Renal lesions of hyperlipidemic Imai rats: a spontaneous animal model of focal glomerulosclerosis.

The hyperlipidemic Imai rat was originally developed as an animal model of spontaneous hyperlipidemia. We report the natural course of the Imai rat up to 32 weeks of age focusing on renal pathology. The degree of proteinuria, which first appeared at 8 weeks, increased with age, and all Imai rats developed heavy proteinuria (mean, 228 mg/24 h) with impaired renal function (mean BUN, 78.7 mg/dl) at 32 weeks. Histologic changes of the glomeruli were characterized by focal and segmental sclerosis and hyalinosis. Both the percentage of affected glomeruli and the severity of each affected glomerulus were progressively increased with age. The immunofluorescence and electron-microscopic findings were also comparable to those of focal glomerulosclerosis (FGS) in humans. The serum levels of total cholesterol, triglyceride, and phospholipid in Imai rats were significantly higher than those in normal Sprague-Dawley rats at 8 weeks of age, and progressively increased thereafter. The proteinuria, glomerular involvements, and hyperlipidemia were generally less severe in the females than in the males. We conclude that the hyperlipidemic Imai rat, a naturally occurring animal model of FGS, is useful in studying the pathogenesis of FGS and the renal effects of hyperlipidemia in humans.     

Protein restriction and AST-120 improve lipoprotein lipase and VLDL receptor in focal glomerulosclerosis

BACKGROUND: Imai rats exhibit spontaneous focal glomerulosclerosis (FGS) with progressive proteinuria and hyperlipidemia leading to renal insufficiency by age 34 weeks. Recently, we reported marked down-regulations of skeletal muscle and adipose tissue lipoprotein lipase (LPL) and very low-density lipoprotein (VLDL) receptor in male Imai rats at 32 weeks of age. Dietary protein restriction and oral adsorbent AST-120 (AST) have been shown to slow progression of renal disease and attenuate hyperlipidemia in the Imai rats. This study tested the hypothesis that amelioration of proteinuria by protein restriction or use of oral adsorbent AST-120 beginning at 10 weeks of age may improve renal disease and LPL and VLDL receptor deficiencies in Imai rats. METHODS: Ten-week-old male Imai rats were randomly assigned to those fed either a regular diet, low protein diet (LPD), or regular diet containing the adsorbent preparation, AST-120. Ten-week-old male Sprague-Dawley rats served as controls. The animals were observed for 24 weeks. Six rats were included in each group. All diets were prepared in powder form. RESULTS: The untreated 34-week-old Imai rats showed severe proteinuria, hypoalbuminemia, 50% reduction in creatinine clearance, hypercholesterolemia, hypertriglyceridemia, and elevated plasma VLDL concentration. This was associated with significant reductions in plasma post-heparin LPL activity, hepatic lipase activity, as well as adipose tissue and skeletal muscle immunodetectable LPL and VLDL receptor proteins. Protein restriction mitigated the decline in creatinine clearance, ameliorated proteinuria, hypoalbuminemia, hypertension, and hypercholesterolemia, lowered plasma VLDL, and improved plasma postheparin LPL activity, hepatic lipase activity, LPL, and VLDL receptor proteins in skeletal muscle and adipose tissue. Similar improvements were observed in all parameters with AST administration. CONCLUSION: Moderate protein restriction and use of oral adsorbent can slow progression of renal disease and, thereby, ameliorate LPL, hepatic lipase, and VLDL receptor deficiencies and the associated hyperlipidemia in rats with spontaneous FGS.     

AT-1 receptor blockade prevents proteinuria, renal failure, hyperlipidemia, and glomerulosclerosis in the Imai rat

BACKGROUND: The Imai rat is a model of spontaneous focal glomerulosclerosis which leads to nephrotic syndrome, hyperlipidemia, hypertension, and progressive renal failure. We evaluated the effects of angiotensin II receptor type 1 (AT-1)blockade, and compared the results with the effects of the administration of hypolipidemic treatment with a 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitor. All treatments were started at 10 weeks of age when the rats were already proteinuric and continued for 6 months when rats were sacrificed. METHODS: The following groups (N= 6 each) were studied: (1) control Sprague-Dawley rats, 34 weeks old; (2) Imai group that received vehicle; (3) Imai + angiotensin II receptor blockade (ARB) group that received olmesartan (10 mg/kg/day by gastric gavage); (4) Imai + prava group, that received pravastatin (20 mg/kg/day by gastric gavage); and (5) Imai + ARB + prava group that received both ARB and pravastatin. Lipid profile, renal function, and structure were assessed at 6 months. RESULTS: As expected, the untreated Imai rats exhibited heavy proteinuria, hypoalbuminemia, hypertension, renal insufficiency, marked glomerulosclerosis, tubulointerstitial inflammation, and profound hyperlipidemia. Pravastatin treatment alone led to a significant, but partial improvement of hyperlipidemia and renal disease. The ARB treatment alone or in combination with pravastatin resulted in normalization of the blood pressure, urinary protein excretion, plasma cholesterol, triglycerides, low-density lipoproteins (LDLs), very low-density lipoproteins (VLDLs), and albumin concentrations and renal function. Significant glomerulosclerosis was prevented and tubulointerstitial injury and immune cell infiltration were reduced by long-term AT-1 blockade. CONCLUSION: The study revealed that long-term AT-1 blockade corrects proteinuria, hyperlipidemia, and nephropathy in this model of spontaneous glomerulosclerosis.     

