading may differ according to the amino acid composition of the protein ingested and to the stage of diabetic nephropathy.
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PMID:Effects of acute protein loads of different sources on renal function of patients with diabetic nephropathy. 260 33

Abnormalities in extracellular matrix degradation may play a pathogenetic role in diabetic nephropathy. Cultured renal mesangial cells are known to synthesize increased amounts of matrix proteins when incubated in high glucose media (e.g., 30 mmol/l). However, the effect of glucose loading on degradative enzymes is unknown. Primary cultures of rat mesangial cells were grown until confluent in the presence of fetal calf serum (FCS) and insulin (0.67 U/ml). Cells were then cultured for 7 days in plastic wells in either 10 or 30 mmol/l glucose media containing neither FCS nor insulin. Collagenase activity in media were determined by zymography and quantitative spectrofluorometry. Cathepsin B and D activities in cell extracts were measured by spectrofluorometry (using the fluorescent substrate Z-Arg-Arg-7-amido-4-methylcoumarin) and 125I-labeled hemoglobin digestion, respectively. Gelatin-degrading activity of live mesangial cells was also determined. mRNA levels for collagenase IV, cathepsin B, and cathepsin D were determined by Northern analysis. A major band of collagenase activity with a molecular size of 72 kDa was observed in all mesangial cell media. Exposure of cells to high glucose media resulted in significant reductions in collagenase and cathepsin B activities as well as impairment in gelatin-degrading activity. Collagenase IV and cathepsin B and D mRNA levels were also decreased by glucose loading. To exclude the possibility that glucose loading was injurious to cells, 3H-leucine uptake (as a measure of protein synthesis) and membrane alkaline phosphatase activity (as a biochemical marker of viability) were not affected by the high glucose condition.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Decreased degradative enzymes in mesangial cells cultured in high glucose media. 762 99

Progression of diabetic nephropathy is now associated with intrarenal hemodynamic disorders (renal hyperperfusion, hyperfiltration, intraglomerular hypertension). The cause of these disorders is unclear. It is supposed that the relaxation factor which is produced by the vascular endothelium (endothelial relaxation factor-ERF) and an endogenous nitrogen oxide (NO) can cause the above intrarenal hemodynamic alterations in diabetes mellitus. The production of ERF/NO in 35 patients with insulin-dependent diabetes mellitus who had varying severities of diabetic nephropathies were examined. These included the following groups: 1) patients without diabetic nephropathy (n = 9); 2) those with incipient diabetes mellitus (n = 12), 3) those with severe diabetes mellitus (n = 14). From groups 1 and 2, 5 patients with hyperfiltration were identified, their glomerular filtration rate were more than 140 ml/ml. The ability of the cells to produce ERF/NO was indirectly estimated, by determining the levels of human platelet guanylate cyclase in the presence of L-arginine, a NO precursor, the accumulation of cGMP in the cells and plasma. When L-arginine was present, the activity of guanylate cyclase was virtually unchanged in Group 1, but it was substantially increased in Groups 2 and 3, by reaching its peak in patients with hyperfiltration (Group 4). The platelet and plasma levels of cGMP corresponded to the enhancement of guanylate cyclase activity in the presence of L-arginine and increased as diabetic nephropathy progressed. Thus, it is suggested that there is ERF/NO hyperproduction in patients at a high risk for diabetic nephropathy (those having hyperfiltration). ERF/NO is likely to promote the dilation of glomerular arterioles, which results in the development of hyperfiltration and intraglomerular hypertension, causing diabetic nephropathy progression.
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PMID:[Endothelial relaxation factor in the development of diabetic nephropathy]. 762 82

In a previous report, we detected the novel PSP-related protein in urine from a patient with diabetic nephropathy. This protein was different from PSP S1 and PSP S2-5 on the elution points of Mono S chromatography. To investigate the NH2-terminal sequence, we purified this protein by reverse phase chromatography and performed amino acid analysis. The results showed that the NH2-terminal sequence of this protein was one residue (arginine) longer than that of PSP S1.
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PMID:NH2-terminal sequence of novel pancreatic stone protein-related protein in human urine. 772 68

In diabetic nephropathy a major current concept for pathogenesis is increased collagen accumulation in the glomerulus by increased collagen synthesis and decreased degradation. In the present study, we tested the hypothesis whether arginine is able to influence kidney lipid peroxidation, glycoxidation, collagen accumulation, glucose-mediated cross-linking, hydroxy radical attack, protein oxidation, nitric oxide formation and albuminuria in the diabetic kk mouse. Ten diabetic kk mice were given arginine 50 mg/kg body weight, 10 diabetic kk mice were not treated and used as negative controls and 10 kk mice were kept as healthy controls. Our results show that oral administration of low-dose arginine reduces kidney collagen accumulation as reflected by kidney hydroxyproline, cross-linking as reflected by pentosidine, lipid peroxidation, glycoxidation as reflected by carboxymethyl lysine, kidney weight and albuminuria in the diabetic kk mouse. Albuminuria in untreated animals was closely correlated with lipid peroxidation. Our results in the spontaneously diabetic kk mouse representing type 2 diabetes mellitus therefore confirm and extend recent findings of collagen reduction by arginine in a different animal model. The mechanism of reducing proteinuria can be assigned to the blocking of lipid peroxidation products by L-arginine.
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PMID:Arginine reduces kidney collagen accumulation, cross-linking, lipid peroxidation, glycoxidation, kidney weight and albuminuria in the diabetic kk mouse. 904 44

