Thrombomodulin is synthesized by human mesangial cells

Thrombomodulin (TM), an endothelial receptor for thrombin, endowed with a powerful anticoagulant activity, plays an important role in the antithrombogenicity of the vascular endothelium. Its presence within the human renal glomerulus is already known but was thought to be only endothelial. We looked for TM expression in human mesangial cells (MC), both in situ, in freshly prepared glomeruli, and in primary culture. Both fresh and cultured MC were strongly reactive for TM by immunocytochemical methods. Total TM antigen measured on MC lysates and surface TM activity on MC were 0.292 +/- 0.075 ng/mg of cellular proteins and 1.20 +/- 0.02 pmole of activated protein C/min/mg of cellular proteins, respectively. As shown by the presence of numerous transcripts detected by in situ hybridization, TM was shown to be synthesized by MC in vivo and in culture. The synthesis of active TM by both endothelial and mesangial cells within the renal glomerulus stresses the importance of its role in maintaining renal hemostatic equilibrium, and sheds some light on the conflicting reports of TM over- and underexpression in glomerulopathies to open a new field for investigation.

Nephrotic syndrome and Hodgkin disease in children: a report of five cases

This report documents the occurrence of a nephrotic syndrome in five children with Hodgkin disease. In two cases the nephrotic syndrome predated the diagnosis of lymphoma by 6 months and 12 months respectively, while in the other three, the two disorders occurred simultaneously. The nephrotic syndrome resolved in four cases during effective treatment for active Hodgkin disease, while proteinuria remained unchanged in the fifth case with partial control of the lymphoma. The occurrence of a nephrotic syndrome as a manifestation of active Hodgkin disease suggests that some immunological abnormalities play a role in the pathogenesis of the association.

CONCLUSION

The possibility of glomerular dysfunction although rare must be considered and actively looked for in all cases of Hodgkin disease. Similarly, any unusual sign or symptom noted in patients with nephrotic syndrome, particularly receiving or having received immunosuppressants, requires thorough investigation to determine the presence or absence of lymphoma.

Circulating serum lectins of patients with IgA nephropathy stimulate IL-6 release from mesangial cells

Previously, the authors reported that the serum of patients with immunoglobulin (Ig) A nephropathy stimulated peripheral leukocytes, and this effect was inhibited by nominal haptens for lectins. In vitro studies have shown that lectins can bind to rat mesangial cells and cause their activation. This study was performed to investigate whether the serum of IgA nephropathy patients contains lectins that activate mesangial cells, i.e., induce release of interleukin (IL)-6, a nephritogenic cytokine. The serum of patients was adsorbed by affinity chromatography on resins loaded with lectin-binding sugars. After adsorption, serum supernatant was collected and the resins were then eluted. Human mesangial cells were conditioned with native serum, post-adsorption supernatant, and eluate (all three at 10%) for 24 h, and the release of IL-6 was determined by ELISA. Normal serum was used as control. Incubation of mesangial cells with IgA nephropathy patients serum raised average IL-6 release from 8.5 pg/mL to 274.1 pg/mL. Adsorption in beta-D-glucose and N-acetyl-D-glucosamine caused a fall in the activity of patients' serum, to 17.0 and 63.7 pg/mL, respectively, and the activity lost was recovered in the eluate (185.2 and 142.7 pg/mL, respectively). Neither adsorption on N-acetyl-D-galactosamine nor on fucosylamine was associated with any effect on serum activity; accordingly, no activity was found in the eluates. Serum of patients with non-IgA mesangiocapillary nephritis did not stimulate mesangial cells. These results show that the serum of IgA nephropathy patients contains specific lectins that stimulate IL-6 nephropathy by mesangial cells and are, therefore, potential nephritogenic.

