Mesangial function in ureteral obstruction in the rat. Blockade of the efferent limb.

The kinetics for mesangial uptake and transport of radiolabeled aggregated human immunoglobulin (Ig)G (AHIgG(125)I) deviated markedly from normal in male Sprague-Dawley rats with ureteral obstruction. Four experimental groups, each containing 25 rats, were used: (a) bilateral ureteral ligation (BUL) with release of one ureter 24 h later; (b) unilateral ureteral ligation with release 24 h later [UUL(R)]; (c) unilateral ureteral ligation without release (unreleased) [UUL(U)]; (d) uremia-control, which consisted of rats with ligated left ureter and a severed right ureter. A similar number of sham-operated rats served as control for each group. AHIgG(125)I (45 mg/100 g body wt) was given intravenously 1 h after release of the ureteral obstruction (25 h after ureteral obstruction or sham surgery). Groups of five control and five experimental animals were sacrificed at 2, 4, 8, 16, and 24 h after injection. At all time intervals, concentrations of AHIgG(125)I in isolated glomeruli from control animals were similar to values obtained from nonobstructed kidneys of UUL(U) and UUL(R) rats: a linear decrease in concentration over a period of 24 h was observed when the logarithm of glomerular AHIgG(125)I concentration was plotted against time. Aberrations in the kinetics were apparent in obstructed kidneys but not in liver, spleen, or blood concentrations of AHIgG(125)I: (a) At 2 h in all obstructed kidneys, glomerular concentration of AHIgG(125)I was markedly reduced. (b) In BUL (released or unreleased), glomerular concentrations of AHIgG(125)I from 4 to 16 h were congruent with 10-fold those in UUL(U) or UUL(R) kidneys. (c) The significant decline in glomerular concentration between 4 and 16 h in control and nonobstructed kidneys was not observed in UUL(R), UUL(U), or BUL (released or unreleased) kidneys; in all obstructed kidneys, a plateau in glomerular concentrations of AHIgG(125)I was observed between 4 and 16 h. (d) After 16 h at a time when the blood level of AHIgG(125)I had decreased to 3% of initial values, there was progressive fall in glomerular AHIgG(125)I. Similar results were obtained in the uremia-control group in rats, which indicated that uremia per se had no measurable effect on mesangial kinetics. These studies demonstrate that ureteral occlusion induces alterations in mesangial uptake (afferent limb) and egress (efferent limb) of macromolecules. Particularly evident is the "blockade" of the efferent limb which is demonstrable at high blood levels of AHIgG(125)I. These alterations in the transit of macromolecules through the mesangium may be mediated in part by the hemodynamic changes that accompany ureteral obstruction.

Opioid-mediated suppression of interferon-gamma production by cultured peripheral blood mononuclear cells.

Mounting evidence suggests that opiate addiction and stress are associated with impaired cell-mediated immunity. We tested the hypothesis that morphine and the endogenous opioid beta-endorphin (beta-END), a pituitary peptide released in increased concentrations during stress, can suppress the production of the key macrophage-activating lymphokine interferon-gamma (IFN-gamma) by cultured human peripheral blood mononuclear cells (PBMNC). Using a radioimmunoassay to measure IFN-gamma, we found that exposure of PBMNC to biologically relevant concentrations of both opioids significantly inhibited IFN-gamma generation by cells stimulated with concanavalin A and varicella zoster virus. Studies of the mechanism of suppression revealed (a) a classical opioid receptor is involved (suppression was antagonized by naloxone and was specific for the NH2 terminus of beta-END), (b) monocytes are the primary target cell for opioids (monocyte-depleted lymphocyte preparations showed little suppression), and (c) reactive oxygen intermediates (ROI) and prostaglandin E2 are important mediators (scavengers of ROI and indomethacin eliminated the suppression). Based on these findings we suggest that opioid-triggered release of inhibitory monocyte metabolites may play a role in the immunodeficiency associated with narcotic addiction and stress.

