A new method of measuring albumin permeability in isolated glomeruli

Efficacy of extracorporeal plasma therapy for adult native kidney patients with Primary FSGS: a Systematic review

PURPOSE

This study aimed to assess efficacy of extracorporeal plasma therapy (EPT), including plasmapheresis (PE), immunoadsorption (IA), low-density lipoprotein apheresis (LDL-A), and lymphocytapheresis (LCAP) for adult native kidney patients with primary focal segmental glomerulosclerosis (FSGS).

METHODS

A literature search was conducted using MEDLINE, EMBASE and Cochrane Databases through August 2022. Studies that reported outcomes of EPT in adult native kidneys with primary FSGS were enrolled.

RESULTS

18 studies with 104 therapy-resistant or refractory primary native FSGS patients were identified. Overall EPT response rate was 56%, with long-term benefit of 46%. Of the 101 non-hemodialysis (HD) patients, 54% achieved remission, with 30% complete remission (CR) and 23% partial remission (PR). Of 31 patients with PE, response rate was 65%; CR and PR rates were 27% and 37% in 30 non-HD patients. Of 61 patients with LDL-A, the response rate was 54%; CR and PR rates were 41% and 3% in 29 non-HD patients. Of 10 patients with IA, response rate was 40%. Of 2 patients with LCAP, 1 achieved CR, and one developed renal failure. All 3 HD patients showed increase in urine output and gradual decrease in urine protein excretion following PE (n = 1) or LDL-A (n = 2). 2 of 3 HD patients ultimately discontinued dialysis.

CONCLUSION

EPT with immunosuppressive therapy showed benefit in some patients with refractory primary FSGS, and PE appeared to have a higher response rate.

Therapeutic apheresis for renal disorders

This review summarizes the clinical evidence and practical details for the use of plasmapheresis and other apheresis modalities for each indication in nephrology. Updated information on the molecular biology and immunology of each renal disease is discussed in relation to the rationale for apheresis therapy and its place amid other available treatments. Autoantibody-mediated diseases, such as anti-GBM (anti-glomerular basement membrane) glomerulonephritis (GN), ANCA (antineutrophil cytoplasmic antibody)-related GN and the antibody-mediated type of TTP (thrombotic thrombocytopenic purpura), and alloantibody-mediated diseases such as kidney transplant sensitization and humoral rejection, can be treated by various plasmapheresis methods. These include standard plasmapheresis with a replacement volume, or plasmapheresis with online plasma purification using adsorption columns or secondary filtration. However, it should be noted that the pathogenic molecules implicated in FSGS (focal segmental glomerulosclerosis), myeloma cast nephropathy, and perhaps other diseases are too small to be removed by most online purification methods. A great majority of controlled trials and series on which evidence-based treatment recommendations are made were performed using centrifugal plasmapheresis; it is presumed that membrane-separation plasmapheresis is equally efficacious. For some rarer diseases, such as MPGN (membranoproliferative GN) type 2 with factor H abnormalities or C3Nef (C3 nephritic factor) autoantibodies, there are only a few case reports, but enough scientific understanding to warrant a trial of plasmapheresis in severe cases. Photopheresis, which is effective for cell-mediated rejection in heart and lung transplantation, has not yet found a place in the routine treatment of kidney transplant rejection.

Induction of T regulatory cells attenuates idiopathic nephrotic syndrome

Buffalo/Mna rats spontaneously develop FSGS and nephrotic syndrome as a result of an immune disorder. Similar to some humans with FSGS, the disease recurs after renal transplantation, suggesting the involvement of a circulating factor. Here, we tested the effect of several immunosuppressive treatments on these rats. Although corticosteroids, cyclosporin A, and anti-T cell receptor treatment reduced proteinuria, only the deoxyspergualin derivative LF15-0195 led to a rapid and complete normalization of proteinuria. Furthermore, this compound led to the regression of renal lesions during both the initial disease and posttransplantation recurrence. The frequency of splenic and peripheral CD4+CD25+FoxP3+ T lymphocytes significantly increased with remission. Moreover, the transfer of purified LF15-0195-induced CD4+CD25+ T cells to irradiated Buff/Mna rats significantly reduced their proteinuria compared with the transfer of untreated control cells, suggesting that LF15-0195 induces regulatory T cells that are able to induce regression of rat nephropathy. These data suggest that idiopathic nephrotic syndrome/FSGS disease can be regulated by cellular transfer, but how this regulation leads to the reorganization of the podocyte cytoskeleton remains to be determined.

