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)

To test the hypothesis that a high plasma prorenin can be used as an early marker of microvascular complications in patients with diabetes mellitus plasma prorenin was measured in 44 patients with urinary albumin excretion between 30 and 300 mg/24 h (microalbuminuria) and 120 patients with urinary albumin excretion below 30 mg/24 h (normoalbuminuria). A high plasma prorenin was associated with diabetic retinopathy, particularly the proliferative type, serum creatinine and the 24 h urinary albumin excretion rate. Plasma prorenin was not correlated with age, duration of diabetes, glycosylated hemoglobin, blood glucose, and blood pressure. The association between elevated plasma prorenin and retinopathy remained significant after adjustment for serum creatinine and albumin excretion. Independent of the presence or absence of microalbuminuria, the mean plasma level of prorenin was not above normal in patients without retinopathy and was 2 to 3 times normal in patients with proliferative retinopathy. Thus retinopathy appears to be an important determinant of abnormally high plasma prorenin. Angiotensin converting enzyme (ACE) was elevated in the patients with diabetes mellitus as compared to control subjects but the plasma levels of ACE in diabetics with normoalbuminuria was not significantly different from the group with microalbuminuria. Plasma prorenin was not associated with ACE. A plasma level of prorenin of 225 mU/L had a sensitivity of 0.84 and a specificity of 0.82 for detecting the presence of microalbuminuria.
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PMID:Plasma prorenin as an early marker of microvascular disease in patients with diabetes mellitus. 132 26

Captopril is a suitable drug to treat high blood pressure in diabetic patients. This Angiotensin-Converting Enzyme Inhibitor (ACEI) is a vasodilator without tachycardia and saline retention. Furthermore, captopril is one of antihypertensive drugs with less adverse effects. It does not induce metabolic changes, improves glucose tolerance and brake the evolution of renal insufficiency. About 50-60% of patients are under control (DBP < 90 mmHg) with captopril monotherapy. In the present paper, were included 64 women and 16 men with diabetes mellitus and mild-moderate hypertension, I-II phase WHO. The average age (mean +/- S.D.) was 66.6 +/- 9.2 years. All patients were treated with 25 mg/12 h of captopril, for one month. If blood pressure was not under control, captopril treatment enhanced to 50 mg/12 h during second month. After this period of two months, patients under control were got out of this study. 37 patients (46.25%) needed a second drug. In randomized form, 20 patients associated 25 mg HCTZ one time a day (CAP + HCTZ); and 17 patients associated 20 mg/12 h of nifedipine retard (CAP + NIF). The study continued for 4 months more. Both treatments reduced blood pressure in significant form without changes statistical significant in the heart rate, weight, glycemia, cholesterol, triglycerides, c-HDL, uric acid, creatinine, Na+ and K+ blood levels. CAP + HCTZ controlled (DBP < 90 mHg) 85% and CAP + NIF 81.25% of patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Captopril + hydrochlorothiazide versus captopril + nifedipine in the treatment of arterial hypertension in diabetes mellitus type II]. 143 67

A universal underlying abnormality in the pathogenesis of hypertension, atherosclerosis, myocardial dysfunction, and diabetic glomerulosclerosis involves alteration in smooth muscle cell structure, function, and growth. Angiotensin II, through its effects on contractility, growth, and the sympathetic nervous system, may potentially play a key role in this pathologic process and, thus, contribute to the development of these cardiovascular and renal complications of diabetes mellitus. Angiotensin-converting enzyme inhibitors and some direct renin inhibitors prevent or slow the progression of some of these complications, which further suggests a pathologic role for the reninangiotensin system in diabetes mellitus.
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PMID:Effect of the renin-angiotensin system in the vascular disease of type II diabetes mellitus. 158 Feb 75