Lovastatin inhibits proliferation of rat mesangial cells.

Products of intracellular mevalonate metabolism are essential for cell growth and proliferation. Lovastatin, an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase, blocks the formation of mevalonate and its metabolites, and has been shown to inhibit proliferation of several cell types. In vivo, lovastatin has reduced mesangial cellularity and glomerular injury in experimental renal disease. In this study, we investigated the effects of lovastatin on DNA replication and proliferation in rat glomerular mesangial cells. Growth-arrested mesangial cells were exposed to medium containing 10% fetal bovine serum to stimulate mitogenesis. Lovastatin (1-20 microM) caused a significant (P < 0.05) dose-dependent reduction in DNA synthesis ([3H]thymidine incorporation) which was completely prevented in the presence of exogenous mevalonate (100 microM). Lovastatin (1 microM) inhibited cell proliferation by 90% over a 5-d period, and this was largely overcome by added mevalonate. Exogenous low density lipoprotein (100 micrograms/ml) did not prevent lovastatin inhibition of DNA synthesis. The isoprenoid end product isopentenyl adenine (5 or 50 microM) had little effect on DNA synthesis and cell proliferation in lovastatin-blocked cells. By contrast, the isoprenoid farnesol (5 microM) largely prevented lovastatin inhibition of DNA synthesis. We conclude that mevalonate metabolism is essential for mesangial cell proliferation, possibly through the production of the isoprenoid farnesol. Moreover, the action of lovastatin to reduce experimental glomerular injury may involve a direct effect on mesangial cells.

Glucose-induced increases in renal hemodynamic function. Possible modulation by renal prostaglandins.

Increased glomerular filtration rate and kidney size early in the course of experimental and human diabetes may be important in the pathogenesis of diabetic nephropathy. Factors causing these renal functional changes are unknown. The isolated, perfused rat kidney (IPRK) was used to study the effects of elevated glucose levels on kidneys from normal and diabetic rats in the absence of complex systemic effects of in vivo hyperglycemia. It was found that acute increases in perfusate glucose levels caused sustained dose-dependent vasodilatation in both normal and diabetic isolated kidneys. Furthermore, in normal kidneys, raising perfusate glucose to levels seen in moderately severe diabetes caused increased inulin clearance (Cln). In contrast, equal osmolar concentrations of mannitol caused sustained vasoconstriction and a slight decrease in Cln. Prostaglandin synthetase inhibitors reduced glucose-induced vasodilatation by 50% and prevented the increase in Cln that followed the addition of glucose to normal kidneys. Thus, these studies demonstrated that elevated glucose levels caused significant vasodilatation and increased Cln in the IPRK, and these glucose-induced hemodynamic changes were attenuated by prostaglandin synthetase inhibitors. It is possible that these glucose-induced effects may be important determinants of increased glomerular function in early diabetes.

Effects of nephron loss on glomerular hemodynamics and morphology in diabetic rats.

Loss of renal mass in rats with experimental diabetes mellitus leads to exaggerated hypertrophy of remaining nephrons and accelerated diabetic glomerulopathy. To examine factors responsible for glomerular injury in this setting, rats with preexisting diabetes were subjected to unilateral nephrectomy. Micropuncture studies and evaluation of glomerular morphology were performed 2-3 mo later. Nephrectomized diabetic rats demonstrated significant increases in kidney weight, superficial nephron glomerular filtration rate, and superficial nephron plasma flow compared with two-kidney diabetic rats and nephrectomized nondiabetic controls. Glomerular capillary hydraulic pressure was comparable in two-kidney and nephrectomized diabetic rats and was significantly reduced compared with nephrectomized nondiabetic controls. Nephrectomized diabetic rats demonstrated significant albuminuria, mesangial matrix expansion, and focal glomerulosclerosis, whereas two-kidney diabetic rats and nephrectomized nondiabetic controls showed only minimal alterations in glomerular morphology. It is concluded that diabetic rats can undergo glomerular functional compensation in response to nephron loss. Moreover, accelerated glomerular injury caused by nephron loss in diabetic rats could not be attributed to increased glomerular capillary pressure.