Overexpression of Crry protects mesangial cells from complement-mediated injury

Crry is a membrane-associated complement regulatory protein expressed on glomerular mesangial, endothelial, and epithelial cells, which reduces C3/C5 convertase activity. This study utilized an overexpression strategy to determine the functional significance of Crry in cultured rat mesangial cells. A Crry expression vector was constructed and was tagged with a c-myc epitope that allowed transfected Crry to be distinguished from the constitutively expressed protein. In stable clones, overexpressed Crry was clearly detected immunocytochemically both by anti-c-myc and anti-Crry antibody in a membrane localization. The overexpression of Crry was also confirmed by Western blotting and immunoprecipitation. To determine if overexpression of Crry by mesangial cells confers a protective effect from complement attack, complement-mediated cell lysis assays were performed. Crry-transfected mesangial cells demonstrated complete resistance to complement-mediated cell lysis, which was reversed by neutralization of Crry with both monoclonal antibody and F(ab')2 fragments of the antibody. This study also investigated the role of Crry in protecting cells from the effects of sublytic complement attack. Overexpressed Crry suppressed antibody/complement induced production of superoxide, one of the inflammatory mediators induced by sublytic complement attack. Immunocytochemical staining confirmed a reduction in C3 and C5b-9 deposition in Crry-transfected cells. These results demonstrate directly that transfected Crry functions as a potent protector of mesangial cells against complement-mediated injury. Crry may play an important role in modulating the glomerular response to immune injury in vivo.

Structural features of nephritogenic lupus autoantibodies

We have identified monoclonal antibodies derived from MRL-lpr/lpr lupus-prone mice that produced nephritis after passive transfer to normal mice. Our present goal was to elucidate the structural and immunochemical features of nephritogenic Ig that facilitate immune deposition. For this purpose the antigen binding properties, capacity to form immune deposits, and nucleotide sequence of a genetically related autoantibody subgroup were compared. The prototype, H147 (an IgG encoded by 7183/81X VH gene), produced glomerular and tubular basement membrane, mesangial immune deposits, and proliferative glomerulonephritis after passive transfer to normal mice. For comparison three other 7183/81X encoded anti-DNA IgG (H257, H171, and H8a) were evaluated (predicted heavy chain aa homology >75%). H257 produced similar types of immune deposits as H147, and this was associated with nephritis; H8a produced predominantly mesangial deposits, whereas H171 did not produce significant deposits. Although their antigen binding profile to a panel of soluble autoantigens was variable, only H147 and H257 bound to both mesangial and aortic endothelial cell surfaces. V gene sequence analysis of the IgG suggests that individual residues, motifs, and conformations influence the autoantigen binding specificities that contributed to the observed differences in immune deposit formation.

Selective breeding for high serum IgA levels from noninbred ddY mice: isolation of a strain with an early onset of glomerular IgA deposition

An outbred mouse strain known as ddY has been reported to spontaneously develop, late in life, mesangioproliferative glomerulonephritis with a severe glomerular immunoglobulin A (IgA) deposition that mimics human IgA nephropathy. However, the incidence of the disease in this strain is not very high, probably due to its heterogeneous genetic background. Therefore, we attempted to isolate a strain with a high incidence and an early onset of the disease through selection for high serum IgA from the outbred ddY mice. The selection procedure was successful in increasing the serum IgA level of the selected line and proved effective both in increasing the incidence and in accelerating the onset of the disease. We propose to designate this line of mice 'HIGA', denoting a line with high serum IgA levels. More than half of the mice from the HIGA strain showed a moderate to severe glomerular IgA deposition as early as 25 weeks of age. The severe deposition observed was comparable to that occasionally seen in the original nonselected ddY strain after 40 weeks of age. Thus, we have succeeded in generating a mouse model of IgA nephropathy with a high incidence and an early onset of glomerular IgA deposition. Using light microscopy, progressive and marked mesangial matrix accumulation was shown to develop in HIGA mice. However, they showed only mild proteinuria (100-300 mg/dl) and did not show hematuria.

Efficient induction of apoptosis in cultured rat glomerular mesangial cells by dimeric monoclonal IgA anti-Thy-1 antibodies