Normotensive patients with insulin-dependent (type I) diabetes mellitus (n = 18) were given 25 mg captopril (b.i.d.) and placebo for 3 mo in a randomized double-blind crossover study. Patients had normal renal function, and none had retinopathy. Albuminuria was less than 20 micrograms/min in 12 patients and between 20 and 200 micrograms/min in the other 6. Patients were examined at the end of the placebo and captopril phases. Captopril caused little reduction in blood pressure obtained by 24-h ambulatory monitoring (systolic 126.0 +/- 2.7 to 123.9 +/- 2.4 mmHg, P less than 0.08; diastolic 74.2 +/- 1.9 to 72.1 +/- 1.9 mmHg, P less than 0.09). Captopril lowered glomerular filtration rate from 99.5 +/- 7.7 to 71.0 +/- 5.5 ml.min-1. 1.73 m-2 (P less than 0.01), whereas renal plasma flow (443.9 +/- 15.2 ml.min-1. 1.73 m-2) remained unchanged. Filtration fraction was reduced from 22.4 +/- 1.4 to 17.4 +/- 1.4% (P less than 0.01). Urinary albumin excretion was reduced from 59.1 +/- 0.15 to 27.7 +/- 13.9 micrograms/min (P less than 0.1). Reduction was related to the extent of initial albuminuria (r = 0.997, P less than 0.001), a relationship that remained significant after logarithmic transformation (r = 0.540, P less than 0.02). Dextran clearance was used to determine glomerular capillary function. Angiotensin inhibition caused reduction in effective glomerular pore size and also reduced flow via the nondiscriminatory shunt. Angiotensin inhibition in normotensive patients with type I diabetes was well tolerated. Reduction in albuminuria is mediated by a combination of hemodynamic changes and alterations in glomerular capillary function.
Diabetes 1992 Jan
PMID:Effect of angiotensin-converting enzyme inhibition on renal function and albuminuria in normotensive type I diabetic patients. 172 41

Kidney disease is a primary cause of morbidity and mortality in diabetic patients. Factors that predetermine development of nephropathy remain unknown. Poor glycemic control, insulin requirement, duration of diabetes and family history of hypertension appear to be associated with an increased risk. Arterial hypertension, which is twice as common in diabetic patients as in the normal population, accelerates the progression of diabetic nephropathy. The pathophysiologic mechanisms responsible for hypertension appear to be different in IDDM and NIDDM. In IDDM, hypertension occurs usually as a consequence of diabetic renal disease. Conversely, the pathogenesis in NIDDM appears to be multifactorial. In either condition, aggressive blood pressure control is the single most important intervention proven to retard the progression of nephropathy. A stepped-care approach similar to that for essential hypertension with slight modifications is indicated in the treatment of the hypertensive diabetic patient with nephropathy. Nonpharmacological therapy, including dietary protein restriction, should be used as first step. Selection of the ideal antihypertensive must be based not only on efficacy but also on its side effect profile. Angiotensin converting enzyme inhibitors and calcium antagonists have a low incidence of side effects and do not induce metabolic disturbances. Therefore, they are the agents of choice for patients who do not respond to nonpharmacological therapy alone. Thiazide diuretics and beta-blockers should be used as first line therapy only for specific indications. Antihypertensive therapy combined with good glycemic control and dietary protein restriction constitute the standard of care for diabetic patients with hypertension and renal disease.
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PMID:Hypertension and kidney disease of diabetes mellitus. 176 55

