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:C0033687 (proteinuria)
24,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dahl salt-sensitive (S) rats fed a high salt diet develop hypertension, hyperlipidemia, and progressive renal disease. Previous studies have suggested that lipids may be important in the pathogenesis of glomerulosclerosis in Dahl S rats. To investigate this possibility, Dahl S rats fed 4% NaCl chow were treated chronically with the cholesterol synthesis inhibitor lovastatin. After 22 weeks, lovastatin-treated rats had a 38% reduction in serum cholesterol, a 76% reduction in urine albumin excretion, and one-sixth the incidence of focal glomerulosclerosis compared with vehicle-treated control rats. Blood pressure in lovastatin-treated rats was significantly (p < 0.05) lower than that in vehicle-treated rats both early in the study (4 weeks of treatment) and at the end of the protocol. Lovastatin had no effect on glomerular filtration rate or glomerular ultrafiltration dynamics. The efficacy of angiotensin converting enzyme inhibitors in attenuating proteinuria and experimental glomerular disease may be dependent on sodium intake. Thus, we also investigated the effects of long-term enalapril treatment on glomerular injury in Dahl S rats fed high salt chow. Enalapril treatment (50 or 200 mg/l drinking water) significantly lowered blood pressure in Dahl S rats, but did not significantly affect albuminuria or glomerulosclerosis. Enalapril also had no effect on glomerular hemodynamics. These results suggest that lipids may be important in the development of both glomerular disease and hypertension in Dahl S rats and that angiotensin converting enzyme inhibition may not affect the course of renal disease in a setting of high salt intake.
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PMID:Lovastatin but not enalapril reduces glomerular injury in Dahl salt-sensitive rats. 142 16

Hyperlipidemic Imai rats spontaneously develop hypercholesterolemia, proteinuria and glomerulosclerosis. We investigated the effect of enalapril, an angiotensin-converting enzyme (ACE) inhibitor, on spontaneous hypercholesterolemia and the progressive renal injury in this rat strain. Male Imai rats (n = 7) were treated with enalapril at a dose of 50 mg/l in drinking water starting at 6 weeks of age. Body weight, blood pressure, urinary protein excretion and serum constituents were checked and compared with untreated controls (n = 5) up to 38 weeks of age. Enalapril treatment significantly reduced hypercholesterolemia (247 +/- 41 vs. 102 +/- 13 mg/dl, p < 0.01, at 38 weeks) and proteinuria (766 +/- 290 vs. 206 +/- 119 mg/kg/day, p < 0.01, at 38 weeks). The glomerulosclerosis index (SI) was significantly higher in untreated control rats than in the enalapril-treated group (227 +/- 57 vs. 27 +/- 9, p < 0.01). Although we could not clarify whether hypercholesterolemia is a primary event or secondary to the nephrotic syndrome, these results indicate that the ACE inhibitor has the property to protect remnant glomeruli from glomerulosclerosis in male Imai rats as well as in other animal models in which focal and segmental glomerulosclerosis is believed to represent a common pathologic pattern. This rat strain represents a unique model of a spontaneous proteinuria which can provide an important information on the pathogenesis of human focal and segmental glomerulosclerosis.
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PMID:Angiotensin-converting enzyme inhibition attenuates hypercholesterolemia and glomerular injury in hyperlipidemic Imai rats. 143 45

Adriamycin induces proteinuria and glomerular changes in rats similar to those found in human focal segmental glomerulosclerosis (FSGS). Progression of this lesion may be slowed by use of angiotensin converting enzyme inhibition. To evaluate this we injected two groups of Sprague-Dawley rats with Adriamycin (2 intravenous doses of 2 mg/kg given at an interval of 3 weeks). One group of rats received enalapril (50 mg/l) in their drinking water. Control rats were injected with saline. After 28 weeks, the mean whole kidney glomerular filtration rate was significantly less and proteinuria and sclerotic index were significantly greater in rats receiving adriamycin compared with controls (P < 0.05). Administration of enalapril did not decrease proteinuria (545 +/- 398 mg/day vs 494 +/- 325 mg/day, P >0.05) or improve the glomerular filtration rate (0.31 +/- 0.18 ml/min per g kidney weight vs 0.41 +/- 0.21 ml/min per g, P = 0.27). However, treatment with enalapril significantly reduced the mean glomerular sclerotic index compared with untreated rats (1.62 +/- 0.88 vs 0.82 +/- 0.49, P = 0.05). Enalapril may be beneficial in preserving glomerular structure in this experimental model of FSGS.
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PMID:Effects of enalapril on adriamycin-induced nephrosis. 145 25