Effect of enalapril on Adriamycin-induced nephrosis

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 slcerotic 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.Abstract published in J Am Soc Nephrol 1; 291, 1990     

The effects of ciclosporin in experimental glomerulosclerosis

The acute and chronic effects of daily, oral ciclosporin (CS) therapy (25 mg/kg) on proteinuria, blood pressure, renal function and histology were studied in rats subjected to unilateral nephrectomy and 3 weekly intraperitoneal injections of the aminonucleoside of puromycin (PAN). PAN therapy resulted in heavy proteinuria by week 4 which declined by weeks 8 and 16. When CS therapy was started weeks after the last dose of PAN, acute, transient reductions in proteinuria and reversible rises in blood urea nitrogen (BUN) were observed. When CS or oil therapy was started with PAN and continued for 8 or 16 weeks, there were no differences in proteinuria; however, after 16 weeks, CS treated rats had significantly higher BUN levels [65 +/- 11 (23.2 +/- 3.9) vs. 41 +/- 5 mg/dl (14.6 +/- 1.8 mmol/l); p = 0.001], a higher percentage of sclerotic glomeruli (47 +/- 7 vs. 28 +/- 10%; p less than 0.0001) and extensive interstitial fibrosis. There was a strong correlation between glomerulosclerosis and extent of interstitial fibrosis (r = 0.951; p less than 0.0001). These studies demonstrate that rats with experimental focal glomerulosclerosis treated with CS show an acute, transient reduction in proteinuria; however, chronic (for 16 weeks) CS therapy significantly increases azotemia and results in an increase in glomerulosclerosis and interstitial fibrosis.     

Interactions of hypercholesterolemia and hypertension in initiation of glomerular injury.

In the Dahl S rat (DS), salt induces systemic and glomerular capillary hypertension associated with progressive glomerulosclerosis, while Dahl R rats (DR) remain normotensive, without glomerular abnormalities. Studies in experimental models have suggested that hypercholesterolemia may play a role in the development of glomerulosclerosis; however, it is unclear whether hypercholesterolemia alone, in the absence of hypertension, can initiate injury. To answer this question we induced hypercholesterolemia in salt-supplemented DS (DSC) and DR (DRC) by feeding a high cholesterol (4%) chow. Control rats (DS, DR) received high-salt, normal cholesterol chow. After eight weeks, DS and DSC developed equivalent hypertension (161 +/- 3 vs. 153 +/- 3 mm Hg, respectively, P = NS), while DR and DRC remained normotensive (138 +/- 5 vs. 131 +/- 5 mm Hg, P = NS; P less than 0.05 vs. DS and DSC). Cholesterol fed rats developed marked and equivalent hypercholesterolemia compared to controls (DS vs. DSC, 71 +/- 3 vs. 289 +/- 91 mg/dl, P less than 0.05; DR vs. DRC, 52 +/- 2 vs. 327 +/- 54 mg/dl, P less than 0.05). Hypertensive rats (DS, DSC) developed worse proteinuria and glomerular injury than normotensive rats (DR, DRC), but hypercholesterolemia exacerbated proteinuria and glomerulosclerosis only in DSC and not in DRC. Proteinuria significantly correlated with serum cholesterol in hypertensive rats (DS, DSC, P less than 0.05), but not normotensive rats (DR, DRC, P = NS). Furthermore, DSC had increased renal vascular resistance compared to DS, while no differences were found between DRC and DR. Thus, in the Dahl rat, hypercholesterolemia alone does not initiate glomerular injury. In this model, hypercholesterolemia is a pathogenetic factor in glomerular injury only when it coexists with systemic hypertension.     

