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)

The renin-angiotensin system has been implicated in the genesis of pre-eclampsia. To avoid fetal toxicity, five women were studied who developed hypertension, proteinuria, and edema in the last trimester of pregnancy and whose BP elevation persisted immediately postpartum. At about 6 hours after delivery the CE enzyme inhibitor (SQ 20,881) was given in incremental doses ranging from 0.25 to 3.0 mg. per kilogram intravenously, before and after diuresis with furosemide, 40 mg. intravenously. BP was measure every 2 minutes and PRA and angiotensin II concentration before treatment, 30 minutes after 0.25 to 0.30 mg. per kilogram, and 30 minutes after 2.0 to 3.0 mg. per kilogram. Echocardiographic assessment of CI and PVR was performed before treatment and after a maximum dose in three patients. Before diuresis, CE blockade had no effect on heart rate, BP, CI, PVR, or PRA, regardless of whether the patient was in positive or negative fluid balance or was sodium loaded or restricted over the preceding 24 hours. Angiotensin II fell by 77 and 10 per cent, respectively, after 0.25 mg. per kilogram was given to two patients, but rose slightly in the other three patients, then fell an average of 46 per cent after 1.0 to 3.0 mg. per kilogram were given. After diuresis, 1.0 mg. per kilogram resulted in a 24 per cent fall in BP which persisted for 3 hours in two patients and a 14 per cent fall which lasted for 30 minutes after 1.0 or 3.0 mg. per kilogram in a third patient. It is concluded that the BP elevation which persists after delivery in certain patients with pre-eclampsia is not angiotensin II dependent.
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PMID:SQ 20,881: effect on eclamptic--pre-eclamptic women with postpartum hypertension. 68 62

We have analyzed the protein content of proximal tubular fluid (PTF) by ultramicro disc electrophoresis and measured total protein excretion rates both in control conditions and during angiotensin infusion to the rat. Under control conditions PTF albumin concentration was 1.49 +/- 1.12 (SD) mg/100 ml and did not increase with distance from the glomerulus. Immediate postcapsular samples (Munich-Wistar strain) yielded nearly identical values so that both probably represent filtered albumin concentration. During infusion of angiotensin (0.15 mug/mix x 100 g of body wt), PTF albumin concentration increased on the average 26-fold in re-collections from control tubules. Total protein excretion increased from a control of 7.91 to 24.37 mg/24 hr x 100 g of body wt. Glomerular filtration rate (FGR), single nephron GFR (SNGFR), proximal transit time and tubular fluid to plasma (tf/p) inulin values did not change significantly. Net afferent filtration pressure decreased from 24.7 to 15.6 mm Hg and renal plasma flow fell from 2.16 to 1.31 mo/min x g of kidney wt. Data describe a protein reabsorptive system normally operating near capacity. Angiotensin-induced proteinuria derives from an increase in filtered protein (mostly albumin) resulting from permeability changes in the glomerular membrane.
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PMID:Effect of angiotensin on the filtration of protein in the rat kidney: a micropuncture study. 116 Feb 30

Angiotensin-induced proteinuria was examined at the glomerular-tubular level in rats. Ultra-micro-disc electrophoresis was employed to determine albumin concentration of rat proximal tubular fluid samples under control conditions and during the infusion of 0.15 mug/min X 100 g body weight angiotensin II using micropuncture techniques. Under control conditions proximal tubular albumin concentration was 1.32 +/- 0.79 (SD) mg/100 ml (n = 71). There was no correlation between albumin concentration and (TF/P)-inulin ratio indicating an albumin reabsorption in the proximal tubule parallel to fluid reabsorption under control conditions. During angiotensin infusion using re-collection techniques, there is an average increase of 26 times in tubular albumin concentration, indicating an increase in albumin filtered. There was no change in GFR, SNGFR, transit time, (TF/P)-inulin ratio, an increase in urine flow rate, sodium excretion, protein excretion, mean arterial blood pressure during angiotensin infusion. Since effective glomerular filtration pressure was not increased during angiotensin it is concluded that angiotensin-induced proteinuria is due to an increase in filtered protien mediated by a change in glomerular permeability to proteins.
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PMID:Effect of angiotensin on glomerular filtration of albumin. 123 90

Angiotensin converting enzyme inhibitors was given to 16 patients with glomerular nephritis in whom a complete remission of nephrotic syndrome could not be achieved with immunosuppressive-anti-inflammatory therapy. Captopril in the daily dose of 25-75 mg and enalapril in the daily dose of 10 mg were administered for 1-36 months (mean 12.6 months). Daily proteinuria decreased by 40-80% comparing with baseline value in 2/3 of patients. Total protein and albumin serum levels increased simultaneously. No changes in blood creatinine were noted in patients with initially normal renal functioning except one patient. Renal functioning was stable in 50% of patients with increased blood creatinine levels (mean 200 mumol/L). Blood creatinine was increasing in the remaining patients.
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PMID:[Effect of ACE inhibitors on proteinuria and renal functioning in primary glomerulopathies]. 130 32