The hypothesis that converting enzyme inhibition and a protein-restricted diet could have additive antiproteinuric effects has been tested. A group of 17 patients with proteinuria in excess of 3 g/24 h per 1.73 m2 of body surface area were submitted to a 3-wk period of study, after a 4-wk wash-out period during which protein intake was 1.0 g/kg per day and in the absence of any medication. During the first and second weeks of the study, protein intake was lowered to 0.3 g/kg per day, and in the third week, it returned to 1.0 g/kg per day. Enalapril (20 mg daily) was administered during the second and third weeks of the study. Initially and at the end of each week thereafter, we determined blood pressure, GFR (inulin clearance), RPF (para-aminohippurate clearance), plasma sodium and potassium, PRA and aldosterone, and the 24-h urine excretion of sodium potassium, protein, and urea. The low protein intake during the first week induced a significant fall of proteinuria (P < 0.01), GFR (P < 0.01), and RPF (P < 0.01) in the absence of changes in filtration fraction. The addition of enalapril induced a further decrease of proteinuria (P < 0.01) and a fall in filtration fraction (P < 0.05), whereas plasma potassium, PRA, GFR, and RPF values increased (P < 0.01). The rise in protein intake during the last week of the study induced a significant rise in proteinuria, GFR, and RPF (P < 0.01), although the first of these parameters attained values significantly lower (P < 0.05) than those observed initially.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Additive antiproteinuric effect of converting enzyme inhibition and a low protein intake. 147 26

We examined whether the renal protective effect of the angiotensin I converting enzyme inhibitor enalapril in stroke-prone spontaneously hypertensive rats (SHRSP) is dose-related and associated with alterations in the urinary excretion of prostaglandin (PG) E2 and 6-keto-PGF1 alpha, a stable breakdown product of prostacyclin. Enalapril maleate at 1.5, 5 and 15 mg/kg/day or vehicle was chronically administered to saline-drinking SHRSP (six per group) starting at 8.1 weeks of age. Vehicle-treated SHRSP developed severe hypertension, proteinuria and strokes (age at death, 14 +/- 1 weeks; mean +/- S.E.). Enalapril prolonged survival dose-dependently and reduced proteinuria; all SHRSP given 15 mg/kg/day lived beyond 23 weeks of age without evidence of stroke or proteinuria. There was no effect of enalapril at any dose on systolic arterial blood pressure in spite of variable levels of urinary protein excretion and onset of stroke in the different groups. Likewise, urinary 6-keto-PGF1 alpha and PGE2 excretion did not differ among the groups except for an increase in 6-keto-PGF1 alpha in the 15 mg/kg/day group at one week after initiation of enalapril therapy. These results are consistent with a dose-related renal protective action of enalapril in saline-drinking SHRSP that is not closely associated with sustained alterations in urinary excretion of renal vasodilatory PGs.
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PMID:The antiproteinuric action of enalapril in stroke-prone spontaneously hypertensive rats is unrelated to alterations in urinary prostaglandins. 154 1