Apoptosis of glomerular cells (GMC) has been observed in the early phase as well as the resolution phase of Thy-1 nephritis. Recently, we and others reported that IgG2a (ER4G) and IgG1 (OX7) monoclonal mouse anti-Thy-1 antibodies (anti-Thy-1 MoAb) are able to induce apoptosis of rat GMC in vivo. The purpose of this study was to investigate whether cross-linking of Thy-1 would influence the degree of apoptosis in cultured rat GMC using monomeric and dimeric IgA anti-Thy-1 MoAb. IgA anti-Thy-1 MoAb (ER4A) was generated by class switching of the IgG producing ER4 (ER4G) hybridoma. The ER4A clone spontaneously produces monomeric (m-ER4A) and dimeric IgA anti-Thy-1 MoAb *di-ER4A). Unaltered epitope specificity of ER4A was confirmed by blocking experiments of the binding of fluorescence labeled ER4G to cultured rat GMC with unlabeled ER4A on FACS. For the experiments of apoptosis, quiescent rat GMC were incubated for eight hours with medium alone or with medium in the presence of 10 micrograms/ml of m-ER4A, di-ER4A or control IgA MoAb of corresponding sizes. Apoptosis was assessed by morphological studies, agarose gel electrophoresis and quantitative FACS analyses using terminal deoxynucleotidyl transferase (TDT) method and the annexin V method. The TDT method detects specific-DNA nicking in apoptosis. The annexin V method detects early membrane changes during apoptosis. In morphological studies, cells incubated with m-ER4A and di-ER4A showed typical apoptotic features such as nuclear condensation and fragmentation. DNA isolated from the cells incubated with di-ER4A was cleaved into a distinctive ladder pattern compatible with apoptosis. In contrast, both medium alone and control IgA MoAb did not reveal detectable changes in morphological studies and agarose gel electrophoresis. In quantitative analyses by FACS using the TDT method and the annexin method, both m-ER4A and di-ER4A induced significantly higher percentages of apoptosis in rat GMC as compared to the controls. Furthermore, di-ER4A was considerably more efficient than m-ER4A in inducing apoptosis possibly through additional cross-linking of Thy-1 on the cell surface. This notion was confirmed by experiments, in which the addition of goat anti-mouse kappa antibodies enhanced apoptosis of rat GMC pre-sensitized with m-ER4A. Taken together, our results indicate that apoptosis of rat GMC by anti-Thy-1 antibodies is enhanced by cross-linking of Thy-1 on the cell surface. These studies are of importance for our understanding of mechanisms that may play a role in glomerular diseases.

Autoregulation of total and zonal glomerular filtration rate in spontaneously hypertensive rats with mesangiolysis

In this study we tested the hypothesis that mesangial cells participate in autoregulation of the glomerular filtration rate (GFR) in normotensive and hypertensive rats. Mesangial cell lesions were induced by intravenous administration of antithymocyte (anti-Thy 1.1) antibodies in spontaneously hypertensive rats (SHR) and in Wistar-Kyoto rats (WKY). Normal murine serum was injected in control rats. Hemodynamic measurements were performed 24 h after the infusion of the anti-Thy 1.1 antibodies. Renal blood flow (RBF) was measured by a transit time flowmeter (Transonic) and the GFR was measured as the uptake of 125 iodine-labeled aprotinin ([125]I-Ap) by proximal tubular cells at the control renal arterial pressure and (131)I-Ap at a pressure reduction close to the lower pressure limit of RBF autoregulation. RBF was unaltered and the autoregulatory capability was maintained in SHR and WKY after mesangial cell lesions. Mesangiolysis significantly reduced the total GFR in normotensive, but not in hypertensive animals. The fractional compensation of the GFR was attenuated in the outer cortical layer (p<0.05) in normotensive WKY. In SHRs the fractional compensation of the GFR was impaired in all cortical layers after mesangiolysis, slightly more in the outer than in the inner cortex. We conclude that mesangial cells may contribute to the autoregulation of GFR in hypertensive rats, but to a lesser extent in normotensive rats.

Effects of mixed leukocyte reaction, hydrocortisone and cyclosporine on expression of leukocyte adhesion molecules by endothelial and mesangial cells

We investigated the effects of mixed leukocyte reaction (MLR), hydrocortisone (HC) and cyclosporine A (CsA) on the expression of leukocyte adhesion molecules on the mesangial (MC) and endothelial cells (EnC). Cell surface enzyme immunoassay showed that INFnu, IL-1beta, or TNF alpha stimulated expression of ICAM-1, or VCAM-1 on MC after 24 hours. Flow cytometric analysis demonstrated that MLR supernatant induced a marked increase in mean fluorescence of or % of cells highly expressing intercellular adhesion molecule(ICAM)-1 or vascular cell adhesion molecule (VCAM)-1 on both cells after 24 hours (p<0.001). HC treatment(300 ng/ml) during MLR effectively inhibited MLR-induced upregulation of ICAM-1 and VCAM-1 on both cells (p<0.005). When MLR supernatant with HC was added to adhesion molecule assay, there was no inhibitory effect of HC on VCAM-1. CsA treatment (500 ng/ml) during MLR caused a modest decrease in upregulation of VCAM-1 on EnC (p<0.05), but had no effects on ICAM-1 on both cells. CsA directly decreased expression of VCAM-1 on MC. In conclusion, alloreactive lymphocytes and monocytes upregulate the expression of VCAM-1 and ICAM-1 on target cells probably by the mediation of cytokines. HC effectively prevents MLR-induced upregulation of VCAM-1 and ICAM-1. CsA does not increase the expression of VCAM-1 and ICAM-1.