Advances in apheresis therapy for glomerular diseases

This article is an overview of the immunomodulatory effects of apheresis in renal diseases, especially primary and secondary glomerulonephritis, and the clinical evidence for the efficacy of apheresis therapy. Permeability factor(s) derived from circulating T cells are speculated to have a crucial role in the proteinuria of nephrotic syndrome (NS). Plasma exchange (PE); immunoadsorption plasmapheresis (IAPP), using protein A sepharose cartridges; low-density lipoprotein apheresis; and lymphocytapheresis (LCAP) have been used to remove such factors or pathogenic T cells. Other glomerular diseases induced by specific antibodies such as anti-glomerular basement membrane antibodies, anti-neutrophil cytoplasmic antibodies, and immune-complexes have also been treated with PE, double-filtration plasmapheresis, IAPP, and LCAP. Recommendations, based on the evidence from recent randomized controlled studies, have been established in apheresis therapy for various glomerular diseases.

Spontaneous activation of the NF-κB signaling pathway in isolated normal glomeruli

In this report, we describe that NF-κB is spontaneously activated in isolated, normal glomeruli. Ex vivo incubation of isolated rat glomeruli triggered expression of a NF-κB-dependent gene, monocyte chemoattractant protein-1 (MCP-1), in parallel with downregulation of IκBα and IκBβ proteins and activation of the p65 NF-κB subunit. The induction of MCP-1 was also observed in mesangial cells coincubated with isolated glomeruli or exposed to media conditioned by isolated glomeruli (GCM), which was abrogated by inhibition of NF-κB. The activation of NF-κB by glomerulus-derived factors was confirmed using reporter mesangial cells that produce secreted alkaline phosphatase (SEAP) under the control of the κB enhancer element. When the reporter cells were adoptively transferred into normal glomeruli, expression of SEAP mRNA and activity of SEAP were also upregulated in the explanted glomeruli. The molecular weight of factors responsible for activation of NF-κB was >50 kDa, and TNF-α was identified as one of glomerulus-derived activators. To examine upstream events involved, we focused on MAP kinases that are spontaneously activated in explanted glomeruli. Selective suppression of ERK or p38 MAP kinase significantly attenuated activation of NF-κB in mesangial cells triggered by coculture with isolated glomeruli. Interestingly, the suppressive effects by MAP kinase inhibitors were not observed in mesangial cells treated with GCM. These data suggested that NF-κB was spontaneously activated in explanted glomeruli via autocrine/paracrine factors including TNF-α and that the production of NF-κB activators by glomeruli was, at least in part, through MAP kinase pathways.

Effect of nitric oxide synthase inhibition on proteinuria in glomerular immune injury

In glomerular immune injury, the inducible isoform of nitric oxide synthase (iNOS) becomes a major catalyst of NO production. Although iNOS-catalyzed NO production is sustained and can be cytotoxic, iNOS inhibition exacerbates the magnitude of proteinuria that accompanies immune injury. To investigate putative mechanisms of this effect, we assessed changes in glomerular permeability to albumin by using the following two approaches: (i) an in vivo rat model of glomerular immune injury induced by antibody against the glomerular basement membrane (GBM), in which urine albumin excretion was measured under conditions of iNOS inhibition, and (ii) an ex vivo model of isolated rat glomeruli, in which changes in glomerular capillary permeability to albumin were assessed under conditions of NOS inhibition. In rats with anti-GBM antibody-induced glomerular injury, there was an increase in urine albumin excretion. Treatment with two structurally dissimilar iNOS inhibitors at doses sufficient to decrease urine nitrate and/or nitrite exacerbated proteinuria. In these animals, urine excretion of the isoprostane 8-iso-PGF2alpha (marker of oxidative stress) was increased. In isolated glomeruli incubated with the NOS inhibitor L-NMMA, the permeability to albumin increased. This effect was reversed by the NO donor DETA NONOate and by the superoxide dismutase mimetic Tempol. We conclude that NOS-catalyzed NO production is an important mechanism in regulating glomerular permeability to protein. This mechanism involves control of the bioavailability of superoxide.