The effects of a nonselective beta-adrenergic blocking drug with beta-2 agonist activity (dilevalol 200 mg) on proteinuria and renal hemodynamics were evaluated in a double-blind crossover study versus an ACE inhibitor (enalapril 5 mg) in eight patients with glomerulonephritis, moderate renal function impairment and proteinuria greater than 1 g/24 hr. Patients were studied after a one week placebo phase while off all other medications, except steroids in a few cases, and after three weeks of treatment. A 10-day placebo washout perod was included between the various drug treatments. During each period renal hemodynamics were measured by clearance techniques, and urinary protein excretion as well as fractional clearance of albumin and IgG were determined. Both drugs reduced mean arterial pressure and proteinuria to a similar extent [mean arterial pressure: placebo 108 +/- 13 mm Hg; dilevalol 103 +/- 11 mm Hg (P less than 0.05); enalapril 103 +/- 12 mm Hg (P less than 0.05); protein excretion: placebo 5.1 +/- 4.2 g/day; dilevalol 3.3 +/- 3.0 g/day (P less than 0.05); enalapril 2.8 +/- 2.8 g/day (P less than 0.05)]. The antiproteinuric effect was greater with enalapril than dilevalol. Dilevalol reduced GFR [baseline inulin clearance: 73.3 +/- 38 ml/min/1.73 m2; after dilevalol: 63.3 +/- 28 ml/min/1.73 m2 (P less than 0.05)] and the decrease of proteinuria correlated positively with the reduction of GFR. Enalapril did not significantly lower the GFR (inulin clearance during enalapril 66.8 +/- 23 ml/min/1.73 m2) and the reduction of proteinuria did not correlate with the lowering of the GFR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal hemodynamics and reduction of proteinuria by a vasodilating beta blocker versus an ACE inhibitor. 161 45

The effect of enalapril on glomerular hemodynamics and permselectivity and on subsequent sclerosis was studied in male MWF/Ztm rats which spontaneously develop proteinuria and glomerular structural damage. Untreated group 1 and enalapril-treated group 2 (50 mg/liter, in the drinking water) underwent micropuncture studies after 2 mo of observation. After the same period of treatment, group 3 (untreated) and group 4 (enalapril treated) were used for determination of whole-kidney function and neutral dextran clearances. Group 5 (untreated) and group 6 (enalapril treated) were followed for an additional 4 mo and used for kidney function and morphological studies. Enalapril significantly lowered systolic blood pressure, which was elevated in untreated groups, and significantly reduced proteinuria (295 +/- 64 vs. 128 +/- 24 mg/24 h by the end of the study). Despite the reduced renal perfusion pressure, whole-kidney glomerular filtration rate was higher in enalapril-treated than in untreated rats (0.96 +/- 0.14 vs. 0.81 +/- 0.10 ml/min, P less than 0.05) as was the single nephron glomerular filtration rate (54 +/- 7.1 vs. 46 +/- 4.0 nl/min, P less than 0.05). The single glomerular afferent plasma flow was comparable in both groups. Enalapril reduced mean glomerular capillary hydraulic pressure from the normal value of 51 +/- 1 mmHg (untreated rats) to a value lower than normal (44 +/- 1 mmHg, P less than 0.001). These hemodynamic changes were associated with a significant reduction in afferent (approximately 23%) and efferent (approximately 26%) arteriolar resistance. The mean ultrafiltration coefficient was two times higher in the enalapril (0.126 +/- 0.027 nl/s per mmHg) than in the untreated group (0.061 +/- 0.023 nl/s per mmHg). The clearance of dextran macromolecules relative to that of inulin was significantly reduced for all molecular sizes studied (26-64 A) in enalapril-treated vs. untreated rats. Theoretical analysis of dextran fractional clearances using a heteroporous model of neutral solute transport across the glomerular capillary wall indicated that enalapril affected glomerular membrane size selective properties, reducing uniformly the radius of hypothetical membrane pores. Enalapril treatment also significantly limited (P less than 0.01) the development of glomerular structural lesions (mean percentage of sclerotic glomeruli was 4.2 +/- 3.5% [treated] vs. 28 +/- 15% [untreated] rats at the end of the study) as well as tubulo-interstitial damage. These results suggest that the protective effect of enalapril on the development of proteinuria and glomerular sclerosis in this model is due to its property of ameliorating size selectivity and hydraulic permeability of the glomerular capillaries.
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PMID:Angiotensin converting enzyme inhibition ameliorates glomerular filtration of macromolecules and water and lessens glomerular injury in the rat. 168 88