The pathogenesis of diabetic nephropathy remains elusive. A role for renal prostaglandins in antagonizing the hormonal effects of renin-angiotensin II has been postulated as a putative factor leading to hyperfiltration in patients with Type 1 (insulin-dependent) diabetes mellitus. Our aim was to elucidate the effects of angiotensin II on kidney haemodynamics and on blood pressure in eight normal subjects, in nine normotensive, in nine hypertensive with normal sodium-lithium countertransport activity in erythrocytes, in seven hypertensive without and in eight hypertensive Type 1 diabetic patients with microalbuminuria and with high sodium-lithium countertransport activity in erythrocytes. Angiotensin II infusion (4 ng.kg-1.min-1 for 60 min) decreased the glomerular filtration rate to a greater extent in normal subjects (-20%), than in normotensive patients (-5% p less than 0.01), in hypertensive patients with normal sodium-lithium countertransport activity in erythrocytes (-8% p less than 0.01) in hypertensive patients with high sodium-lithium countertransport (-6% p less than 0.01) and in hypertensive microalbuminuric patients (-5% p less than 0.01) with Type 1 diabetes. The urinary excretion rate of vasodilatory prostaglandins was two-three fold higher in all patients than in normal subjects. Acute indomethacin treatment restored a normal response to angiotensin II infusion in normotensive patients, but did not change the renal haemodynamic response in normal subjects. With regard to hypertensive patients with and without microalbuminuria indomethacin treatment restored a normal response to angiotensin II in some but not all patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Impaired response to angiotensin II in type 1 (insulin-dependent) diabetes mellitus. Role of prostaglandins and sodium-lithium countertransport activity. 193 64

Angiotensin converting enzyme (ACE) inhibitors, particularly enalapril and captopril, have been shown to decrease proteinuria in diabetic animals and human subjects. Since heparan sulfate proteoglycan confers a negative charge on the glomerular basement membrane, and either decreased synthesis or loss of this charge causes albuminuria in diabetic animals, we examined the possibility that enalapril prevents albuminuria through glomerular preservation of heparan sulfate in long-term diabetic rats. A total of 22 male Wistar rats were used in the study. Diabetes was induced in 15 rats by a single intraperitoneal injection of streptozotocin (60 mg/kg). The remaining 7 rats received buffer. One week following induction of diabetes, 8 diabetic rats were allowed to drink tap water containing enalapril at a concentration of 50 mg/liter; the remaining 7 diabetic and 7 nondiabetic rats were given only tap water. The drug treatment was continued for 20 weeks. Systolic blood pressure and 24-hr urinary excretion of albumin were measured at 2, 8, 16, and 20 weeks. At the end of 20 weeks, all rats were killed, kidneys were removed, and glomeruli were isolated by differential sieving technique. Total glycosaminoglycan and heparan sulfate synthesis was determined by incubating glomeruli in the presence of [35S]sulfate. Characterization of heparan sulfate was performed by ion-exchange chromatography. Systolic blood pressures were significantly lower in enalapril-treated diabetic rats compared to untreated diabetic rats. Diabetic glomeruli synthesized less heparan sulfate than glomeruli from nondiabetic rats. Also, glomerular heparan sulfate content of diabetics was significantly lower than that of nondiabetics. Further characterization of heparan sulfate showed that the fraction eluted with 1 M NaCl was significantly lower and the fraction eluted with 1.25 M NaCl significantly higher in diabetic than in normal rats. Enalapril treatment normalized not only glomerular synthesis and content but also various fractions of heparan sulfate in diabetic rats. Diabetic rats excreted increased quantities of heparan sulfate and albumin than nondiabetic rats. Enalapril therapy prevented both these increases in diabetic rats. These data suggest that enalapril treatment improves albuminuria through preservation of glomerular heparan sulfate and prevention of its urinary loss in diabetic rats.
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PMID:Enalapril improves albuminuria by preventing glomerular loss of heparan sulfate in diabetic rats. 201 5

