Tullio Bertani

Prognosis of Untreated Patients with Idiopathic Membranous Nephropathy

Background Defining the most appropriate treatment for patients with idiopathic membranous nephropathy is a matter of controversy. The course of the disorder is often benign, and the immunosuppressive regimens used in some patients have uncertain benefits and substantial risks. We studied the natural history of idiopathic membranous nephropathy in patients who received only symptomatic therapy. Methods We prospectively studied 100 consecutive patients (68 men and 32 women; mean [±SD] age, 51 ±17 years) with biopsy-proved idiopathic membranous nephropathy. The patients received diuretic or antihypertensive drugs as needed, but no glucocorticoid or immunosuppressive drugs. We examined the patients and measured their urinary protein excretion and serum creatinine concentrations every 6 months for a mean of 52 months. Results Twenty-four (65 percent) of the 37 patients followed for at least five years had complete or partial remission of proteinuria; in 6 others (16 percent), end-stage renal disease developed...

Angiotensin converting enzyme inhibition ameliorates glomerular filtration of macromolecules and water and lessens glomerular injury in the rat.

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.

Renal vascular and thrombotic effects of cyclosporine.

Cyclosporine A (CyA) given to prevent xenograft rejection induces renal function impairment. In the last few years many studies have been devoted to understanding the mechanism(s) of CyA-induced renal insufficiency. In humans, several specific findings--interstitial fibrosis, toxic tubulopathy, peritubular capillary congestion, arteriolopathy--have been associated with CyA administration. It is now recognized that CyA renal toxicity mainly manifests under three different syndromes: (1) acute reversible decrease in glomerular filtration rate (GFR), (2) acute microvascular disease with the pattern of thrombotic microangiopathy, and (3) chronic irreversible renal damage. This review analyzes the available evidence that the clinical syndromes of CyA nephrotoxicity are related to changes induced by CyA on renal vessels. Experimental studies have failed to document that the activation of renin-angiotensin axis or sympathetic nervous system plays a relevant role in the development of CyA-associated renal vasoconstriction, which is the main causal factor of acute reversible decrease in GFR, whereas it is possible that changes in arachidonic acid metabolites with vasoactive properties contribute to this CyA-induced phenomenon. In this context, findings of increased urinary TxB2 and protective effect of TxA2 receptor blocking are of particular interest. Since the introduction of CyA in clinical practice, a syndrome of thrombotic microangiopathy resembling hemolytic uremic syndrome/thrombotic thrombocytopenic purpura has been recognized in humans and reproduced in experimental animals. This is a rare form of vascular toxicity attributed to CyA which may have a poor prognosis and possibly results from a direct toxic effect of CyA on vascular endothelium. The syndrome of chronic progressive deterioration of renal function associated with CyA was first recognized in humans. Until recently the possibility of reproducing this syndrome in animals in order to better understand its nature was not addressed. As in humans, when animals are given CyA for greater than 2 months they may develop chronic renal insufficiency with tubular arteriopathy and interstitial fibrosis. A peculiar form of tubulointerstitial damage has been recognized in association with CyA, and called striped interstitial fibrosis, that is probably due to tubular collapse induced by afferent vasoconstriction. This lesion may be improved by withdrawal of CyA, but renal function usually does not normalize.(ABSTRACT TRUNCATED AT 250 WORDS)

Adriamycin-Induced Glomerulosclerosis in the Rat

To evaluate long-term effect of sustained proteinuria induced by a single injection of adriamycin (ADR) on occurrence of focal segmental glomerulosclerosis (FSG), we treated 50 Sprague-Dawley (SD) rats, weighing 250 g with 5 mg/kg body weight of ADR. After six months of heavy proteinuria, 40% of ADR-treated rats did not develop FSG. In the remaining 60% of animals, a mild FSG was observed associated with the presence of large tubular casts and interstitial inflammation. Glomerulosclerosis was never observed in absence of tubulointerstitial lesions. Nine months after ADR, all rats exhibited FSG with renal insufficiency but the severest changes were restricted to the tubulointerstitial level. Our results indicate that chronic proteinuria induced by ADR is a relatively good model of glomerular sclerosis, however, the cause of glomerular sclerosis is probably different from that operating in other experimental models of FSG. Both sclerotic changes and progression of disease seem to be dependent on formation of tubular casts with consequent interstitial changes. This study raises the question of the relative role of tubulointerstitial changes in the subsequent development of FSG.