Vasopeptidase inhibitor restores the balance of vasoactive hormones in progressive nephropathy

BACKGROUND: The mechanism(s) underlying greater renoprotection of combined blockade of angiotensin-converting enzyme (ACE) and neutral endopeptidase (NEP) by vasopeptidase over ACE inhibitors are ill defined. We previously found that progressive renal disease is associated with increased renal synthesis of endothelin-1 (ET-1) in the face of reduced generation of renal nitric oxide (NO) in the remnant kidney model. Here we compared changes in urinary excretion of ET-1 and nitrite/nitrate, markers of renal ET-1, and NO synthesis, respectively, and urinary cGMP, an indirect index of renal atrial natriuretic peptide (ANP) synthesis, after administration of vasopeptidase or ACE inhibitor in rats with renal mass reduction (RMR). METHODS: Twenty-one days after 5/6 nephrectomy, after the onset of hypertension and overt proteinuria, rats were divided in 3 groups (N= 7-8) and given daily by gavage: vehicle, the vasopeptidase inhibitor AVE7688 (3 mg/kg bid), or enalapril (5 mg/kg bid) until day 90. Normal rats (N= 5) served as control rats. RESULTS: Systolic blood pressure in RMR rats was equally controlled by AVE7688 and enalapril. AVE7688 resulted in a significant antiproteinuric effect, with urinary protein levels being reduced on average by 83% in respect to vehicle (88 +/- 28 vs. 518 +/- 27 mg/day, P < 0.0001). Enalapril achieved a 47% reduction in proteinuria (277 +/- 81 mg/day, P < 0.01 vs. vehicle) to levels that remained higher (P < 0.01), however, than those after AVE7688. Renal function impairment and glomerular and tubular changes were significantly (P < 0.05 vs. vehicle) ameliorated by AVE7688, and partially affected by enalapril. AVE7688 reduced the abnormal urinary excretion of ET-1 of RMR animals (98 +/- 8 vs. vehicle: 302 +/- 50 pg/24 h, P < 0.001) more than enalapril (159 +/- 14 pg/24 h, P < 0.05 vs. AVE7688). Consistently, AVE7688 was more effective than enalapril in augmenting renal synthesis of NO (2487 +/- 267 and 1519 +/- 217 vs. vehicle: 678 +/- 71 nmol/15 h; P < 0.001, AVE7688 vs. vehicle, P < 0.01 AVE7688 vs. enalapril). AVE7688 significantly increased urinary cGMP (78 +/- 6 vs. vehicle 45 +/- 9 nmol/24 h; P < 0.01). CONCLUSION: The superior renoprotection achieved by AVE7688 over enalapril in progressive renal injury is due to the correction of the altered balance of vasoconstrictor/vasodilator mediators in the kidney.     

Down-regulation of lipoprotein lipase and VLDL receptor in rats with focal glomerulosclerosis.

BACKGROUND: Patients and animals with nephrotic syndrome and those with chronic renal failure (CRF) often exhibit hypertriglyceridemia and impaired very low-density lipoprotein (VLDL) clearance. Imai rats that were originally derived from Sprague-Dawley rats develop spontaneous proteinuria, hyperlipidemia, progressive renal insufficiency and histologic changes of focal glomerulosclerosis (FGS), closely resembling human FGS. This study was undertaken to test the hypothesis that elevation of plasma triglyceride and VLDL concentrations in the Imai rats is associated with deficiency of lipoprotein lipase (LPL) and VLDL receptor which are the main pathways of triglyceride-rich lipoprotein clearance. METHODS: Male Imai and Sprague-Dawley control rats were fed regular rat chow and studied at 10 and 34 weeks of age. Tissue LPL and VLDL-r protein abundance (Western analysis) and post-heparin lipolytic activity were determined. RESULTS: At 10 weeks of age, Imai rats showed mild proteinuria, moderate hyperlipidemia, normal creatinine clearance and blood pressure. By 34 weeks of age, the study animal exhibited severe proteinuria, marked hyperlipidemia, significant renal insufficiency and hypertension. This was associated with a severe progressive reduction in skeletal muscle and adipose tissue LPL and VLDL-r protein abundance and depressed plasma post heparin, lipolytic activity. CONCLUSION: Progressive hyperlipidemia in the Imai rats with spontaneous FGS is accompanied by severe combined LPL and VLDL-r deficiencies that can, in part, account for the associated hypertriglyceridemia and elevated plasma VLDL concentrations.     