A specific Thy-1 molecular epitope expressed on rat mesangial cells

An experimental model of proliferative glomerulonephritis induced by antibodies against the Thy-1 antigen has been established and used to study the pathological sequence from mesangiolysis to mesangial proliferation. However, the functional role of the Thy-1 molecule distributed on rat glomerular mesangial cells remains unknown, so the present study was undertaken to determine the precise subcellular localization of Thy-1 molecules in vitro using two anti-Thy-1 monoclonal antibodies, 1-22-3 and OX-7. Immunofluorescence and immunoelectron microscopic studies in combination with laser scanning analysis showed that the localization of 1-22-3 and OX-7 bound to cultured rat mesangial cells differed, particularly when cocultured with vascular endothelial cells. An epitope recognized by 1-22-3 was concentrated specifically on the mesangial cell surfaces facing the neighboring endothelial cells. In contrast, OX-7 bound to mesangial cell surfaces and extracellular parts in a diffuse pattern independent of contact with endothelial cells. This finding is consistent with our previous ultrastructural study in which the reactivity of 1-22-3 with normal kidney tissue was limited to mesangial cell surfaces facing endothelial cells. These results led us to conclude that the specific Thy-1 molecular epitope recognized by 1-22-3 is associated with points anchoring mesangial and endothelial cells, where this anti-Thy-1 antibody binds after injection in vivo, resulting in mesangial cell detachment from the vascular capillary wall, mesangiolysis and mesangial cell dysfunction. We believe that the critical epitope detected by 1-22-3 in this study plays an important role in mesangial cell function and injury.

Thy-1 molecule associates with protein tyrosine kinase(s) in rat mesangial cells

Glycophosphatidylinositol (GPI)-linked Thy-1 molecules, well known cell surface markers of murine T cells, are present on the glomerular mesangial cells of the rat kidney. The administration of anti-Thy-1.1 MoAbs 1-22-3 and OX-7 to rats induces severe and mild complement-dependent mesangial proliferative glomerulonephritis, respectively. In order to determine whether protein-tyrosine kinase (PTK) activity is associated with Thy-1 molecules on rat mesangial cell surface, we performed an immune complex kinase assay, using anti-Thy-1 MoAbs 1-22-3 and OX-7, followed by reimmunoprecipitation with anti-phosphotyrosine, anti-fyn, anti-lck and anti-lyn antibodies. Physical association of PTK, p59fyn and p56/53lyn with Thy-1 molecules was demonstrated in cultured rat mesangial cells. The activities of these kinases detected in MoAb 1-22-3 precipitates were higher than those in MoAb OX-7 precipitates. These results suggest that Thy-1 molecule transduces some signals also in rat mesangial cells.

Receptors for immune complexes activate gene expression and synthesis of matrix proteins in cultured rat and human mesangial cells: role of TGF-beta

Most human glomerulonephritis are induced by the deposition and/or formation of immune complexes in the glomerular region. Recently, it has been demonstrated that cultured glomerular mesangial cells (MC) express Fc receptors for IgA and IgG (Fc-alpha and Fc-gamma receptors). In this work, we studied whether the interaction of IgA and IgG complexes with MC induces accumulation of mesangial matrix, the histologic hallmark of progressive glomerular diseases. The exposure of MC to IgA and IgG complexes increased extracellular matrix components, such as fibronectin (FN) and collagens, at both the mRNA and protein levels in a time- and dose-dependent manner. Monomeric IgA or F(ab')2 fragments did not increase FN production, indicating that a constant region of IgA and cross-linking of Fc-alpha receptors are required. We also explored the role of TGF-beta, a profibrogenic cytokine, in the regulation of matrix synthesis. Both IgA and IgG complexes caused in MC an augmentation in TGF-beta1 mRNA and TGF-beta activity and the conversion of latent TGF-beta to the biologically active form. The coincubation of cells with complexes and a neutralizing Ab to TGF-beta significantly reduced the FN synthesis. These results indicate that the Fc receptor occupancy of MC increases the production of extracellular matrix proteins. The autocrine TGF-beta synthesis appears to be largely responsible for this effect. These findings could have implications for a better understanding of the glomerulosclerosis process in immune complex nephritis.