Angiotensin carboxypeptidase (ACP) activity has been detected in urine samples from normal subjects and patients with hypertension and diabetes by determining the enzyme's ability to convert angiotensin I to des-Leu angiotensin I. Gel filtration chromatography of a concentrated urine sample indicated that about equal amounts of the enzyme exist as 100 kDa and 500 kDa molecular weight forms, respectively. This ACP activity co-eluted with activity that cleaved histidine from des-Leu angiotensin I to form angiotensin II and activity that cleaved tyrosine from benzyloxycarbonyl-glutamyl-tyrosine (ZGT). These results suggest that the urinary ACP activity is due to cathepsin A as we have reported previously for the porcine kidney enzyme. Analysis of sequential urine samples from a single individual over a 6-day period revealed as much as a 6-fold fluctuation in creatinine-normalized ACP activity. Of five male healthy adult subjects, the creatinine-normalized urinary ACP activity ranged from 1.7 to 3.7 mU/mL with a mean of 2.8 mU/mL. However, five male patients with renovascular hypertension had elevated levels of ACP activity with a mean of 11.6 mU/mL. Of five male patients with diabetic nephropathy, all had elevated ACP activity levels with a mean of 21.0 mU/mL. It is concluded that ACP activity in the urine is due to cathepsin A probably derived from kidney tissue, and that the release is increased in patients with kidney damage. We suggest that urinary ACP activity should be evaluated further for a possible relationship to renal hypertension and as a potentially early marker for diabetic nephropathy.
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PMID:Angiotensin carboxypeptidase activity in urine from normal subjects and patients with kidney damage. 201 86

Elevation of glomerular filtration rate (GFR) is a feature of diabetes mellitus in humans and in animal models. Angiotensin II has been implicated as a mediator of GFR in diabetes. The acute effect of inhibition of angiotensin converting enzyme with captopril on renal haemodynamic and endocrine parameters was therefore studied in 14 normotensive male Type 1 diabetic patients, and the responses compared with those in five normal male control subjects. Following captopril 12.5 mg orally the diabetic patients exhibited an acute fall in GFR from 122 +/- 3.8 to 113 +/- 4.5 ml min-1 1.73-m-2 (p less than 0.02) and a rise in renal plasma flow (RPF) from 670 +/- 57 to 797 +/- 46 ml min-1 1.73-m-2 (p less than 0.01) which resulted in a fall in filtration. This did not occur in normal control subjects. Natriuresis occurred only in normal control subjects. There was no change in urinary excretion of PGE2 or kallikrein in either group but excretion of 6-keto-PGF1 alpha fell in the diabetic patients. There was a significant correlation between glycosylated haemoglobin and baseline RPF (rs = -0.79, p less than 0.001) and filtration fraction (rs = 0.83, p less than 0.001) that persisted when the change in these variables following captopril was analysed. Our results are compatible with the response to ACE inhibition in diabetic patients being secondary to inhibition of angiotensin II and suggest that this response may be related to blood glucose control.
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PMID:Blood glucose control determines the renal haemodynamic response to angiotensin converting enzyme inhibition in type 1 diabetes. 213 98

1. To dissociate the effects on the development of diabetic renal injury of angiotensin converting enzyme (ACE) inhibition per se, and a reduction in systemic blood pressure, we have studied the effects of chronic ramapril treatment in streptozotocin diabetic spontaneously hypertensive rats, with modulation of the hypotensive effect by a high salt diet. 2. Three weeks following uninephrectomy and induction of diabetes with streptozotocin, spontaneously hypertensive rats were allocated to three treatment groups. Groups 1 and 2 received 1% sodium chloride and Group 3 water as drinking solution. Groups 2 and 3 received 0.4 mg/kg per day ramapril in drinking solution over the subsequent 2 month study period. 3. Sodium chloride drinking solution (1%) completely prevented any hypotensive effect of ramapril. Blood pressure was reduced in Group 3 rats over the entire period of study, when compared with Group 2 rats (P less than 0.001). 4. Urinary protein excretion progressively increased in Group 1 and 2 rats, and was significantly reduced (P less than 0.001) in Group 3. After 2 months treatment, urinary protein (expressed as mean and s.e.m.) was 160 +/- 30 mg/day in Group 1, 240 +/- 50 mg/day in Group 2, and 60 +/- 11 mg/day in Group 3. 5. Angiotensin converting enzyme inhibition per se was not associated with a reduced protein excretion in diabetic nephropathy, requiring concomitant control of systemic blood pressure to become renoprotective.
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PMID:High salt diet ameliorates effects of angiotensin converting enzyme inhibition in spontaneously hypertensive streptozotocin diabetic rats. 214 Mar 3


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