Captopril, but not diltiazem, favorably affects the course of early chronic renal disease in rats

The concepts that increased intracellular Ca2+ content and increased glomerular capillary pressure play an important role in the progression of chronic renal diseases has led to the suggestion that treatment with calcium-blocking agents (diltiazem; CBB) or converting enzyme inhibitors (captopril; CEI) may be indicated to prevent renal failure. We studied the effects of CCB and CEI on the early course of adriamycin (ADR) nephropathy, where glomerular pressure has been shown to be unchanged, blood pressure was only mildly elevated and renal failure incipient. Animals were studied 2, 7, 12, 16 and 20 weeks after the second injection of ADR, 2 mg/kg. In treated rats, blood pressure remained normal. At the end of the study, proteinuria and serum creatine were lower in ADR-CEI than in ADR rats (149 +/- 42 vs. 616 +/- 90 mg/day, p less than 0.01 and 0.36 +/- 0.04 vs. 0.58 +/- 0.02 mg%, p less than 0.01, respectively). ADR-CCB had values similar to those of untreated ADR rats. Mesangial expansion and focal glomerulosclerosis were present only in ADR and ADR-CCB rats, whereas in ADR-CEI rats the glomeruli were virtually normal. Glomerular 45Ca uptake was increased in ADR, decreased in ADR-CCB rats, and normal in ADR-CEI. Glomerular 6-keto PGF1 alpha and TxB2 were significantly increased in ADR rats, and both treatments decreased TxB2. The results suggest that endogenous angiotensin II is important for the early progression of glomerular injury toward renal insufficiency, while tissue Ca2+ accumulation may play an important role in more advanced phases.     

Renal angiotensin converting enzyme (ACE) expression in diabetic rats: the effect of ACE inhibitors]

Renal excreted angiotensin converting enzyme (ACE) inhibitor captopril, and renal.hepatic bile excreted ACE inhibitor temocapril, were compared by monitoring serum ACE and renal ACE expression (protein and mRNA) in streptozotocin-induced diabetic rats. Serum ACE levels did not change in untreated diabetic rats or in those treated with temocapril, compared with normal control rats. However, serum ACE levels significantly increased in diabetic rats treated with captopril after 3 months (153.8 +/- 23.0 vs. 43.5 +/- 5.5 IU/l/37 degrees C, p < 0.01) and 6 months (113.6 +/- 9.3 vs. 36.9 +/- 2.9 IU/l/37 degrees C, p < 0.01) compared with normal control rats. Compared with normal control rats (3.6 +/- 0.4), proximal tubular ACE protein expression significantly (p < 0.01) decreased in untreated diabetic rats (1.6 +/- 1.1), but significantly (p < 0.01) increased in diabetic rats treated with captopril (3.7 +/- 0.3) and temocapril (3.5 +/- 0.4). Renal ACE mRNA levels decreased in untreated diabetic rats (125.5 +/- 20.3 vs. 313.3 +/- 53.4, p < 0.01) compared with normal control rats for 6 months. Renal ACE mRNA levels tended to increase in diabetic rats treated with captopril (184.4 +/- 51.2 vs. 125.5 +/- 20.3) and temocapril (165.4 +/- 43.2 vs. 125.5 +/- 20.3) compared with untreated diabetic rats for 6 months. In conclusion, diabetic rats had lower proximal tubular ACE protein expression and lower renal ACE mRNA levels compared with normal control rats. Furthermore, both ACE inhibitors increased renal ACE protein and mRNA expression, but differed in their effect on serum ACE levels.     

Reversal of glomerulosclerosis after high-dose enalapril treatment in subtotally nephrectomized rats

Interventions to block the renin-angiotensin system (RAS) halt the progression of renal lesions in renal damage models. It has recently also been reported that established glomerulosclerosis can be reversed by pharmacologic blockade of the RAS. It was the aim of this study to confirm that high doses of angiotensin-converting enzyme (ACE) inhibitors reverse established glomerulosclerosis and to extend the findings by providing quantitative information on glomerular geometry, podocytes and other glomerular cells, renal vessels and tubulointerstitial tissue. Male Sprague Dawley rats were subjected to subtotal surgical renal ablation (SNX) (n = 27) or sham operation (n = 31) and fed using a pair-feeding protocol. Eight weeks after surgery, rats were either sacrificed or allocated to two arms: enalapril treatment (48 mg/kg body wt per day administered in the drinking fluid for 4 wk) or no treatment. Renal morphology was evaluated after 8 or 12 wk, respectively, by stereology in tissue fixed by pressure-controlled perfusion. Both systolic BP and albumin excretion rate were significantly higher in SNX compared with sham-operated controls. They were significantly reduced in SNX after delayed enalapril treatment. The glomerulosclerosis (GSI), tubulointerstitial (TII), and vascular (VI) damage indices were significantly higher in all SNX groups than in sham-operated controls. At the end of the experiment (12 wk after SNX) GSI, TII, and VI were significantly lower in SNX with delayed enalapril treatment (0.77 +/- 0.18, 0.63 +/- 0.19 and 0.43 +/- 0.16, respectively) compared with untreated SNX (1.64 +/- 0.14, 1.16 +/- 0.34 and 0.67 +/- 0.29, respectively). GSI, TII, and VI were also significantly lower in SNX with delayed enalapril treatment compared with SNX sacrificed without treatment 8 wk after SNX. The same was true for glomerular volume. The number of podocytes was not affected by SNX, but podocyte volume was increased. Both indices remained unaffected by treatment. The numbers of cells within the mesangium and endothelial cells per glomerulus were significantly lower in SNX after delayed enalapril treatment compared with untreated SNX. These results strongly suggest regression of preexisting lesions, i.e., glomerular, tubular, and vascular remodeling as well as reversal of glomerular hypertrophy by ACE inhibitor treatment. The study confirms that high-dose ACE inhibitor treatment causes partial reversal of glomerular as well as interstitial lesions in subtotally nephrectomized rats.     

