Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Brattleboro rats homozygous for hypothalamic hereditary diabetes insipidus (DI rats) were used to investigate the following questions: a) Do exogenous and endogenous angiotensin II (AII) have an antidiuretic effect in diabetes insipidus? b) Does AII mediate the antidiuresis induced by furosemide? The following results were obtained: 1. AII (5 mg/kg s.c. in oil) and furosemide (50 mg/kg i.p.) decreased urine flow and increased urinary sodium excretion. Furosemide led to a two-fold increase of AII plasma concentrations and a decrease of plasma sodium levels. 2. SQ 14 225 (2 x 2.5 mg/kg p.o.), an angiotensin I-converting enzyme inhibitor, led to an increase of urine flow and to a slightly elevated urinary sodium excretion. 3. When the formation of AII was blocked by SQ 14 225 (2 x 2.5 mg/kg p.o.), AII plasma concentrations were 2.5-fold decreased, but furosemide still reduced urine flow. We conclude that plasma AII might have an antidiuretic action in DI rats. However, AII does not mediate the antidiuresis induced by furosemide.
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PMID:Inhibition of the renin-angiotensin-system in Brattleboro rats with hereditary hypothalamic diabetes insipidus. 21 21

To evaluate the relationship between urinary albumin excretion and left ventricular hypertrophy in essential hypertension, we studied, cross-sectionally, 64 subjects with essential hypertension and no diabetes. Urinary albumin excretion and Sokolow index correlated significantly (r = 0.483; P = 0.0001). Five subjects were positive for microalbuminuria (> 30 mg/24 h) and Sokolow index (> 35 mm); 43 were negative for both, with a concordance rate of 77 percent (chi-squared test 11.1; P = 0.0009). Stepwise multivariate regression analysis indicated two independent determinants for urinary albumin excretion: Sokolow index (F = 18.29), and diastolic blood pressure (F = 12.23). The relationships between urinary albumin excretion, Sokolow index, and blood pressure were not different in the 18 subjects taking angiotensin I-converting enzyme inhibitors and in the 46 others. The close relationship between urinary albumin excretion and Sokolow index observed in this study suggests that left ventricular hypertrophy due to hypertension may account for the increased cardiovascular mortality observed in non diabetic subjects with microalbuminuria.
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PMID:[Microalbuminuria and left ventricular hypertrophy in essential arterial hypertension. A study in non-diabetic patients]. 143 89

To test the effect of converting enzyme inhibition (CEI) on diabetes, with or without renal insufficiency, we studied streptozotocin-induced diabetic rats, with or without reduced renal mass, which were treated with insulin in sufficient amounts to maintain glucose values in the mild to moderately hyperglycemic range. We found that diabetes increased glomerular filtration rate (GFR) (inulin clearance, 2.3 +/- 0.5 ml/min vs 1.9 +/- 0.1 ml/min; p < 0.05) and blood pressure (137 +/- 15 mm Hg vs 116 +/- 6 mm Hg; p < 0.05) but did not increase plasma atrial natriuretic peptide (ANP) values, when compared with control rats (72 +/- 38 vs 68 +/- 24 pg/ml). CEI decreased GFR and blood pressure to control values. In rats with diabetes and concomitantly reduced renal mass, hypertension, elevated ANP values, proteinuria, and glomerulosclerosis were prominent features. CEI was associated with reduced blood pressure (172 +/- 17 mm Hg vs 138 +/- 15 mm Hg; p < 0.05), without a concomitant decrease in GFR (1.1 +/- 0.1 ml/min vs 1.1 +/- 0.1 ml/min). Further, CEI reduced the elevated ANP values (140 +/- 34 pg/ml vs 66 +/- 19 pg/ml; p < 0.05) to those of control rats. CEI reduced proteinuria by 50% and ameliorated the histopathologic changes. In separate experiments, rats with 5/6th nephrectomy and hypertension but without diabetes were also found to have elevated ANP levels that decreased to control values with CEI. The data speak for a renal protective effect of angiotensin I-converting enzyme inhibition in this model but do not support a specific role for ANP in the model of diabetes with concomitantly reduced renal mass.
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PMID:Effects of angiotensin-converting enzyme inhibition in diabetic rats with reduced renal function. 145 98

Capillary hypertension is suggested to be the underlying cause of microvascular disease affecting the kidney, the retina, and other organs and tissues in diabetic patients and animals. Hyperglycemia causes an expansion of extracellular volume, which induces a vasodilatory response. Hemodynamic adaptation to vasodilation leads to an increase in intracapillary hydraulic pressure, which subsequently causes vascular damage. In experimental animals, restoration of capillary pressure to normal levels by ingestion of a low-protein diet or administration of an angiotensin I-converting enzyme inhibitor has been shown to prevent microvascular damage in the kidney, and dietary protein restriction limits injury in the retina as well. Atrial natriuretic peptide, which is secreted by atrial myocytes in response to volume expansion, may be involved in mediation of the hemodynamic adaptation (vasodilatory response) that results in diabetic microvascular disease.
Diabetes Care
PMID:Influence of antihypertensive therapy on development and progression of diabetic glomerulopathy. 297 86