Cholesterol-lowering effects of calcium carbonate in patients with mild to moderate hypercholesterolemia.

BACKGROUND: In recent years, several authors have noted that oral calcium treatment was associated with a reduction in serum cholesterol level. METHODS: Calcium carbonate was examined for its ability to lower serum cholesterol levels in hypercholesterolemic patients. Fifty-six patients with mild to moderate hypercholesterolemia were examined in this randomized, double-blind, placebo-controlled crossover study. Patients were treated with a low-fat, low-cholesterol diet targeted at the American Heart Association Step-1 diet for 8 weeks before and while receiving placebo or calcium carbonate (9.98 mmol [400 mg] of elemental calcium) three times daily with meals for 6 weeks. Patients were then crossed over to the alternate treatment for an additional 6-week period. RESULTS: Compared with placebo, calcium carbonate achieved a 4.4% reduction in the low-density lipoprotein cholesterol level, and a 4.1% increase in the high-density lipoprotein cholesterol level. The ratio of low-density lipoprotein cholesterol to high-density lipoprotein cholesterol significantly decreased by 6.5% with calcium carbonate treatment. Calcium carbonate treatment did not significantly affect blood pressure or serum levels of triglycerides, lipoprotein Apo B, or calcium. Relative urinary saturation ratios of calcium oxalate levels were unchanged during calcium carbonate therapy. Compliance with diet and treatment was excellent and no significant adverse effects were noted. CONCLUSIONS: Thus, calcium carbonate was a modestly effective and well-tolerated adjunct to diet in the management of mild to moderate hypercholesterolemia in this clinical study.

Efficacy and renal effects of enalapril therapy for hypertensive patients with chronic renal insufficiency.

The antihypertensive efficacy and renal effects of enalapril maleate therapy were evaluated in 13 hypertensive patients with chronic renal failure. Enalapril was administered as follows: alone; added to furosemide, clonidine hydrochloride, or atenolol; or in combination with any of the aforementioned drugs. Three patients did not complete the study; uncontrolled hypertension was the cause in two of these patients. In the remaining ten patients, short-term (mean +/- SD, 63 +/- 9 days) enalapril maleate therapy decreased the patient's seated blood pressure from 161/98 +/- 19/8 to 130/80 +/- 13/7 mm Hg. Furosemide was administered to eight patients; the dose of concomitant sympatholytic therapy was decreased in five of five patients. Serum potassium concentration increased from 4.1 +/- 0.3 to 4.5 +/- 0.3 mmol/L. Levels of urinary total protein excretion decreased from 2.23 +/- 2.05 to 1.08 +/- 1.45 g/d. Renal function (creatinine clearance, 0.58 +/- 0.21 mL/s) did not change from baseline. During long-term therapy, the rate of progression of renal insufficiency seemed to slacken in three of four patients with diabetic nephropathy. Thus enalapril can reduce blood pressure and proteinuria in hypertensive patients with chronic renal insufficiency. The possibility that enalapril can slow the progression of diabetic nephropathy remains to be confirmed by future studies.

Association between active Wegener's granulomatosis and anticytoplasmic antibodies.

Autoantibodies reacting with the cytoplasm of granulocytes and monocytes (anticytoplasmic antibodies [ACPAs]) were found in 42 of 45 patients with active Wegener's granulomatosis (WG) (sensitivity, 93%). Specificity was tested in selected groups of patients with closely related diseases. Of 58 patients without a diagnosis of WG, 2 had ACPAs (specificity, 97%). The significance of ACPA titration for assessing or predicting disease activity was evaluated in a 16-month prospective study of 35 patients with WG. Seventeen relapses were observed and all were preceded by a significant rise of the ACPA titer. Anticytoplasmic antibodies are a specific and sensitive marker for active WG; a rising titer is a sensitive marker for the development of a relapse.