Nitric oxide preserves the glomerular protein permeability barrier by antagonizing superoxide

BACKGROUND

The interaction of nitric oxide with superoxide (O2-) is a major O2- scavenging mechanism that can minimize O2 (-)-mediated oxidative stress. Glomeruli produce both nitric oxide and O2- and generation of both radicals is increased in various forms of glomerular disease. O2- increases glomerular capillary permeability to albumin (P(alb)). The present studies tested the hypothesis that nitric oxide opposes this effect, thereby preserving the glomerular protein permeability barrier.

METHODS

P(alb) was determined in isolated rat glomeruli by measuring the change in glomerular volume in response to an experimental oncotic gradient. Changes in P(alb) in response to O2- generated by tumor necrosis factor-alpha (TNF-alpha) or xanthine/xanthine oxidase (X/XO) was assessed under conditions of nitric oxide depletion and repletion.

RESULTS

Incubation of rat glomeruli with the nitric oxide synthase (NOS) inhibitor L-N(G)-monomethyl arginine (L-NMMA) increased P(alb.) This effect was reversed by the nitric oxide donor diethylenetriamine NONOate (DETA-NONOate) and by the superoxide dismutase (SOD) mimetic Tempol. O2- generated after incubation with TNF-alpha or X/XO increased P(alb). This effect was blocked by DETA-NONOate.

CONCLUSION

We demonstrate that nitric oxide protects the glomerular filtration barrier from injury caused by O2- and suggest that inhibition of nitric oxide synthesis could enhance O2(-)-mediated oxidative injury under pathologic conditions.

The effect of proteinase inhibitors on glomerular albumin permeability induced in vitro by serum from patients with idiopathic focal segmental glomerulosclerosis

BACKGROUND

The putative circulating factor responsible for the glomerular permeability alterations induced in vitro by serum from patients affected by focal segmental glomerulosclerosis (FSGS) remains unidentified. We have observed that a serine proteinase isolated from patient serum increases albumin permeability in isolated glomeruli. The objective of the present study was to determine the effect of various proteinase inhibitors on glomerular albumin permeability (P(alb)) in isolated glomeruli incubated with FSGS serum.

METHODS

The study population consisted of 12 FSGS patients (eight males; mean age: 21+/-10 years) previously shown to have elevated serum albumin permeability activity. P(alb) was determined by measuring the change in glomerular volume induced by applying oncotic gradients to isolated healthy rat glomeruli treated with patient serum in comparison to control serum. Solutions of seven different proteinase inhibitors (0.5 mg/ml) were added to the incubation media with the sera (1:1 vol/vol): serine proteinase inhibitors (PMSF, leupeptin, aprotinin, gabexate mesylate), the cysteine proteinase inhibitor E-64, the metalloproteinase inhibitor EDTA and the aspartate proteinase inhibitor pepstatin. Sera from the same patients were also tested with the addition to the incubation media of quinaprilat, an inhibitor of the metalloproteinase angiotensin-converting enzyme.

RESULTS

Mean P(alb) of the sera was 0.86+/-0.11, with the addition of PMSF 0.41+/-0.09, leupeptin 0.30+/-0.17, aprotinin 0.09+/-0.14, gabexate mesylate 0.27+/-0.25, E-64 0.81+/-0.09, EDTA 0.68+/-0.10 or pepstatin 0.76+/-0.11. The mean P(alb) of the sera combined with quinaprilat was reduced to 0.34+/-0.35. Thus, only the serine proteinase inhibitors consistently blocked the increased P(alb) induced by the FSGS sera.

CONCLUSIONS

In the cascade of events that lead to the initiation of glomerular fibrosis in FSGS, the putative glomerular permeability factor associated with FSGS may require a serine proteinase to effect its activity.

Immunomodulation Effects and Clinical Evidence of Apheresis in Renal Diseases

This article overviews the immunomodulation effects and clinical evidence of apheresis in renal diseases, in particular primary and secondary glomerulonephritis. A considerable permeability factor(s) derived from circulating T cells is speculated to have a crucial role in the proteinuria of nephrotic syndrome (NS). Plasma exchange (PE), immunoadsorption using Protein A sepharose cartridges, low-density lipoprotein apheresis and lymphocyte apheresis (LCAP) were tried to remove such factors or pathogenic T cells. Other glomerular diseases induced by specific antibodies such as antiglomerular basement membrane antibodies, antineutrophil cytoplasmic antibodies and immune-complexes such as lupus nephritis were also treated with PE, double filtration plasma apheresis. IAPP and LCAP. Many reports suggested that apheresis might have beneficial immunomodulation effects for the treatment of glomerular diseases: however, the recommendations based on evidence from small cohorts remain at low-level in most.