Molecular mechanisms of altered cholesterol metabolism in rats with spontaneous focal glomerulosclerosis

BACKGROUND: Imai rats exhibit spontaneous focal glomerulosclerosis (FGS), which is marked by heavy proteinuria, severe hyperlipidemia, and progressive renal insufficiency beginning at 8 to 10 weeks of age. In an earlier study, we reported severe skeletal muscle and adipose tissue lipoprotein lipase, and very low-density lipoprotein (VLDL) receptor deficiencies, which account for elevated plasma VLDL and triglycerides in Imai rats at 34 weeks of age. In this study, we investigated key factors involved in cholesterol metabolism. METHODS: Male Imai and Sprague-Dawley control rats were fed a regular rat chow and observed from age 8 through 34 weeks. Hepatic 3-hydroxy-3 methylglutaryl coenzyme A (HMG-CoA) reductase, cholesterol 7alpha-hydroxylase, low-density lipoprotein (LDL) receptor and acyl Co A:cholesterol acyltransferase (ACAT) were measured by Western blot and plasma lecithin:cholesterol acyltransferase (LCAT) protein was measured by enzyme-linked immunosorbent assay (ELISA). RESULTS: At 34 weeks of age, the Imai rats showed severe proteinuria, hypoalbuminemia, 60% reduction in glomerular filtration rate (GFR), elevated plasma total and LDL cholesterol and LDL/high-density lipoprotein (HDL) ratio. Imai rats showed a twofold elevation of hepatic HMG-CoA reductase, the rate-limiting step in cholesterol biosynthesis, but no significant change in cholesterol 7alpha-hydroxylase, the rate-limiting enzyme in cholesterol catabolism to bile acids. This was accompanied by and largely due to a threefold down-regulation of hepatic LDL receptor, which limits hepatic uptake of LDL; and a threefold up-regulation of hepatic ACAT (P < 0.01), which augments esterification of hepatocyte free cholesterol, thus, limiting cholesterol-mediated feedback regulation of cholesterol synthesis and catabolism. Moreover, plasma LCAT concentration was severely depressed (by fourfold) in Imai rats. This abnormality can impair HDL-mediated cholesterol transport from extrahepatic tissues to the liver. CONCLUSION: The study revealed marked abnormalities of the key proteins involved in regulation of hepatic cholesterol metabolism. These abnormalities can account for severe dysregulation of cholesterol metabolism in Imai rats with spontaneous FGS, which closely resembles FGS in humans.     

Urinary histamine excretion in proteinuric states

The kidney possesses the enzymatic steps required for the biosynthesis of histamine and this autocoid may play a role in modulating renal hemodynamics and the local inflammatory response to immunologic injury. We, therefore, measured urinary histamine. N-methylhistamine and N-methylimidazole acetic acid concentrations in patients with proteinuria due to a variety of disease states-idiopathic nephrotic syndrome (n = 19), systemic lupus erythematosus (n = 10), refractory focal segmental glomerulosclerosis (n = 10) and control patients (n = 16). Urinary histamine concentration was significantly reduced in treatment-responsive idiopathic nephrotic syndrome during disease relapse compared to remission (16.6 +/- 3.6 vs. 28.4 +/- 4.8 mumol/mol creatinine, p less than 0.02). The levels were also depressed in children with other causes of persistent proteinuria, including systemic lupus erythematosus (10.3 +/- 4.0 mumol/mol creatinine) and focal segmental glomerulosclerosis (14.6 +/- 2.8 mumol/mol creatinine) compared to normal controls (31.4 +/- 4.7 mumol/mol creatinine). The decreased urinary excretion of histamine and its metabolites in patients with proteinuria may be a result of immunologically mediated mesangial cell injury or represent a compensatory hemodynamic response to limit urinary protein losses.     

Individual differences in renal ACE activity in healthy rats predict susceptibility to adriamycin-induced renal damage.