Opioid peptides rapidly stimulate superoxide production by human polymorphonuclear leukocytes and macrophages.

Opioid peptides found in the general circulation can modulate several functions of phagocytic cells that are related to their microbicidal and cytotoxic activity. Since reactive oxygen species are crucial to these activities, the affect of opioid peptides on superoxide (O-2) generation was evaluated with the use of lucigenin-enhanced chemiluminesence (CL). beta-Endorphin and dynorphin stimulate the production of O-2 in human polymorphonuclear leukocytes (PMN) and peritoneal macrophages (PMO) at peptide concentrations that prevail systemically (10(-14)-10(-12)M). There is an inverse dose-response relation for PMN but not PMO. The effect is rapid and sustained in PMN (peak CL at 2-4 min, duration greater than 15 min), whereas it is rapid but brief in PMO (peak 1 min, duration less than 3 min). Naloxone inhibits CL responses by greater than 75% in both cell types.

Role of hypertension in progressive glomerular immune injury.

The relationship between hypertension, ferritin-antiferritin mesangial immune injury (FIC), and progressive glomerular damage was studied in hypertensive (8% NaCl chow) Dahl salt-sensitive rats (DS) and in spontaneously hypertensive rats (SHR). The glomeruli of SHR are protected from the increased perfusion pressure that accompanies systemic hypertension by preglomerular vasoconstriction, while the glomeruli of hypertensive DS are not. Blood pressure, serum creatinine levels, urinary protein excretion, and glomerular injury (assessed by semiquantitative morphometric analysis) were determined in 20-week-old SHR and DS with FIC. In addition, half of a group of 20-week-old SHR with FIC were uninephrectomized and progression of glomerular injury was assessed 12 weeks later. Control rats for each of the groups did not receive FIC. Our studies showed that more extensive mesangial expansion and glomerulosclerosis developed in hypertensive DS with FIC than in rats without FIC. Glomerular injury in DS with FIC affected cortical and deep glomeruli. Similarly, hypertensive SHR with FIC had minimal damage in cortical glomeruli. In deep glomeruli of SHR, mesangial expansion was similar to that of DS, but glomerulosclerosis was absent. In SHR, a 50% reduction in renal mass, a maneuver known to decrease preglomerular vasoconstriction, resulted in mesangial expansion similar to that in DS in cortical glomeruli while deep glomeruli developed mesangial expansion as well as glomerulosclerosis. Our results suggest that when hypertension and mesangial immune injury coexist with renal vasodilatation (as occurs in DS with 2 kidneys and in SHR after uninephrectomy), they act synergistically to induce progressive glomerular damage. Similar mechanisms may be operative in hypertensive humans with glomerulonephritis and may condition the rate of progression to renal insufficiency.

The Zucker rat model of obesity, insulin resistance, hyperlipidemia, and renal injury.

Although the pathogenesis of obesity in OZR is unknown, the association among hyperinsulinemia, insulin resistance, and hyperlipidemia suggests that investigations using OZR may help define how a number of vascular disease risk factors interact to cause end-organ damage. Like other rat strains, OZR do not develop atherosclerosis spontaneously. Nevertheless, in an endothelial injury model, atherosclerosis was worse in OZR than in LZR. Perhaps more intriguing is the fact that OZR develop spontaneous glomerular injury. Although the mechanisms important in the development and progression of glomerular injury in OZR remain to be clarified, both lipid abnormalities and glomerular hemodynamic alterations could play a role.

Lovastatin but not enalapril reduces glomerular injury in Dahl salt-sensitive rats.

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.

Cefotaxime and desacetyl cefotaxime kinetics in renal impairment.