Nephrotic urine prevents increased rat glomerular albumin permeability induced by serum from the same patient with idiopathic nephrotic syndrome

BACKGROUND

The putative humoral mediator thought to be involved in the pathogenesis of idiopathic nephrotic syndrome has not yet been identified. However, components exist in normal serum that block the permeability activity of FSGS serum in vitro. The potential of FSGS serum to increase glomerular albumin permeability may result from an imbalance between permeability factors and naturally occurring inhibitors. We hypothesized that this imbalance may be favoured by loss of inhibitory factors in nephrotic urine.

METHODS

The study population consisted of seven patients with biopsy-proven FSGS, one with IgM nephropathy, and three with idiopathic nephrotic syndrome without biopsy, from whom frozen serum and dialysed and lyophilized urine samples were available. Glomerular albumin permeability (P(alb)) was determined from the change in glomerular volume induced by applying oncotic gradients across the basement membrane of normal isolated rat glomeruli pre-incubated with patient serum, normal control serum, patient serum mixed with an equal volume of urine from the same patient, or patient serum mixed with normal urine. Serum and urine apolipoproteins J and E were measured by dot-blot, utilizing peroxidase-labelled antibodies. The urinary capacity to scavenge oxygen radicals was determined after exposure of isolated glomeruli to superoxide generated by xanthine and xanthine oxidase.

RESULTS

The mean P(alb) of the patients was markedly elevated at 0.74+/-0.08. The addition of urine from the same patient significantly reduced P(alb) (mean 0.15+/-0.23) in all but one of the patients with FSGS. Normal urine had no inhibitory effect in the 10 patients in which it was tested (mean 0.71+/-0.09). Serum apo J was slightly decreased and serum apo E was slightly increased compared with controls. Urine levels of both lipoproteins were significantly decreased compared with controls. Urine from FSGS patients effectively neutralized superoxide, whereas normal urine did not.

CONCLUSIONS

Nephrotic urine but not normal urine contains components that block increased albumin permeability in isolated rat glomeruli induced by serum from patients with the idiopathic nephrotic syndrome. The inhibitory function of these components, which appear not to include apolipoproteins J and E, may involve scavenging of superoxide as a final common pathway. Loss in the urine from the serum of naturally occurring inhibitors in the initial stages of the disease may propagate proteinuria and glomerular injury.

Intravenous cyclosporine therapy in recurrent nephrotic syndrome after renal transplantation in children

BACKGROUND

Early recurrence of massive proteinuria after renal transplantation occurs in 20% to 30% of patients with steroid-resistant idiopathic nephrotic syndrome and is responsible for graft failure in approximately half of cases. We report our experience with the use of intravenous (IV) cyclosporine (CsA) in children with recurrent proteinuria after renal transplantation.

METHODS

Between March 1991 and August 2001, 36 renal transplantations were performed in 35 patients with steroid-resistant idiopathic nephrotic syndrome in our institution. Recurrence, defined by proteinuria higher than 50 mg/kg per day in the absence of acute rejection or urinary tract infection, was observed in 17 grafts performed in 16 patients. In patients with recurrence, CsA was administered IV, at an initial dose of 3 mg/kg per day, which was afterward adapted to maintain whole-blood levels between 250 and 350 ng/mL.

RESULTS

In 14 of 17 cases (82%) with recurrence, proteinuria completely disappeared after 20.8+/-8.4 (range 12-40) days. The treatment was ineffective in the remaining three patients with persistent proteinuria at the end of the second month posttransplantation. Plasma exchanges were performed in four patients during the first 2 months, and proteinuria regressed in three cases and persisted in one. Persistent remission was observed in 11 patients with a follow-up of 3.7+/-3 (range 0.3-9) years. Actuarial graft survival was 92% and 70% at 1 and 5 years.