Immunoglobulin-A and the pathogenesis of schistosomal glomerulopathy

Several observations suggest that the evolution of schistosomal glomerulopathy into clinically overt and progressive disease may involve pathogenetic mechanisms other than simple glomerular deposition of parasitic antigens. In a previous study, IgA was suggested to be a mediator of late glomerular lesions in this disease. This issue is further addressed in this work. The study includes 32 patients with hepatosplenic schistosomiasis, of whom 16 had overt glomerular involvement, along with four control groups: (a) 15 healthy volunteers; (b) 15 patients with simple intestinal mansoniasis; (c) 17 patients with non-schistosomal chronic liver disease; and (d) 21 subjects with primary nephrotic syndrome not associated with schistosomiasis. Routine assessment was done for all subjects including confirmatory tests for schistosomal infection, liver and renal function tests, hepatitis viral markers and abdominal ultrasonography. The total serum concentrations of IgG, IgM, IgA were measured, as well as their respective circulating immune complexes, rheumatoid factors, anti-gliadin- and anti-DNA-antibodies. Liver and renal biopsies were obtained from the relevant groups and studied by light microscopy. Renal biopsies were also examined by immunofluorescence. Patients with simple intestinal schistosomiasis had a significant increase in IgM antigliadin antibodies. Those complicated with hepatosplenic involvement also had a significant increase in the mean IgG anti-gliadin antibodies, IgG rheumatoid factor and IgM anti-DNA activity. Cases further complicated by overt glomerular disease showed a distinct IgA predominance, mainly expressed in the serum anti-gliadin antibody pool and anti-DNA activity. This profile was essentially similar to that observed in control cirrhotics. There was a significant increase in the frequency of IgA glomerular deposits in renal biopsies obtained from patients with overt schistosomal glomerulopathy, in contrast to control nephrotics. The deposits were mainly mesangial, but were also encountered in subendothelial, subepithelial and peritubular locations. Their frequency was significantly higher with more advanced lesions as seen by light microscopy. The relevance of these data is discussed, leading to the following conclusions: (a) serum IgA-anti-gliadin and -anti-DNA antibodies, and glomerular IgA deposits are markers of significant renal involvement in patients with hepatosplenic schistosomiasis. (b) IgA may be involved in the pathogenesis of advanced glomerular pathology when superimposed on parasite-induced lesions. (c) There is a significant increase in serum auto-reactivity in hepatosplenic schistosomiasis, which may also have pathogentic implications. (d) Increased production by the inflammatory bowel lesions, impaired clearance by the fibrotic livers and probable switching of immunoglobulin synthesis are suggested to explain the observed IgA predominance in those who develop renal complications.

Cytokine inhibition preserves renal hemodynamic function following mesangial cell immune injury

BACKGROUND

We assessed the effect of a cytokine inhibitor, compound SKF 86002 (a bicyclic imidazole), on changes in renal hemodynamics (renal blood flow and glomerular filtration rate) that occur acutely following immune injury of glomerular mesangial cells.

METHODS

Injury was induced in Munich-Wistar rats by the administration of a monoclonal antibody against the mesangial cell membrane antigen Thy 1.1. An acute drop in renal blood flow (RBF) and glomerular filtration rate (GFR) occurred within one hour of injury.

RESULTS

Pretreatment of animals with the cytokine inhibitor SKF 86002 prevented this drop. SKF 86002 had no effect on glomerular synthesis of vasoconstrictor eicosanoids.

CONCLUSIONS

The observations indicate that in mesangial cell immune injury, cytokines mediate renal hemodynamic impairment.