BACKGROUND: In man, differences in angiotensin-converting enzyme (ACE) levels, related to ACE (I/D) genotype, are associated with renal prognosis. This raises the hypothesis that individual differences in renal ACE activity are involved in renal susceptibility to inflicted damage. Therefore, we studied the predictive effect of renal ACE activity for the severity of renal damage induced by a single injection of adriamycin in rats. METHODS: Renal ACE activity (Hip-His-Leu cleavage by cortical homogenates) was determined by renal biopsy in 27 adult male Wistar rats. After 1 week of recovery, proteinuria was induced by adriamycin [1.5 mg/kg intravenously (i.v.) n = 18; controls, saline i.v. n = 9]. Proteinuria was measured every 2 weeks. After 12 weeks, rats were sacrificed and their kidneys harvested. RESULTS: As anticipated, adriamycin elicited nephrotic range proteinuria, renal interstitial damage and mild focal glomerulosclerosis. Baseline renal ACE positively correlated with the relative rise in proteinuria after adriamycin (r = 0.62, P<0.01), renal interstitial alpha-smooth muscle actin (r = 0.49, P<0.05), interstitial macrophage influx (r = 0.56, P<0.05), interstitial collagen III (r = 0.53, P<0.05), glomerular alpha-smooth muscle actin (r = 0.74, P<0.01) and glomerular desmin (r = 0.48, P<0.05). Baseline renal ACE did not correlate with focal glomerulosclerosis (r = 0.22, NS). In controls, no predictive values for renal parameters were observed. CONCLUSION: Individual differences in renal ACE activity predict the severity of adriamycin-induced renal damage in this outbred rat strain. This supports the assumption that differences in renal ACE activity predispose to a less favourable course of renal damage.     

Effect of angiotensin II antagonism on the regression of kidney disease in the rat

BACKGROUND: Normalization of proteinuria and even regression of glomerulosclerosis seem to occur in progressive renal disease upon blockade of the renin-angiotensin system. Here we quantified the effect of a combination of an angiotensin converting enzyme (ACE) inhibitor and an angiotensin II (Ang II) receptor antagonist on renal function and structure in spontaneous overt nephropathy in male Munich Wistar Fromter (MWF) rats. METHODS: Three groups of MWF rats were used: group 1 was studied at 25 weeks to provide baseline renal function and structure; group 2 was followed until 40 weeks of age; group 3 was treated with lisinopril (40 mg/L) and valsartan (180 mg/L) in drinking water from 25 to 40 weeks. A group of untreated Wistar rats (group 4, 40 weeks) was used as the control. At the end of the study renal hemodynamics, kidney tissue morphology, accumulation of type III collagen and evaluation of interstitial inflammatory cells were performed. RESULTS: MWF rats spontaneously developed hypertension, proteinuria, glomerulosclerosis, interstitial volume expansion and protein cast accumulation. Combined treatment completely reversed protein excretion and ameliorated renal plasma flow and the glomerular ultrafiltration coefficient. The combined therapy was effective in halting progressive glomerulosclerosis, particularly in glomeruli with mild sclerotic lesions, and reduced interstitial volume expansion. Type III collagen accumulation and protein cast also were reversed. Infiltrating cells were massively present in the interstitium already at 25 weeks, and augmented at 40 weeks in untreated rats. Combined treatment reduced infiltrating cells to values comparable to normal controls. CONCLUSIONS: These data indicate that in animals with spontaneous overt nephropathy, Ang II antagonism normalized proteinuria, eliminated inflammatory cell infiltration, and ameliorated glomerular and tubular structural changes.     

A selective cyclooxygenase-2 inhibitor decreases proteinuria and retards progressive renal injury in rats

BACKGROUND: We have previously shown that cyclooxygenase-2 (COX-2) expression is low in the renal cortex of adult rats, but is increased in macula densa/cortical thick ascending limb and in glomerular podocytes after subtotal renal ablation. METHODS: To evaluate the functional consequences of this increased COX-2 expression, male rats were subjected to subtotal renal ablation and divided into four groups: (1) treatment with the selective COX-2 inhibitor SC58236, (2) treatment with vehicle, (3) treatment with the angiotensin-converting enzyme inhibitor enalapril, and (4) treatment with enalapril + SC58236. The administration of drugs was begun on the third day after ablation and continued for 6 to 10 weeks. RESULTS: Within one week after ablation, vehicle-treated rats developed hypertension. Although enalapril led to significant reductions in blood pressure, either alone or in combination with the COX-2 inhibitor, SC58236 alone did not significantly alter ablation-induced hypertension. However, the SC58236-treated animals exhibited levels of proteinuria at six weeks after ablation that were comparable to those seen with enalapril (vehicle, 47 +/- 4; enalapril, 27 +/- 2; SC58236, 30 +/- 2 mg/day; N = 7, P < 0.01, each group compared with vehicle), and continued SC58236 treatment led to persistent reductions in proteinuria at 10 weeks after renal ablation (vehicle, 77 +/- 4; SC58236, 50 +/- 4 mg/day; N = 6, P < 0. 01). SC58236 treatment also significantly reduced the percentage of glomeruli exhibiting segmental or global sclerosis at 10 weeks (32.6 +/- 7.8% vs. 10.9 +/- 2.8%, N = 6, P < 0.03). Furthermore, SC58236 treatment partially inhibited increases in transforming growth factor-beta1 mRNA expression and increases in collagen III and collagen IV mRNA expression. CONCLUSIONS: These studies indicate that chronic treatment with a specific COX-2 inhibitor may retard the progression of progressive renal injury, and suggest that such compounds can be used in combination with angiotensin-converting enzyme inhibitors. Further studies are required to determine the mechanism by which COX-2 inhibition is renoprotective.     