CONCLUSION

IV CsA is a safe and effective treatment in children with recurrent nephrotic syndrome after renal transplantation.

The beneficial effects of lymphocytapheresis for treatment of nephrotic syndrome

A considerable permeability factor (or factors) derived from circulating T cells has a crucial role in proteinuria of nephrotic syndrome (NS). We attempted to remove pathogenic T cells through lymphocytapheresis (LCAP) in 6 patients with primary NS, 2 patients with minimal change nephrotic syndrome (MCNS), 2 patients with focal segmental glomerulosclerosis (FSGS), 1 patient with membranous nephropathy (MN), and 1 patient with MN and FSGS using Cellsorba (Asahi Medical Co., Osaka, Japan). LCAP was performed 2 times in 2 consecutive weeks and was followed with corticosteroid therapy with or without cyclosporine A in 5 patients. Two patients with MCNS, 1 with FSGS, and 1 with MN and FSGS showed a dramatic decrease of proteinuria (-30% and -94%) in their urine protein/creatinine ratio. Three out of 4 patients had a complete or partial remission (proteinuria <1g/day) within 8 weeks following immunosuppressive therapy. During the LCAP, T cells, especially activated T cells, decreased significantly in the response group. The other 2 patients, 1 with FSGS and 1 with MN, however, had no response to LCAP and following immunosuppressive therapy or low-density lipoprotein apheresis and suffered from end-stage renal failure or death by pneumonia. These results suggested that LCAP might have a beneficial effect on the treatment of NS, especially MCNS and in some patients with FSGS, despite varying responses to LCAP and concomitant immunosuppressive therapy.

Extrarenal effects on the pathogenesis and relapse of idiopathic nephrotic syndrome in Buffalo/Mna rats

Buffalo/Mna rats spontaneously develop a focal segmental glomerulosclerosis with a histological pattern similar to the human disease. In this study, we investigated the potential of recurrence of the disease by transplantation of normal kidneys into Buffalo/Mna recipients. Kidneys from healthy LEW.1W rats were grafted into proteinuric 6-month-old Buffalo/Mna rats without or with specific tolerance induction following donor-specific transfusion (DST) aimed at controlling host anti-donor immune responses. The inverse combination was carried out to determine whether a proteinuric Buffalo/Mna kidney can recover its permselectivity in a normal environment. As a control, LEW.1W kidneys were grafted into Wistar Furth recipients. After transplantation without DST, recurrence of proteinuria in LEW.1W kidneys appeared at approximately 10 days, possibly associated with rejection of the graft. In the same combination with DST, proteinuria occurred after 20 days, and the attendant glomerular damage suggested that the initial kidney disease had recurred. Transplanted control animals remained free of proteinuria. In the opposite combination, the proteinuria and the lesions of Buffalo/Mna kidneys regressed after transplantation into healthy LEW.1W rats. The recurrence of proteinuria after transplantation in Buffalo/Mna and the remission of lesions in Buffalo/Mna kidneys transplanted into normal hosts suggests that Buffalo/Mna rats express circulating albuminuric factors, which may be relevant to the relapse of idiopathic nephrotic syndrome in humans.

Induction of metallothionein-I protects glomeruli from superoxide-mediated increase in albumin permeability

Metallothioneins (MT) are low-molecular-weight, heat-stable, cysteine-rich proteins with four isoforms. MT-I and MT-II are ubiquitous and are induced by oxidative, physical, and chemical stress. MT-I is an efficient scavenger of superoxide (*O2) and hydroxyl ion (OH(-)). We have demonstrated that *O2 and hypohalous acid can cause an increase in glomerular albumin permeability (P(alb)) in vitro. The purpose of this study was to document the protective effect of MT gene product on the *O2-mediated increase in P(alb). Glomeruli from Sprague-Dawley rats in 4% BSA medium were incubated for 4 hr at 37 degrees C in duplicate tubes. Each set contained glomeruli alone or with 5 microM Cd(++), 0.3 mM Spermine-NONOate (NO donor), 0.3 mM Sulfo-NONOate (nitrous oxide donor), 0.6 mM SNP (nonspecific NO donor) and SNP + carboxy-PTIO (10 mg/ml). After incubation, one set of tubes was used to isolate total RNA for the measurement of the mRNA levels of MT-I by reverse transcriptase polymerase chain reaction (RT-PCR). Duplicate tubes were incubated for an additional 10 min with 10 nM of *O2, and P(alb) was measured using video microscopy. RT-PCR of total RNA from Cd(++) and Spermine-NONOate treated glomeruli revealed a 2-fold induction of MT-I expression at the mRNA level. *O2 caused a significant increase in P(alb) (0.8 +/- 0.06 vs. control 0.0 +/- 0.12, P < 0.05) and induction of MT-I in glomeruli by Cd(++) or by Spermine-NONOate blocked this effect (0.21 +/- 0.12 and 0.24 +/- 0.19, respectively, P < 0.05 vs. *O2). In contrast, Sulfo-NONOate and SNP did not induce mRNA for MT-I in glomeruli and did not provide protection against *O2-mediated increase in P(alb.) We conclude that MT-I gene products may play an important role in protecting the glomerular filtration barrier from the injury induced by reactive oxygen species in immune and/or nonimmune renal diseases.