Cefotaxime and desacetyl cefotaxime kinetics after a single, 1 gm intravenous dose were evaluated in five groups of subjects: group I, normal creatinine clearance (CLCR greater than 90 ml/min); group II, mild renal insufficiency (CLCR 30 to 89 ml/min); group III, moderate renal insufficiency (CLCR 16 to 29 ml/min); group IV, severe renal insufficiency (CLCR 4 to 15 ml/min); and group V, end-stage renal disease requiring maintenance hemodialysis (CLCR less than 6 ml/min). The steady-state volume of distribution (Vss) ranged from 10% to 55% of body weight but was not related to CLCR. The terminal t1/2 values of cefotaxime and desacetyl cefotaxime were 0.79 and 0.70, 1.09 and 3.95, 1.55 and 5.65, 2.54 and 14.23, and 1.63 and 23.15 hours in groups I to V, respectively. There were no significant changes in Vss or t1/2 after multiple dosing, but there were significant correlations between CLCR and cefotaxime total body clearance, cefotaxime and desacetyl cefotaxime renal clearance, and cefotaxime nonrenal clearance. Dosage regimens for the use of cefotaxime in patients with renal impairment are proposed.

Hyperlipidemia and the progression of renal disease.

Focal glomerulosclerosis (FGS) is commonly seen in human and in experimental models of chronic renal disease. Although considerable experimental data suggest that hypertension is important in progressive nephron damage, recent studies also have indicated that abnormal lipid metabolism may be an independent risk factor in the pathogenesis of FGS. Indeed, the synergistic impact of hypertension and hyperlipidemia in the pathogenesis of FGS may be analogous to the role of these factors in the pathogenesis of atherosclerosis. This review focuses on some of the recent and pertinent data that support a role of lipid-mediated glomerular injury in the pathogenesis of progressive renal disease.

Effects of carbohydrate restriction on renal injury in the obese Zucker rat.

The obese Zucker rat model of nonimmune-mediated, spontaneous focal glomerulosclerosis is ideally suited to study the influence of diet on the initiation and progression of glomerular injury. Young (6 wk) and old (33 wk) lean and obese female Zucker rats were fed a carbohydrate-restricted diet intermittently for 27 wk. Carbohydrate restriction resulted in lower body weight (460 +/- 16 versus 310 +/- 7 g, p less than 0.025), kidney weight (1.26 +/- 0.04 versus 1.07 +/- 0.05 g, p less than 0.025), and glomerular area (6930 +/- 290 versus 5780 +/- 230 micron2, p less than 0.025) in young obese Zucker rats compared to ad libitum-fed rats. Although urine-albumin excretion was substantially reduced by carbohydrate restriction in young obese Zucker rats (41.1 +/- 12.3 versus 6.9 +/- 2.9 mg/24 h, p less than 0.01), glomerular injury was not significantly altered. In old obese rats, carbohydrate restriction did not significantly reduce albuminuria or prevent the progression of glomerular injury. Thus, intermittent carbohydrate restriction failed to alter significantly either the initiation of glomerular injury in young, or the progression of nephron damage in old, obese Zucker rats.

Effect of long-term clofibric acid treatment on serum and tissue lipid and cholesterol levels in obese Zucker rats.

The long-term effects of clofibric acid (200 mg/kg body weight) injected subcutaneously from 6-36 weeks of age were assessed in obese, hyperlipemic Zucker rats. At 18 and 36 weeks of age, treated rats had significantly lower fasted serum cholesterol levels but triacylglycerol levels were not affected. Rats were killed at 36 weeks of age at which time there were no differences in body and kidney weights between control and clofibric acid-treated rats. Liver, spleen and heart weights were lowered by clofibric acid treatment. In liver there was an elevation of lipid/g due to treatment but there were no effects on cholesterol/g or on either total liver lipid or cholesterol levels. In the epididymal fat pad of clofibric acid-treated rats, there was a 21% elevation of cholesterol level on a per pad basis. In the other organs, there were no effects of treatment on lipid or cholesterol levels except for lowered total cholesterol in kidney. Several liver lipogenic enzymes were lowered by treatment but malic enzyme was two times higher.