Effects of delayed treatment with enalapril and/or lovastatin on the progression of glomerulosclerosis in 5/6 nephrectomized rats

To evaluate the effect of delayed treatment with enalapril orlovastatin on the progression of glomerulosclerosis and to examineif the combined treatment with enalapril and lovastatin showsynergistic effect, a total of 31 Sprague-Dawley rats were studiedfor 16 weeks following 5/6 nephrectomy (NPX). Treatment wasdelayed until 8 weeks after NPX. In untreated control rats (n=8), sustained systemic hypertensionwith increasing proteinuria, serum cholesterol, triglyceride,BUN and widespread glomerulosclerosis and mesangial expansionwere observed. Treatment with enalapril alone (R, n=8) reversed systemic hypertension,prevented a further increase in proteinuria, and significantlyreduced glomerulosclerosis relative to the control group. Treatment with lovastatin alone (L, n=7) also reduced glomerulosclerosisand serum cholesterol compared to the controls. The drug alsoprevented a further increase in proteinuria and systemic bloodpressure although the difference from the control rats did notreach statistical significance. Treatment with both enalapril and lovastatin (RL, n=8) almostcompletely prevented glomerulosclerosis and significantly reducedmesangial expansion, systemic blood pressure, serum cholesterol,and proteinuria compared to controls. Only the combined treatmentstabilized BUN and reduced mesangial expansion compared to controlR, or L groups. Conclusion. Delayed treatment with enalapril or lovastatin iseffective in preventing the progression of glomerulosclerosis,and combined treatment appears to show synergistic effect in5/6 nephrectomized rat model.     

Renal function and structure in diabetic, hypertensive, obese ZDFxSHHF-hybrid rats

The obese ZDFxSHHF-fa/fa(cp) model was developed by crossing lean female Zucker Diabetic Fatty (ZDF +/fa) and lean male Spontaneously Hypertensive Heart Failure (SHHF/Mcc-fa(cp), +/fa) rats. The purpose of the present study was to determine renal function and morphology, hemodynamics, and metabolic status in ZDFxSHHF rats. Two sets of experiments were conducted. First, we evaluated heart and kidney function and metabolic status in aged (46 weeks old) male obese ZDFxSHHF and age matched obese SHHF rats, lean Spontaneously Hypertensive (SHR) and lean normotensive Wistar Kyoto (WKY) rats. In the second set of experiments, renal function and structure as well as metabolic and lipid status were determined in lean (LN) and obese (OB) adult (29-weeks of age) ZDFxSHHF rats. At 46 weeks of age ZDFxSHHF rats are hypertensive expressing marked cardiac hypertrophy associated with diastolic dysfunction and preserved contractile function. Fasted hyperglycemia and hyperinsulinemia are accompanied by moderate hypercholesterolemia and hypertriglyceridemia. Obese aged ZDFxSHHF have marked renal hypertrophy, a 3-8 fold decrease in creatinine clearance (compared with SHHF, SHR and WKY), a high percent of segmental + global glomerulosclerosis (59.8%+/-10.8), and severe tubulointerstitial and vascular changes. Obese ZDFxSHHF rats die at an early age (approximately 12 months) from end-stage renal failure. Studies conducted in 29-week animals showed that, although both LN and OB 29-week old animals are hypertensive, OB animals have more severely compromised renal function and structure as compared with lean litter-mates (kidney weight: 2.56+/-0.16 vs. 1.61+/-0.12 g; creatinine clearance: 0.42+/-0.04 vs. 1.24+/-0.13 L/g kid/day; renal vascular resistance 12.39+/-1.4 vs. 6.14+/-0.42 mmHg/mL/min/g kid; protein excretion: 556+/-16 vs. 159+/-9mg/day/g kid, p < 0.05, OB vs. LN, respectively). Obesity is also associated with hyperglycemia (424+/-37 vs. 115+/-11 mg/dL), hyperinsulinemia (117.2+/-8.8 vs. 42.3+/-3.5 microU/mL), hypertriglyceridemia (5200+/-702 vs. 194+/-23 mg/dL), hypercholesterolemia (632+/-39 vs. 109+/-4mg/dL), and presence of segmental + global glomerulosclerosis (20.1+/-3.2% vs. 0.1+/-0.1%) with prominent tubular and interstitial changes (p < 0.05, OB vs. LN, respectively). In summary, the present study indicates that the crossing of rat strains of nephropathy produces hybrids that carry a high risk for severe renal dysfunction. The ZDFxSHHF rats express insulin resistance, hypertension, dislipidemia and obesity and develop severe renal dysfunction. In addition, the hybrids do not develop some of the complications (hydronephrosis or congestive heart failure) common for the parental strains that may compromise studies of renal function and structure. Therefore, the ZDFxSHHF rat may be a useful model fore valuating risk factors and pharmacological interventions in chronic renal failure.     