Angiotensin converting enzyme inhibitors (ACEI) are believed to protect remnant kidney, but all previous studies used the ligation model which causes severe hypertension, and very few have compared drugs in rats having similar control of blood pressure (BP). We compared rats with uremia obtained by 70% excision of total renal mass, a model which causes mild, late hypertension. Study I compared the effects of enalapril (E), cicletanine (C) and placebo (P) in uremic (U) rats fed a 0.50% (normal-high) Na diet. Study II compared the effects of E, C, P, and guanfacine (G) in U rats fed a diet restricted to 0.25% Na (normal-low). In study I, UP rats developed progressive hypertension (140, 146, 160 and 166 mm Hg at 3, 6, 9 and 12 weeks), proteinuria (240 mg/day at 9 and 12 weeks) which were not affected by E or C. The occurrence of end-stage renal disease (ESRD) led to the sacrifice of all rats after three months. All three groups had similar severe renal lesions (over 25% sclerosed glomeruli in 5 of 10 UP, 9 of 14 UE, 7 of 14 UC rats, with huge cystic tubular dilatations). In study II, rats could be sacrificed later (6 months) and had evidence of less severe renal disease. All the drugs tested prevented hypertension throughout the study (P less than 0.001), with lowest values in UE rats. E and G, but not C, reduced proteinuria. Renal damage was reduced with E and G, but not with C, despite similar BP in C and G rats. Thus, in contrast with what was obtained in the ligation model, ACEI affected neither the BP nor the renal lesions of rats made uremic by renal excision and fed a 0.50% Na diet. Moderate Na restriction improved the consequences of nephron loss and restored the anti-hypertensive effect of drugs. However, these drugs had a different effect on renal preservation: it was dramatic with E, good with G, and undetectable with C.
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PMID:Renal effect of anti-hypertensive drugs depends on sodium diet in the excision remnant kidney model. 140 18

Angiotensin converting enzyme (ACE) inhibitors are known to lower urinary protein excretion in human renal disease. This proteinuria lowering effect of ACE inhibition has been hypothesized to be a result of renal hemodynamic changes due to the inhibition of angiotensin II (Ang II) production. To test this hypothesis we studied the short-term effects of different doses of exogenous Ang II (5%, 10% and 20% of the pressor dose) on renal hemodynamics and urinary protein excretion in comparison with placebo infusion in six non-diabetic normotensive proteinuric patients, both before and after three months treatment with the ACE inhibitor, lisinopril. Lisinopril lowered proteinuria from 7.5 +/- 1.9 to 2.7 +/- 0.6 g/24 hr and induced a fall in blood pressure, renal vascular resistance and filtration fraction, whereas plasma Ang II levels were similar to the pre-treatment values. Ang II infusion induced typical effects which appeared to be similar before and during lisinopril treatment: a dose-related fall in renal plasma flow and rise in systemic blood pressure, renal vascular resistance and filtration fraction, while the glomerular filtration rate remained relatively stable. However, neither before nor during lisinopril therapy did any changes in urinary protein loss occur during the infusions of Ang II, despite the fact that Ang II reversed the long-term systemic and renal hemodynamic changes induced by the ACE inhibitor. We conclude that the long-term antiproteinuric effect of the ACE inhibitor, lisinopril, is neither mediated through changes in circulatory Ang II levels nor influenced by acute changes in systemic and renal hemodynamics, suggesting a non-hemodynamic mechanism of action.
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PMID:Angiotensin II does not acutely reverse the reduction of proteinuria by long-term ACE inhibition. 166 May 50

Angiotensin II has many actions in the kidney, including regulation and distribution of renal circulation and glomerular filtration, as well as effects on mesangial contraction and on the filtration coefficient. The reduction in circulating and intrarenal angiotensin II by angiotensin converting enzyme (ACE) inhibitors in essential hypertension is associated with a significant increase in renal blood flow and a decrease in filtration fraction, without changes in glomerular filtration rate. In addition, administration of ACE inhibitors can reduce proximal sodium reabsorption via changes in peritubular hydrostatic and oncotic forces resulting from the fall in postglomerular capillary resistance. In severe hypertension the state of the renal vasculature does not allow ACE inhibition to induce similar haemodynamic changes and, therefore, it cannot contribute to renal sodium handling that requires the recruitment of alternate mechanisms. In spite of this, ACE inhibitors may exert a protective effect on the renal function of patients with severe hypertension as well as in those with renal impairment, by lowering systemic and, probably, intraglomerular pressure, reducing proteinuria and slowing the progression of renal failure.
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PMID:Effects of ACE inhibition on renal haemodynamics in essential hypertension and hypertension associated with chronic renal failure. 171 68