Enalapril is an effective agent in the treatment of mild to severe hypertension. It is equally effective in elderly and young adult patients but appears to be more effective in white than in black hypertensive patients. Following treatment with enalapril, an assessment of maximum exercise performance found a decrease in total peripheral resistance without significant changes in cardiac output, heart rate, or stroke volume compared with pretreatment values. In addition, there have been reports of reversal of left ventricular hypertrophy in enalapril-treated hypertensive patients. Enalapril is also effective and well tolerated in hypertensive patients with renal impairment of varying etiology. The most common adverse experiences reported in controlled clinical trials were headache (5.2%), dizziness (4.3%), and fatigue (3.0%). In high-risk hypertensive patients, no enalapril-treated neutropenia, proteinuria, dysgeusia, or ageusia were reported. It may be concluded that the benefit-to-risk ratio of enalapril is among the best of the antihypertensive therapies currently available.
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PMID:Enalapril: benefit-to-risk ratio in hypertensive patients. 169 15

The long-term effects of converting enzyme inhibitors and calcium channel blockers on proteinuria and the progression of renal disease in patients with hypertension and chronic renal insufficiency are not well established. We have studied the long-term effects of treating hypertension with an angiotensin-converting enzyme inhibitor, enalapril, and a calcium channel blocker, nicardipine, on urinary albumin excretion (UAE) and on renal function in 16 patients with hypertension and chronic renal insufficiency (creatinine clearance ranging between 17 and 62 ml/min). After 1 year of treatment, these agents caused a similar decrease in blood pressure. Only enalapril, however, caused a significant decrease in UAE (from 641 +/- 98 to 292 +/- 47 mg/24 h, p less than 0.01), whereas UAE did not change in the group treated with nicardipine (675 +/- 78 vs. 601 +/- 75 mg/24 h). Creatinine clearance at the beginning of the study was similar in the group treated with enalapril and in the group treated with nicardipine (35 +/- 3.6 vs. 40 +/- 4.1 ml/min). After 1 year of follow-up, creatinine clearance remained unchanged in both groups of patients. These studies demonstrate that both enalapril and nicardipine can effectively reduce blood pressure in patients with hypertension and chronic renal insufficiency. Enalapril but not nicardipine, however, appears to reduce urinary albumin excretion in these patients. Whether the reduction in UAE has any significant impact on the progression of renal disease remains to be established.
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PMID:Long-term effects of enalapril and nicardipine on urinary albumin excretion in patients with chronic renal insufficiency: a 1-year follow-up. 195 74

Both angiotensin-converting enzyme inhibitors and dietary protein restriction have been reported to reduce urinary protein losses in patients with chronic glomerular diseases. We evaluated these two therapies in 12 such patients ingesting a constant metabolic diet containing 1.6 g protein/kg body weight per day. After a steady-state was achieved during a 3-week baseline period, patients were randomly assigned to either enalapril, titrated to reduce mean arterial pressure by 10 mm Hg, or an isocaloric 0.8 g/kg protein diet. Five patients in each group completed 3 additional weeks of observation during the treatment period. Enalapril resulted in an average reduction in urinary protein and albumin losses of 26% and 33%, respectively, without reducing creatinine clearance. Albumin synthesis was unchanged and nitrogen balance increased slightly (+142.8 +/- 85.7 mmol/d [+2.0 +/- 1.2 g/d], P = 0.075). Dietary protein restriction had no consistent effect on proteinuria or albuminuria, whereas albumin synthesis (25.9 +/- 3.4 v 21.5 +/- 2.9 g/d/1.73 m2, P less than 0.05) and nitrogen balance (-135.6 +/- 92.8 mmol/d [-1.9 +/- 1.3 g/d], P = 0.10) decreased. Both therapies resulted in a modest increase in plasma potassium concentration. Whether the maintenance of albumin synthesis in the presence of a reduction in urinary protein losses will convey a long-term advantage to treatment of proteinuric patients with angiotensin-converting enzyme inhibitors remains to be determined.
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PMID:The effect of angiotensin-converting enzyme inhibition and dietary protein restriction in the treatment of proteinuria. 198 64


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