Renoprotective effect of low iron diet and its consequence on glomerular hemodynamics

It has been reported that anemia limits renal injury in rats with reduced renal mass. We studied the effect of a low iron diet, given to reduce hematocrit, on urinary protein excretion and glomerular function in male MWF/Ztm rats, which spontaneously develop proteinuria and glomerular sclerosis. At 20 weeks of age, micropuncture and glomerular volume measurements were performed in untreated rats fed standard chow and in rats fed an isocaloric diet with low iron (5 mg/kg) content. Two additional groups of rats were used for total kidney function and glomerular volume evaluation at 35 weeks of age. At 20 weeks of age animals on low iron diet showed significantly (P less than 0.01) reduced hematocrit (46 +/- 5% vs. 54 +/- 2%) and proteinuria (60 +/- 15 vs. 225 +/- 34 mg/24 hr) than control animals, and no statistically significant differences were observed in single nephron hemodynamics. At 35 weeks of age rats on low iron diet had significantly lower proteinuria than age matched controls (222 +/- 68 vs. 411 +/- 71 mg/24 hr, P less than 0.01) and developed less glomerular sclerosis (mean percentage of sclerotic glomeruli was respectively 14 +/- 7% and 31 +/- 17%, P less than 0.05). Glomerular volume was comparable in animals on the low iron diet and in controls both at 20 and 35 weeks of age. These data indicate that low iron diet protected male MWF/Ztm rats against glomerular injury without significant effects on glomerular hemodynamics and on glomerular volume.     

Aldosterone antagonism ameliorates proteinuria and nephrosclerosis independent of glomerular dynamics in L-NAME/SHR model

BACKGROUND: The renin-angiotensin-aldosterone system participates importantly in the progression of hypertensive renal disease. Angiotensin-converting enzyme inhibitors or angiotensin II receptor antagonists have been demonstrated to afford renoprotection in L-NAME-exacerbated nephrosclerosis in SHR rats. This study was designed to examine the effects of the aldosterone antagonist eplerenone on systemic and renal hemodynamics, glomerular dynamics, renal function and histopathology in L-NAME/SHR, and determine whether aldosterone antagonism would enhance the effectiveness of ACE inhibition. METHODS: Six groups of 20-week-old SHR were studied using renal micropuncture and histopathological techniques after 3 weeks of treatment: SHR control (tapwater, n = 10); SHR + eplerenone (101 +/- 8.3 mg/kg/day, n = 10); SHR + L-NAME (5.0 +/- 0.12 mg/kg/day, n = 9); SHR + L-NAME + eplerenone (n = 8); SHR + L-NAME + lisinopril (3 mg/kg/day, n = 9), and SHR + L-NAME + eplerenone + lisinopril (n = 9). RESULTS:L-NAME-treated SHR developed massive proteinuria, severe hypertensive nephrosclerosis, and tubulointerstitial damage. Eplerenone significantly reduced proteinuria (127.4 +/- 26.5 vs. 51.9 +/- 16.7 mg/24 h, p < 0.01), improved glomerular and arteriolar injuries (65 +/- 9 vs. 29 +/- 9 score/100 glomeruli, p < 0.01; 116 +/- 18 vs. 41 +/- 13 score/100 arterioles, p < 0.01, respectively), and decreased tubulointerstitial damage index (1.43 +/- 0.07 vs. 0.39 +/- 0.07, p < 0.01) without altering mean arterial pressure or glomerular dynamics. Combined therapy of eplerenone with lisinopril produced no further benefits than lisinopril alone. CONCLUSION: The aldosterone antagonist eplerenone significantly ameliorated proteinuria and nephrosclerosis in the L-NAME/SHR model, independent of hemodynamic effects.