Sodium intake modifies the negative prognostic value of renal damage prior to treatment with ACE inhibitors on proteinuria induced by adriamycin.

Hypertension frequently accompanies chronic glomerulonephritis. Mesangial injury and glomerulosclerosis are common in glomerulonephritis and are often harbingers of progressive glomerular destruction. Thus, in a model of mesangial immune injury we studied the relationship between hypertension, mesangial injury, and glomerulosclerosis. We induced mesangial ferritin-antiferritin immune complex disease (FIC) in Dahl salt-sensitive (S) and salt-resistant (R) rats. S and R rats with FIC were fed chow containing 0.3% NaCl until 14 weeks of age and then switched to 8.0% NaCl chow until 28 weeks of age. Groups of control S and R rats (no FIC) were either fed 0.3% NaCl for 28 weeks or switched to 8.0% NaCl chow at 14 weeks of age. Blood pressure, serum creatinine, urinary protein, and glomerular injury (assessed by semiquantitative morphometric analysis) were determined at 14 and 28 weeks of age. R rats with or without FIC did not develop hypertension; mesangial injury was minimal. At 14 weeks of age, only S FIC rats developed hypertension, proteinuria, significant mesangial expansion and early glomerulosclerosis. At 28 weeks of age, proteinuria, mesangial expansion, and glomerulosclerosis were significantly more severe in hypertensive S rats with FIC than in those without FIC. These studies show that despite a normal salt intake, mesangial injury hastened the onset of hypertension, but only in rats genetically predisposed to hypertension (S FIC at 14 weeks). High dietary salt further aggravated hypertension, which, in turn, magnified both mesangial injury and glomerulosclerosis. Clinically, the different rates of progression of human glomerulonephritis associated with hypertension may be in part dependent on similar mechanisms.

Present angiotensin-converting-enzyme inhibitor treatment fails to prevent progression of non-diabetic renal disease. We aimed to assess the efficacy and safety of combined treatment of angiotensin-converting-enzyme inhibitor and angiotensin-II receptor blocker, and monotherapy of each drug at its maximum dose, in patients with non-diabetic renal disease. 336 patients with non-diabetic renal disease were enrolled from one renal outpatient department in Japan. After screening and an 18-week run-in period, 263 patients were randomly assigned angiotensin-II receptor blocker (losartan, 100 mg daily), angiotensin-converting-enzyme inhibitor (trandolapril, 3 mg daily), or a combination of both drugs at equivalent doses. Survival analysis was done to compare the effects of each regimen on the combined primary endpoint of time to doubling of serum creatinine concentration or end-stage renal disease. Analysis was by intention to treat. Seven patients discontinued or were otherwise lost to follow-up. Ten (11%) of 85 patients on combination treatment reached the combined primary endpoint compared with 20 (23%) of 85 on trandolapril alone (hazard ratio 0.38, 95% CI 0.18-0.63, p=0.018) and 20 (23%) of 86 on losartan alone (0.40, 0.17-0.69, p=0.016). Covariates affecting renal survival were combination treatment (hazard ratio 0.38, 95% CI 0.18-0.63, p=0.011), age (1.30, 1.03-2.29, p=0.009), baseline renal function (1.80, 1.02-2.99, p=0.021), change in daily urinary protein excretion rate (0.58, 0.24-0.88, p=0.022), use of diuretics (0.80, 0.30-0.94, p=0.043), and antiproteinuric response to trandolapril (0.81, 0.21-0.91, p=0.039). Frequency of side-effects with combination treatment was the same as with trandolapril alone. Combination treatment safely retards progression of non-diabetic renal disease compared with monotherapy. However, since some patients reached the combined primary endpoint on combined treatment, further strategies for complete management of progressive non-diabetic renal disease need to be researched.

Angiotensin-converting enzyme (ACE) inhibitors reduce urine protein excretion and slow the progression of renal disease. The beneficial effect in slowing the progression of renal disease is greater in patients with higher urine protein excretion at the onset of treatment. We hypothesized that the greater beneficial effect of ACE inhibitors on the progression of renal disease in patients with higher baseline levels of proteinuria is due to their greater antiproteinuric effect in these patients. Data were analyzed from 1860 patients enrolled in 11 randomized controlled trials comparing the effect of antihypertensive regimens, including ACE inhibitors to regimens not including ACE inhibitors on the progression of non-diabetic renal disease. Multivariable linear regression analysis was used to assess the relationship between the level of proteinuria at baseline and changes in urine protein excretion during follow-up. The Cox proportional hazards analysis was used to assess the relationship between changes in urine protein excretion during follow-up and the effect of ACE inhibitors on the time to doubling of baseline serum creatinine values or onset of end-stage renal disease. Mean (median) baseline urine protein excretion was 1.8 (0.94) g/day. Patients with higher baseline urine protein excretion values had a greater reduction in proteinuria during the follow-up in association with treatment with ACE inhibitors and in association with lowering systolic and diastolic blood pressures (interaction P < 0.001 for all). A higher level of urine protein excretion during follow-up (baseline minus change) was associated with a greater risk of progression [relative risk 5.56 (3.87 to 7.98) for each 1.0 g/day higher protein excretion]. After controlling for the current level of urine protein excretion, the beneficial effect of ACE inhibitors remained significant [relative risk for ACE inhibitors vs. control was 0.66 (0.52 to 0.83)], but there was no significant interaction between the beneficial effect of ACE inhibitors and the baseline level of urine protein excretion. The antiproteinuric effects of ACE inhibitors and lowering blood pressure are greater in patients with a higher baseline urine protein excretion. The greater beneficial effect of ACE inhibitors on renal disease progression in patients with higher baseline proteinuria can be explained by their greater antiproteinuric effects in these patients. The current level of urine protein excretion is a modifiable risk factor for the progression of non-diabetic renal disease. ACE inhibitors provide greater beneficial effect at all levels of current urine protein excretion.