Nitric oxide increases albumin permeability of isolated rat glomeruli via a phosphorylation-dependent mechanism

Nitric oxide (NO) has been implicated in the induction of proteinuria in acute inflammatory glomerulonephritis and in the increased vascular permeability seen in various other disease conditions. The complicated interactions of NO with other factors in vivo hinder analysis of the mechanisms involved. By use of a recently introduced method for measuring albumin permeability (P(a)) in isolated glomeruli, the question of whether NO has a direct effect on the permeability barrier of glomerular tufts was examined and the potential mechanisms were explored. Exposure of isolated glomeruli to three NO donors, s-nitroso-N-acetyl-penicillamine (SNAP), (Z)-1-[-2-(aminoethyl)-N-(2-ammonioethyl)amino]diazen-1-ium-1,2-diolate (DETA-NONOate), and sodium nitroprusside, all increased the P(a). This action of NO was time- and concentration-dependent and could be mimicked by 8-bromoguanosine 3', 5'-cyclic monophosphate. Western blot analysis of the proteins from NO donor-treated glomeruli revealed an increase of phosphotyrosine levels of proteins of molecular mass about 120 and 70 kD. The demonstration that pretreatment of glomeruli with the tyrosine kinase inhibitor, genistein, could largely prevent the effect of SNAP and DETA-NONOate confirmed the crucial role of tyrosine phosphorylation in the NO-induced increase of P(a). Furthermore, the tyrosine phosphatase inhibitor, phenylarsine oxide (PAO), could mimic the action of NO on P(a). NO-enhanced tyrosine phosphorylation was further confirmed by immunofluorescence staining, where positive cells in SNAP- and PAO-treated glomeruli were much more frequent than that in controls. By use of dual-label staining in combination with podocyte specific marker, nephrin, it was observed that most of the phosphorylated positive cells corresponded to podocytes. These results suggest that NO impairs the glomerular permeability barrier through a tyrosine phosphorylation-dependent mechanism.

Apolipoproteins prevent glomerular albumin permeability induced in vitro by serum from patients with focal segmental glomerulosclerosis

Glomerular albumin permeability alterations can be induced in vitro by serum from patients with end-stage renal disease caused by primary focal segmental glomerulosclerosis (FSGS). It was hypothesized that inhibitory substances may be present in normal serum, which may prevent the permeability alterations in isolated glomeruli, and the present study sought to isolate and characterize these factors. Albumin permeability was determined from the change in glomerular volume induced by applying oncotic gradients across the basement membrane of healthy isolated rat glomeruli preincubated with FSGS serum and normal serum fractionated using standard techniques. Fractions of normal serum with inhibitory activity obtained by a multistep chromatographic procedure underwent two-dimensional electrophoresis and staining. Approximately 50 protein spots were recovered, renatured, and tested for antipermeability activity. Five of these proteins demonstrated consistent inhibitory activity, and desorption ionization and mass spectrometry proved them to be components of high-density lipoprotein: apolipoproteins (apo) E(2) and E(4), high-molecular-weight J and L, and a 28-kD fragment of A-IV. Polyclonal antibodies to apo E or apo J added to the whole normal serum restored the permeability activity of the FSGS serum in the bioassay. Commercially available apo E and apo J also demonstrated antipermeability activity when added to FSGS serum. Cyanogen bromide digestion of apo A-IV produced fragments that inhibited the permeability activity of the FSGS serum, whereas the intact protein did not. Thus, components of high-density lipoprotein are capable of preventing glomerular albumin permeability induced by serum from patients with FSGS in an in vitro system. The specificity and mechanism of the inhibition remain to be determined; the alteration of normal inhibitory activity in vivo may be a component in the pathophysiology of FSGS.