The renoprotective properties of angiotensin-converting enzyme inhibitors in a chronic model of membranous nephropathy are solely due to the inhibition of angiotensin II: evidence based on comparative studies with a receptor antagonist.

In several models of renal disease progression, angiotensin-converting enzyme (ACE) inhibitors reduced proteinuria and limited glomerulosclerosis, which suggested that reduction of renal angiotensin II (Ang II) activity is crucial for the preservation of glomerular structure and function. However, it cannot be ruled out that other hormonal systems, including inhibition of the bradykinin breakdown, also play a role. We compared the effects of chronic treatment with the ACE inhibitor lisinopril with those of a specific Ang II receptor antagonist, L-158,809, on proteinuria and renal injury in passive Heymann nephritis (PHN), a model of immune renal disease that closely resembles human membranous nephropathy, with long-lasting proteinuria followed by tubulointerstitial damage and glomerulosclerosis. Passive Heymann nephritis was induced with 0.5 mL/100 g of rabbit anti-Fx1A antibody in 24 male Sprague-Dawley rats. The animals were divided into three groups of eight rats each, and were given the following in the drinking water on a daily basis: lisinopril (40 mg/L), L-158,809 (50 mg/L), or no therapy. Treatment started at day 7 (proteinuria was already present) and lasted 12 months. Eight normal rats were used as controls. Untreated PHN rats developed hypertension, while rats with PHN given lisinopril or L-158,809 all had systolic blood pressure values even lower than those of normal rats. Urinary protein excretion progressively increased with time in untreated PHN rats, who developed tubulointerstitial damage and glomerulosclerosis. Both lisinopril and L-158,809 exhibited a potent antiproteinuric effect and preserved glomerular and tubular structural integrity at a similar extent. Renal gene expression of transforming growth factor-beta and extracellular matrix proteins was also effectively reduced by the two treatments. These results indicate that ACE inhibitors and Ang II receptor antagonists are equally effective in preventing renal injury in PHN and suggest that the renoprotective effects of ACE inhibitors in this model are solely due to inhibition of Ang II.

ACE inhibition induces regression of proteinuria and halts progression of renal damage in a genetic model of progressive nephropathy

Experimental data consistently indicate that renal disease progression is fully prevented in proteinuric glomerulopathies by long-enough angiotensin-converting enzyme (ACE) inhibition therapy. Whether regression of established proteinuria to normal can be achieved is, however, ill defined. The current study was designed with the aim to clarify whether ACE inhibition may induce regression of established proteinuria and renal structural damage in MWF rats, a genetic model of progressive proteinuria and renal injury. Animals treated with the ACE inhibitor lisinopril from 20 weeks of age (time when proteinuria is already important) and age-matched untreated rats were followed for 10 weeks. ACE inhibition normalized systolic blood pressure and progressively reduced proteinuria (from 172 +/- 79 to 81 +/- 23 mg/24 hours). In these animals, a highly significant correlation was obtained between baseline proteinuria and antiproteinuric response. At variance in untreated rats, proteinuria showed a marked increase in the 10-week follow-up period (from 165 +/- 57 to 325 +/- 86 mg/24 hours). Lisinopril prevented the progression of renal damage, as documented by a significantly lower incidence of glomeruli affected by sclerotic lesions (P < 0.01) than in untreated animals after the 10-week study period. Kidney tissue damage was comparable in lisinopril-treated rats and in untreated animals at 20 weeks of age, indicating that structural changes were arrested by the treatment. Thus, in proteinuric MWF rats, late-onset ACE inhibition normalized blood pressure, effectively and progressively restored high protein excretion rate toward normal values, and arrested progression of tissue damage.

Plasmapheresis in the treatment of acute renal failure in multiple myeloma

Three patients with multiple myeloma and severe acute renal failure were treated by repeated plasmapheresis. Recovery of renal function was observed in all. The pathogenetic role of light chains and the possible mechanisms responsible for renal damage are discussed. It is suggested that the removal of light chains by plasmapheresis may be of therapeutic value in this condition.