It has been recently reported that in type 1 diabetes the insertion/deletion (I/D) polymorphism of the angiotensin I-converting enzyme gene is associated with the presence of diabetic nephropathy. Tissue angiotensin I-converting enzyme is determined by I/D polymorphism, and it has been speculated that in diabetes differences of local angiotensin II availability determine the risk of renal disease. Since angiotensin II is thought to play an important role in the evolution of renal disease in general, we tested whether genotype distribution of the I/D polymorphism is also different in patients with immunoglobulin A-glomerulonephritis (IgA-GN). Furthermore we compared IgA-GN patients with (1) stable renal function or (2) terminal renal failure to investigate a potential role of the I/D polymorphism in the renal prognosis. We examined 122 patients with biopsy-confirmed IgA-GN who had stable renal function and 82 dialysis-dependent or transplanted patients with biopsy-confirmed IgA-GN. Furthermore, in 134 healthy individuals used as controls we analyzed the DNA for normal distribution of genotypes and allele frequencies. The polymorphic region was amplified using polymerase chain reaction with specific primers. Alleles were detected on 2% agarose gels. Genotype distributions and allele frequencies were not significantly different between controls and patients with IgA-GN and stable renal function. Furthermore, no significant difference in genotype distribution was detected between patients with IgA-GN and stable renal function compared with patients with IgA-GN and end-stage renal failure, although a trend for a higher frequency of DD-homozygotes was noted in the latter group (P = 0.07).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:No association of converting enzyme insertion/deletion polymorphism with immunoglobulin A glomerulonephritis. 748 24

Microalbuminuria indicates slightly elevated urinary albumin excretion. In most cases, microalbuminuria is of glomerular origin and indicates initial glomerulosclerosis. Microalbuminuria has a high predictive value for nephropathy in insulin-dependent diabetes subjects and for premature mortality due to cardiovascular disease in non-insulin-dependent diabetes subjects and in the general population. All cardiovascular risk factors can be determinants for microalbuminuria constitution, especially the genetic determinants of these risk factors. Thus, microalbuminuria can be an indicator to summarize renal or cardiovascular risk, or both, in various populations. Treatment interventions were performed using microalbuminuria as the endpoint. So far, the most convincing results were obtained with angiotensin I-converting enzyme inhibitors to prevent nephropathy in insulin-dependent diabetes subjects.
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PMID:Microalbuminuria. 780 56

The effect of the angiotensin I-converting enzyme (ACE) inhibitor benazepril (55 mg/kg orally) on the preservation of cardiac performance in diabetic-hypertensive Dahl S rats was investigated. Diabetes mellitus was produced by streptozotocin. Fasting (4-h) blood glucose levels were 279 +/- 50 mg/dL in diabetic Dahl salt-sensitive v 79 +/- 5 mg/dL in nondiabetic Dahl salt-sensitive rats. Cardiac performance was determined at the end of 8 weeks in an isolated perfused working heart apparatus. Peak left ventricular pressure (LVPmax), left ventricular peak negative dP/dt, and coronary flow were depressed in diabetic Dahl S rats (P < or = .05 v control). These deficits in cardiac function were not observed in diabetic Dahl S rats chronically treated with benazepril. The beneficial effects of benazepril apparently were independent of systolic blood pressure reduction. Although plasma ACE activity was increased in diabetic Dahl S rats, plasma renin activity was reduced. This suggests that the beneficial effects of ACE inhibition may be due to an effect upon the kinin system rather than the renin-angiotensin system. The benazepril-associated preservation of cardiac function in this study suggests that ACE inhibitors may be beneficial in the treatment of diabetic heart disease.
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PMID:Preservation of left ventricular function and coronary flow by angiotensin I-converting enzyme inhibition in the hypertensive-diabetic Dahl rat. 782 56

In search of genetic determinants of susceptibility to diabetic nephropathy, we examined the association between DNA sequence differences at the locus of angiotensin I-converting enzyme (ACE) and renal complications in 151 insulin-dependent diabetes mellitus (IDDM) patients with a diabetes duration of 16-21 years. This nested case-control study included 77 normoalbuminuric control subjects (albumin excretion rate < 30 micrograms/min) and 74 cases with evidence of nephropathy ranging from microalbuminuria to overt proteinuria. DNA from each of these patients was genotyped at the ACE locus by a three-allele restriction fragment-melting polymorphism (RFMP) (Dde I), which we described recently, and a two-allele insertion/deletion recognized as an Xba I restriction fragment-length polymorphism, which has been shown by other investigators to be associated with serum levels of ACE and with risk of myocardial infarction. The least common allele of the Dde I RFMP was significantly more frequent among cases with nephropathy than among normoalbuminuric control subjects (12.8 vs. 4.5%, P < 0.05). The deletion in the ACE gene was also more frequent in case than in control subjects (56.1 vs. 47.4%), but the difference was not statistically significant (P < 0.25) with this sample size. To determine the independence of these associations, the two polymorphisms were analyzed jointly to identify Xba I/Dde I haplotypes. As might be expected, carriers of the Xba I/Dde I '+ =' haplotype had a fourfold risk of developing diabetic nephropathy (odds ratio [OR] 4.0, 95% confidence interval [CI] 1.5-11.0). However, this did not explain all of the excess Xba I '+' allele among cases.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1994 May
PMID:Genetic predisposition to diabetic nephropathy. Evidence for a role of the angiotensin I--converting enzyme gene. 790 24