Glomerular mesangium: its function and relationship to angiotensin II.

The glomerular mesangium is composed of mesangial cells and an intercellular material, the mesangial matrix. Partly because of its unique anatomic location, the mesangium appears to be susceptible to immune- and non-immune-mediated injury. Mesangial cells have characteristics similar to smooth muscle cells, and their surface is covered with receptors that bind a variety of vasoactive substances. The glomerular mesangium seems to play an important role in the physiologic regulation of the glomerular microcirculation. There is evidence that a plasmic flow carrying macromolecules circulates through the mesangium. Changes in glomerular hemodynamic determinants and in the release and/or production of vasoactive substances, particularly angiotensin II, can greatly influence the mesangial movement of macromolecules. Quantitative and/or qualitative alterations in the mesangial movement of macromolecules may lead to mesangial injury.

Irreversible acute renal failure in idiopathic nephrotic syndrome.

In five adult patients (aged 44 to 74 years) with idiopathic nephrotic syndrome, irreversible acute renal failure developed. Prior renal disease, associated systemic illness or occlusion of major renal vasculature was not present. All patients continued to excrete large amounts of proteins (8.6 to 15 g/24 hours) despite a minimal glomerular filtration rate and severe oliguria. One patient died after five months without recovering renal function. Four patients have required hemodialysis for a period of 12 to 58 months. The failure to recover renal function could not be explained by the light microscopic findings. It is suggested that the irreversibility of the renal failure may be related to either permanent alterations in renal blood flow or ultrastructural changes, or to both. Clinically, adult patients in whom acute renal failure develops during the course of idiopathic nephrotic syndrome seem to have a grave prognosis. Protracted oliguria or irreversible renal failure can be expected to occur.

Therapeutic implications of lipid-lowering agents in the progression of renal disease.

Progressive deterioration in renal function frequently occurs in the absence of the original cause of injury. During the past decade, intense investigations into the factors responsible for progressive nephron destruction have demonstrated that hemodynamic stresses and metabolic and coagulation abnormalities participate in glomerular injury. Hyperlipidemia is a common abnormality in renal disease and is frequently aggravated by protein-uria. Experimentally, therapy with the lipid-lowering agents clofibric acid or lovastatin reduced circulating lipids, particularly cholesterol, decreased proteinuria, and prevented glomerular damage in normotensive and hypertensive models of progressive renal disease. These beneficial effects occurred independently of changes in systemic blood pressure or glomerular injury, supporting the notion that cholesterol or its accompanying changes, or both, were central in lipid modulation of glomerulosclerosis. Clinically, lipid abnormalities are common in patients with renal disease, and atherosclerotic cardiovascular disease is the most frequent cause of death in these patients. Although the role of lipids in atherosclerotic disease has been well established, whether a similar effect of lipids occurs in the microvasculature of the kidney is unknown. Whether therapeutic approaches directed at reducing hyperlipidemia in patients with renal disease will provide a measure of renal protection, as has been seen in experimental models of renal disease, is also unknown.

Radiation-induced renal disease. A clinicopathologic study.

Radiation injury to the renal parenchyma is an unusual cause of renal insufficiency. Light, immunofluorescence and electron microscopic studies were performed on the renal tissue from two patients in whom renal insufficiency developed within a year after they received abdominal irradiation. The glomerular lesion in both patients was similar. Mild endothelial cell swelling and basement membrane splitting were noted consistently on light microscopy. The electron microscopic examination revealed marked subendothelial expansion with electron-lucent material associated with deposition of basement membrane-like material adjacent to the endothelial cells. In some capillary loops, the endothelial cell lining appeared to be completely lost. The pathogenesis of radiation-induced renal injury is still uncertain. It is speculated that local activation of the coagulation system with consequent thrombosis of the renal microvasculature may be extremely important.