To investigate the role of the Maillard reaction in the pathogenesis of diabetic complications, we produced several clones of monoclonal antibodies against advanced glycation end products (AGEs) by immunizing mice with AGE-modified keyhole limpet hemocyanin, and found that one clone (AG-1) of the anti-AGE antibodies reacted specifically with imidazolones A and B, novel AGEs. Thus, the imidazolones, which are the reaction products of the guanidino group of arginine with 3-deoxyglucosone (3-DG), a reactive intermediate of the Maillard reaction, were found to be common epitopes of AGE-modified proteins produced in vitro. We determined the erythrocyte levels of imidazolone in diabetic patients using ELISA with the monoclonal anti-imidazolone antibody. The imidazolone levels in the erythrocytes of diabetic patients were found to be significantly increased as compared with those of healthy subjects. Then we studied the localization of imidazolone in the kidneys and aortas obtained from diabetic patients by immunohistochemistry using the antibody. Specific imidazolone immunoreactivity was detected in nodular lesions and expanded mesangial matrix of glomeruli, and renal arteries in an advanced stage of diabetic nephropathy, as well as in atherosclerotic lesions of aortas. This study first demonstrates the localization of imidazolone in the characteristic lesions of diabetic nephropathy and atherosclerosis. These results, taken together with a recent demonstration of increased serum 3-DG levels in diabetes, strongly suggest that imidazolone produced by 3-DG may contribute to the progression of long-term diabetic complications such as nephropathy and atherosclerosis.
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PMID:Immunohistochemical detection of imidazolone, a novel advanced glycation end product, in kidneys and aortas of diabetic patients. 907 36

Abnormal renal diseases including nephrotic syndrome and chronic renal failure are associated with hyperlipidemia, significance of abnormal lipid metabolism has been thought to be limited in some inherited renal diseases. However, recent studies have postulated that glomerulosclerosis is induced by hyperlipidemia and is in common with atherosclerosis. This involvement is found in the progressive renal disorders, e.g., focal glomerular sclerosis, diabetic nephropathy and glycogen storage disease. Interaction between macrophages and mesangial cells may play an important role in such conditions. This evidence is supported by experimental models with hyperlipidemia. On the other hand, discovery and new hereditary metabolic disorders, such as type III hyperlipoproteinemia and lipoprotein glomerulopathy, shows that apolipoprotein (apo) E abnormalities are responsible for the glomerular lesions. Especially, lipoprotein glomerulopathy has specific features different from those of lipid-induced renal diseases. In this disease, apo E Sendai which results from new substitution (Arginine 145-->Proline) may induce intraglomerular lipoprotein thrombi characteristic of lipoprotein glomerulopathy.
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PMID:Abnormal lipid metabolism and renal disorders. 916 48

1. To investigate the role of nitric oxide (NO) in diabetic nephropathy the effect of nitric oxide synthase (NOS) inhibition by NG-nitro-L-arginine methyl ester (L-NAME) was observed in a streptozotocin diabetic spontaneously hypertensive rat (SHR) model. 2. Two groups of SHR (n = 8) with streptozotocin-induced diabetes were studied. One group was given L-NAME 5 mg/kg bodyweight per day in the drinking water for 8 weeks while both groups received daily subcutaneous injections of Ultratard insulin. Creatinine clearance, urinary protein excretion, urinary nitrate concentration and systolic blood pressure were measured at fortnightly intervals. Rats were killed at 8 weeks and plasma angiotensin II (AngII) was measured by radioimmunoassay. 3. Renal function (endogenous creatinine clearance) remained stable in both groups. In the L-NAME group, however, there was a progressive increase in proteinuria that was highly significant at 6 weeks (22.1 +/- 2.9 compared with 6.5 +/- 0.7 mg/ 24 h per 100 g in control SHR diabetic rats P < 0.001). 4. Systolic blood pressure was significantly elevated in the L-NAME group throughout the study compared with the control group. 5. Plasma AngII was significantly elevated in the L-NAME group compared with controls (42.8 +/- 10.3 vs 15.1 +/- 1.9 pmol/L, respectively; P < 0.05). 6. Activation of the renin-angiotensin system may account, at least in part, for the resulting vasoconstrictor activity with chronic nitric oxide depletion.
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PMID:Nitric oxide synthase inhibition in a spontaneously hypertensive rat model of diabetic nephropathy. 917 57

We produced a monoclonal antibody to imidazolones A and B, novel advanced glycation end products formed from the reaction of 3-deoxyglucosone (3-DG) with the guanidino group of arginine. Liquid chromatography/mass spectrometry demonstrated that the formation of imidazolone A by incubating 3-DG with arginine is very rapid, reaching a maximum concentration within 24 h, but the formation of imidazolone B is very slow and low in quantity even after 2 weeks. Thus, at physiological conditions the formation of imidazolone A is dominant, while that of imidazolone B is negligible. Immunochemistry demonstrated that the imidazolone content in the kidneys of streptozotocin-induced diabetic rats was significantly higher than in the control rats. Serum levels of 3-DG in the diabetic rats were also significantly higher than in control rats. 3-DG attacks the arginine residues of the tissue proteins, producing imidazolone at high levels in the kidneys affected by diabetic nephropathy.
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PMID:Imidazolone, a novel advanced glycation end product, is present at high levels in kidneys of rats with streptozotocin-induced diabetes. 917 72

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