Angiotensin converting enzyme inhibitors and calcium antagonists are effective agents for controlling high blood pressure in diabetic patients. We selected 30 type II diabetic patients with proteinuria and evaluated the effect of these drugs on renal function and proteinuria. In a double-blind trial, patients received either 40 mg/day enalapril or 40 mg/day nifedipine during 12 months. They also received a hypoproteic diet with 0.8 g/kg wt/day of protein. In the enalapril group (10 men and eight women), mean arterial blood pressure was 112.0 +/- 12 mm Hg, creatinine clearance was 58.6 +/- 12.4 ml/min, and 24-hour proteinuria was 4.36 +/- 3.23 g/24 hr before treatment. After treatment, mean arterial blood pressure was 82.0 +/- 8.30 mm Hg (p less than 0.001), creatinine clearance was 66.6 +/- 13.8 ml/min (NS), and 24-hour proteinuria was 0.56 +/- 0.78 g/24 hr (p less than 0.001). In the nifedipine group (six men and six women), mean arterial blood pressure was 114.0 +/- 8.0 mm Hg, creatinine clearance was 67.8 +/- 19.6 ml/min, and 24-hour proteinuria was 2.84 +/- 1.31 g/24 hr before treatment. After treatment, mean arterial blood pressure was 86.0 +/- 7.0 mm Hg (p less than 0.001), creatinine clearance was 51.4 +/- 7.9 ml/min (p less than 0.001), and 24-hour proteinuria was 2.66 +/- 0.89 g/24 hr (NS). These results show a similar hypotensive action and different renal effects between these two drugs after 12 months of treatment.
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PMID:Angiotensin converting enzyme inhibitors versus calcium antagonists in the treatment of diabetic hypertensive patients. 173 86

We described a transient low or non-selective proteinuria after forced lordosis as a characteristic of orthostatic proteinuria and the heteroporous theory and sieving function theory which might explain the mechanism of orthostatic proteinuria. The angiogenic action of the renin-angiotensin system played an important part in these theories. Angiotensin II was recognized as the key regulator of renal sodium excretion, because it reduced the urinary Na/K ratio. Since the purpose of this study is to investigate the influence of the renin-angiotensin system on the mechanism of orthostatic proteinuria, proteins and electrolytes in the urine were examined before and after lordosis in 9 healthy children (Group A) and in 6 children with orthostatic proteinuria (Group B). The urinary ratio of protein/creatinine (P/cre) in Group B was already significantly higher than that in Group A before lordosis and significantly increased after lordosis, while P/cre in group A did not increase after lordosis. The urinary Na/K ratio (Na/K) in Group B was already significantly lower than that in Group A before lordosis, and after forced lordosis, Na/K in Group A decrease with no difference between both groups observed. It is suggested that a significant increase on P/cre after lordosis was obtained only in Group A, whereas in both groups the renal vein may be compressed by forced lordosis and as a result angiotensin II may be stimulated. There might be a difference of the responsibility to angiotensin II in glomerular mesangium contraction between both groups.
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PMID:[A study of urinary immunoglobulins and electrolyte excretion after lordosis]. 180 55

Angiotensin converting enzyme (ACE) inhibitors are well established in the treatment of hypertension and cardiac failure. Experimental studies in rats have suggested that these agents may protect renal function in chronic nephropathy by a mechanism other than simply lowering the systemic blood pressure. In human studies of incipient diabetic nephropathy, worsening of microalbuminuria was prevented during 3 years of ACE inhibition. ACE inhibitors reduce arterial blood pressure in chronic nephropathy, and may cause a fall in glomerular filtration rate. In diabetic nephropathy, proteinuria was reduced by 2 months' treatment with enalapril to less than half of the values obtained in a control group treated with metoprolol. Nonrandomised trials have suggested that ACE inhibitors may slow the deterioration of renal function, but no comparisons with other antihypertensive agents in prospective studies have been published to date. In chronic renal failure, ACE inhibitors may worsen anaemia and hyperkalaemia. Renovascular hypertension can be treated with ACE inhibitors, but the treatment may lead to a compromised renal function. The dosage of these drugs should be reduced in renal failure and therapy should be started cautiously in this setting, with close monitoring of blood pressure, renal function and plasma potassium.
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PMID:Angiotensin converting enzyme (ACE) inhibitors and renal function. A review of the current status. 193 Jul 42


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