Effect of plasma fractions from patients with focal and segmental glomerulosclerosis on rat proteinuria

BACKGROUND

Patients suffering from focal and segmental glomerulosclerosis (FSGS) and in whom this disease recurs after transplantation are likely to have an active form of the disease and to have a factor(s) (such as, albuminuric factor) present in their blood that alters glomerular permeability for albumin.

METHODS

We used a sequential 50 and 70% ammonium sulfate (AS) precipitation of plasma from patients with relapsing FSGS and non-FSGS nephrotic syndrome (NS), in addition to plasma from healthy individuals, to obtain both an immunoglobulin (Ig)-rich fraction (50% AS precipitate) and a non-Ig fraction (70% AS supernatant). These fractions were injected intra-arterially or intravenously/intraperitoneally into Sprague-Dawley rats, and proteinuria (g protein/mmol creatinine) was measured for 24 hours. Ig fractions eluted from immunoadsorption onto protein A were also tested. A biochemical characterization was then carried out on the 70% AS supernatants by ultrafiltration on 30 and 50 kD cut-off membranes and by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). Differentially stained bands were sequenced.

RESULTS

The 70% AS supernatants from FSGS patients induced proteinuria when injected intra-arterially into normal rats. This effect was significantly different (P < 0.05) from that observed when similar fractions were prepared from the plasma of patients suffering from non-FSGS NS, but was not different from that observed with fractions from healthy individuals and even with an injection of saline solution. Injections of other plasma fractions did not induce a significant proteinuria in the FSGS group versus the non-FSGS NS group. SDS-PAGE of 70% AS supernatants revealed a protein of 23 kD that was more concentrated in AS supernatants from FSGS plasma than the other plasma samples and that was identified by microsequencing as apolipoprotein A1. After sequential ultrafiltration of 70% AS supernatants on 30 and 50 kD cut-off membranes, a second band of 43 kD was found at a much higher concentration in the FSGS samples than in non-FSGS NS and healthy individuals samples. This band is likely to correspond to a candidate albuminuric factor recently reported by another group [1], and was identified by microsequencing as alpha1 acid glycoprotein or orosomucoid. Consequently, purified orosomucoid from the plasma of FSGS, non-FSGS NS patients, or healthy individuals was injected intra-arterially into rats. No differences were found between the proteinuria induced in each group.

CONCLUSIONS

These data strongly suggest that in vivo injection of material into the rat is not a reliable model for testing plasma fraction activity and that the 43 kD orosomucoid is not likely to be the albuminuric factor.

Components of normal serum block the focal segmental glomerulosclerosis factor activity in vitro

BACKGROUND

Sera from some patients with focal segmental glomerulosclerosis (FSGS) increase glomerular albumin permeability (P(alb)) in vitro. The hypothesis that a component of normal serum can protect the glomerular permeability barrier was tested using sera from FSGS patients, normal individuals, and several mammalian and avian species.

METHODS

In most experiments, isolated rat glomeruli were incubated in medium containing FSGS serum known to increase P(alb) in vitro, normal serum, or both active FSGS and normal serum. In other experiments, fractions of normal serum and serum from other vertebrate species were incubated with active FSGS serum. P(alb) was calculated from glomerular capillary expansion in response to an oncotic gradient. To enrich the blocking activity, normal pooled human plasma was subjected to various biochemical manipulations.

RESULTS

Normal human serum prevented the increase in P(alb) (active FSGS sera, 0.77 +/- 0.12; active FSGS sera:normal serum, 1:1 mix, 0.06 +/- 0.30, P < 0.001). Protection diminished as the concentration of normal serum was decreased. Specific fractions of human serum, including human albumin and immunoglobulin fractions, were not protective. Blocking activity was present in 80% ammonium sulfate precipitate and certain fractions from size-exclusion chromatography of normal pooled human plasma. Normal serum from each of the vertebrate species tested also prevented the increase in P(alb). Preincubation with normal serum was protective during subsequent incubation with FSGS serum, but normal serum was not protective after preincubation with FSGS serum.