Because of the importance of bradykinin in improving heart function in some conditions or in enhancing glucose uptake by skeletal muscle, we investigated kininases in these tissues. In P3 fraction of the heart and skeletal muscles, angiotensin I-converting enzyme (ACE) and neutral endopeptidase 24.11 (NEP) are the major kininases, as determined first with specific substrates and second with bradykinin. ACE activity was highest in guinea pig heart (2.7 +/- 0.07 mumol.h-1.mg protein-1) but decreased in other species in this order: dog atrium, rat heart, dog ventricle, and human atrium. The specific activity of NEP was lower: 0.45 mumol.h-1.mg protein-1 in cultured neonatal cardiac myocytes and varying between 0.12 and 0.05 mumol.h-1.mg protein-1 in human, dog, rat, and guinea pig heart. In the skeletal muscle P3, ACE was most active in guinea pig and rat (1.2 and 1.1 mumol.h-1.mg protein-1, respectively) but less so in dog (0.09 mumol.h-1.mg protein-1). NEP activity was higher in dog P3 (0.28 mumol.h-1.mg protein-1) but lower in rat and guinea pig (0.19 and 0.1 mumol.h-1.mg protein-1, respectively). Continuous density gradient centrifugation enriched NEP activity in dog and rat (from 0.3 to 1.0 and 0.49 mumol.h-1.mg protein-1, respectively). Immunoprecipitation with antiserum to purified NEP proved the specificity of the rat enzyme. Bradykinin (0.1 mmol/l) was inactivated in the presence and absence of inhibitors by rat skeletal muscle NEP, as measured by high-performance liquid chromatography. Here, 36% of the activity was caused by NEP and 19% by ACE. In radioimmunoassay (bradykinin 10 nmol/l), 46 and 55% of kininase in rat and dog skeletal muscle P3, respectively, was due to ACE; 36 and 28%, respectively, was due to NEP. Aside from these enzymes, an aminopeptidase in rat P3 also inactivates bradykinin. Thus, in conclusion, heart and skeletal muscle membranes contain kininase II-type enzymes, but their activity depends on the species.
Diabetes 1996 Jan
PMID:Kininase II-type enzymes. Their putative role in muscle energy metabolism. 852 98

An insertion(I)/deletion(D) polymorphism in the angiotensin I-converting enzyme (ACE) gene seems to be associated with clinical heart disease in patients with diabetes mellitus. It is not known whether increased atherosclerosis or other factors among individuals with certain ACE-gene subtypes form the basis for the increased prevalence of heart disease among these subjects. We measured, at autopsy, the extent of macroscopically visible aortic atherosclerosis in 22 diabetic and 39 non-diabetic subjects and determined the ACE-genotype of all individuals by the polymerase chain reaction. The percentage of aortic surface area covered with atherosclerotic lesions was 29 +/- 8 (n = 6), 71 +/- 7 (n = 9), and 65 +/- 7 (n = 5) in the II-, ID-, and DD-genotype subgroups, respectively, among diabetes patients (mean +/- SEM) (2 p < 0.01, when comparing values from the ID and DD groups to the II group). The values were 37 +/- 9 (n = 11), 40 +/- 5 (n = 14) and 37 +/- 6 (n = 11) in the II-, ID-, and DD-genotypes in the non-diabetic group. There were no differences in sex ratio or age in any of the ACE-gene subtypes. The previously described relationship between heart disease and the ACE-gene polymorphism in diabetes could thus be founded in an increased extent of atherosclerosis among patients with the ID- and DD-ACE-gene subtypes. Patients with diabetes have several alterations in the composition of the collagenous components in the arterial wall. We also analysed for associations between total collagen and type IV and type V collagen content in the aortic vessel wall and the ACE-gene subtypes. We were, however, not able to disclose correlations between the polymorphism and any of these parameters. In conclusion, our data show an association between the ACE-I/D polymorphism and the degree of aortic atherosclerosis in diabetes; however, we did not observe correlations between the polymorphism and data concerning arterial collagenous components.
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PMID:Aortic atherosclerosis in diabetes mellitus is associated with an insertion/deletion polymorphism in the angiotensin I-converting enzyme gene. No relation between the polymorphism and aortic collagen content. 878 65


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