Prevention of Renal Injury in Diabetic MWF Rats by Angiotensin II Antagonism

We studied the effect of the combination of streptozotocin-induced diabetes and spontaneous renal injury in male MWF rats. Renal hemodynamics was studied by micropuncture 1 month after streptozotocin administration, and kidney morphological evaluation was performed after 4 months of diabetes. We also studied the effect of angiotensin II antagonism on development of renal lesions. Untreated animals developed mild hypertension, proteinuria, and glomerulosclerosis. Induction of diabetes, and maintenance of a moderate hyperglycemic state, was associated with slight but significant elevation in systemic and glomerular capillary blood pressure. Development of proteinuria was not accelerated or exacerbated by diabetes. Glomerular and tubular structural changes were also not worsened by diabetes. Antihypertensive treatment with an ACE inhibitor (benazepril) or with an AII receptor antagonist (valsartan) almost completely prevented systemic and glomerular capillary hypertension, proteinuria and renal structural changes. No significant differences in glomerular volume were observed among the four groups. That induction of experimental diabetes, although associated with glomerular capillary hypertension, did not aggravate the rate of progression of renal dysfunction would suggest that glomerular injury is not directly influenced by glomerular hemodynamic conditions in these animals. Prevention of renal functional and structural abnormalities by antagonism of AII activity in diabetic MWF rats suggests a pathogenetic role for angiotensin in inducing the renal disease in these animals.

Renal protective effect of angiotensin-converting enzyme inhibition in aging rats

Aging in rats with intact kidneys is associated with changes in selective glomerular permeability to macromolecules resulting in proteinuria and progressive glomerular sclerosis. We have previously reported that angiotensin-converting enzyme (ACE) inhibition in Munich Wistar Fromter/Ztm (MWF/Ztm) rats resulted in a significant reduction of proteinuria, in respect to untreated animals, and that treated animals were protected against the development of glomerular sclerotic lesions. The present study was designed to establish whether ACE inhibition protects against glomerular injury in male Sprague-Dawley rats, which develop spontaneous proteinuria and glomerulosclerosis with age. The effect of ACE inhibition was tested when proteinuria was already present. Four-month treatment with the ACE inhibitor perindopril prevented the increase in systolic blood pressure, compared with vehicle-treated animals, and significantly decreased urinary protein excretion of aging rats. Partial protection of the development of glomerular sclerosis was also observed.

Structural basis of diabetic nephropathy in microalbuminuric NIDDM patients: a light microscopy study

Summary The objective of the study was to evaluate early structural changes occurring in patients with non-insulin-dependent diabetes mellitus (NIDDM) and microalbuminuria by light microscopy. Basal renal biopsy was performed in patients who were subsequently randomized to different antihypertensive treatments. Fourteen NIDDM patients aged 36–65 years (duration of diabetes 9 ± 7 years) with microalbuminuria (mean urinary albumin excretion 66 ± 49 μg/min) underwent percutaneous renal biopsy. Control biopsies were obtained from five patients of similar age undergoing nephrectomy for renal neoplasia with normal renal function and no history of renal disease. Control and diabetic biopsies were processed by light microscopy and stained with haematoxylin and eosin, periodic acid Schiff, Massons trichrome and silver methenamine. The percentage of globally sclerotic glomeruli was evaluated. Glomerular volume was determined using perimeter analysis. A semiquantitative assessment (range 0 to 3 +) was made of mesangial sclerosis, interstitial fibrosis, tubular atrophy, arteriosclerosis and arteriolar hyalinosis. Glomerular volume was significantly increased in diabetic as compared to control glomeruli (3.2 ± 8 vs 1.8 ± 7, p < 0.01). Mesangial sclerosis (0.9 vs 0, p < 0.0001) and arteriolar hyalinosis (0.91 vs 0.2, p < 0.022) were significantly higher in diabetic compared to control subjects. No significant differences between diabetic and control subjects were found in the percentage of globally sclerotic glomeruli or in the extent of interstitial fibrosis, tubular atrophy and arteriosclerosis. Thus NIDDM patients with microalbuminuria show histological findings consistent with diabetic nephropathy characterized by glomerular hypertrophy, mesangial sclerosis and arteriolar hyalinosis. However, the renal histological changes are mild and appear less marked than in insulin-dependent diabetic patients. [Diabetologia (1996) 39: 1625–1628].