CONCLUSIONS

We conclude that a factor or factors in normal serum block the permeability effect of active FSGS sera. This phenomenon may account for variability in proteinuria among patients with FSGS and may explain inconsistent proteinuria following injection of FSGS sera into experimental animals. Characterization of the protective substance(s) and the mechanism by which the increase in permeability is blocked may provide insight into the pathogenesis of FSGS.

"The FSGS factor:" enrichment and in vivo effect of activity from focal segmental glomerulosclerosis plasma

A circulating causative factor has been postulated in focal segmental glomerulosclerosis (FSGS). It has been shown that serum or plasma from some FSGS increases glomerular albumin permeability (Palb) in vitro. Palb greater than 0.5 (i.e., FS activity) is associated with recurrence after transplantation. Specimens from 15 FSGS patients were studied to document the presence of a permeability factor, to isolate this factor, to characterize its biochemical properties, and to show its effect in vivo. Total lipids were extracted by chloroform/methanol (2: 1); FS activity was absent from total lipid extract. Chylomicrons and lipoproteins were removed from the plasma with dextran sulfate, followed by sequential precipitation of proteins at 50 and 70% ammonium sulfate saturation. FS activity was retained in the 70% ammonium sulfate supernatant and exhibited a 100-fold purification. FS activity was lost after heating at 100 degrees C for 10 min or after protease digestion. Under nondenaturing conditions, electrophoresis of the FSGS 70% supernatant showed a prominent low molecular weight band that was not evident in the 70% supernatant from normal plasma. Dialysis and centrifugation-based membrane ultrafiltration of the FSGS factor indicated a molecular size between 30 and 50 kD. Injection of the 70% FSGS supernatant into rats caused a threefold increase in urine protein in collections from 6 to 24 h after injection. No increase in proteinuria occurred in rats injected with 70% supernatant from normal individuals. It is concluded that the FSGS factor is a low molecular weight protein with the potential to increase Palb in vitro and to cause proteinuria in vivo.

Spontaneous apoptosis of podocytes in explanted glomeruli. Technical note

Despite the extensive use of isolated glomeruli for kidney research, little is understood about whether and how isolation and explantation affect the structure and function of the glomerulus. In this report, we investigate the incidence of apoptosis in explanted, normal rat glomeruli. By using ladder detection assay, terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling and histological analysis, the present study provides evidence that significant number of resident cells, especially podocytes, spontaneously undergo apoptosis immediately after explantation of glomeruli.

Study of the in vitro effect on glomerular albumin permselectivity of serum before and after renal transplantation in focal segmental glomerulosclerosis

BACKGROUND

The selective proteinuria observed in patients with focal segmental glomerulosclerosis (FSGS) suggests an abnormal loss of fixed anionic charges on the glomerular capillary wall.

METHODS

In this article, we have studied the putative presence of such factor(s) by using a new in vitro assay to assess glomerular permselectivity by measuring glomerular volume variation (GVV) in isolated glomeruli after hypotonic stress. We randomly tested the serum GVV activity of 10 healthy donors and 143 patients before transplantation. Of the patients, 80 had FSGS, 26 membranous glomerulonephritis, 19 polycystic kidney disease, and 18 malformative uropathies. Moreover, we tested the pre- and posttransplantation serum of 14 patients with recurrence and 14 without recurrence.

RESULTS

Serum GVV was significantly higher in patients with FSGS than in those with the other end-stage renal diseases studied (P<0.01) or in healthy donors (P<0.01). However, a wide distribution of serum GVV activity in patients with and without FSGS was observed. Statistically, pregraft GVV values were not predictive of the recurrence of FSGS after transplantation. Moreover, we observed a significant decrease in serum GVV activity after transplantation in patients without recurrence (P<0.01) compared to those who underwent a recurrence.

CONCLUSIONS

These results reinforce the hypothesis of a circulating factor that alters glomerular albumin permselectivity in FSGS patients. However, the presence of this factor before transplantation did not appear to predict relapse of the disease after transplantation, as recently supported, although its activity seems to be down-regulated after transplantation in patients who do not experience recurrence of the disease.