Murine glomerulotropic monoclonal antibodies are highly oligoclonal and exhibit distinctive molecular features

We recently produced a panel of seven glomerular-binding mAbs from a nephritic MRL-lpr mouse that bind to histones/nucleosomes (group I) or DNA (group II) adherent to glomerular basement membrane. To elucidate the molecular basis of their binding and ontogeny, we sequenced their variable (V) regions, analyzed the apparent somatic mutations, and predicted their three-dimensional structures. There were two clonally related sets (3 of 4 in group I, 3 of 3 in group II) both of the VHJ1558 family, and one mAb of the VH 7183 family. V region somatic mutations within clonally related sets had little effect on glomerular binding and did not appear to be selected for based on glomerular binding. The VH regions were most homologous with those from autoantibodies to histones, DNA, or IgG (i.e., rheumatoid factors), the Vkappa regions, with those from autoantibodies to small nuclear ribonucleoproteins (snRNP). The VH regions also exhibited an unusual VD junction (in the group I clonally related set) and an overall high content of charged amino acids (arginine, aspartic acid) in complementarity-determining regions (CDRs), particularly in CDR3. Molecular modeling studies suggested that the Fv regions of these mAbs converge to form a flat, open surface with a net positive charge. The CDR arginines in group I mAbs; appear to be located in Ag contact regions of the binding cleft. In sum, these data suggest that glomerulotropic mAbs are a highly restricted set of Abs with distinctive molecular features that may mediate their binding to glomeruli.

Immunosuppressant FK506 induces interleukin-6 production through the activation of transcription factor nuclear factor (NF)-kappa(B). Implications for FK506 nephropathy

FK506 is a powerful immunosuppressive drug currently in use that inhibits the activation of several transcription factors (nuclear factor (NF)-AT and NF-kappaB) critical for T cell activation. We show here that, contrary to the situation in T cells, FK506 activates transcription factor NF-kappaB in nonlymphoid cells such as fibroblasts and renal mesangial cells. We further show that FK506 induces NF-kappaB-regulated IL-6 production in vitro and in vivo, in particular in kidney. IL-6 has been shown previously to produce renal abnormalities in vivo, such as mesangioproliferative glomerulonephritis. Similar renal abnormalities were also observed in FK506-treated animals. These results thus suggest a causal relationship between FK506-induced NF-kappaB activation/IL-6 production and some of FK506-induced renal abnormalities.

Stimulation of Fc(alpha) receptors induces tyrosine phosphorylation of phospholipase C-gamma(1), phosphatidylinositol phosphate hydrolysis, and Ca2+ mobilization in rat and human mesangial cells

Although knowledge of IgA Fc receptor (Fc(alpha)R) structure and gene organization has progressed in the past few years, signal transduction pathways elicited by its activation have hardly been studied. Previously, we have demonstrated that mesangial cells (MC) possess Fc(alpha)R stimulation triggers several biologic responses. In this work, we studied the early biochemical signals triggered by Fc(alpha)R stimulation in MC. MC incubation with aggregated IgA (AIgA) elicited a dose-dependent increase in cytosolic Ca2+ ([Ca2+]i). The response was rapid and transient, and slowly fell to the original baseline. Ca2+ mobilization was dependent on the Fc region of the IgA, because Fc, but neither Fab fragment nor carbohydrates, inhibited the [Ca2+] rise. The initial induction of [Ca2+]i rise was due to Ca2+ mobilization from inositol trisphosphate (IP3)-sensitive intracellular stores, while sustained levels were maintained through extracellular Ca2+ influx. Stimulation of Fc(alpha)R also resulted in production of IP3, temporally correlated with Ca2+ mobilization. Protein tyrosine kinase inhibitors abolished [Ca2+]i rise, indicating that tyrosine phosphorylation of some substrates is required for Ca2+ mobilization. Stimulation through Fc(alpha)R gave rise to a marked increase in tyrosine phosphorylation of several proteins, including the 147-kDa band, similar in size to phospholipase C-gamma(1) (PLC-gamma(1)). Tyrosine phosphorylation of PLC-gamma(1) reached a maximum 30 s after stimulation, as determined by immunoprecipitation and Western blot. Collectively, these results indicate that the Fc(alpha)R signaling pathway in MC involves PLC-(gamma(1) activation, IP3 formation, and Ca2+ mobilization, and is linked to activation of tyrosine kinases.

Transforming growth factor-beta 1 is the predominant paracrine inhibitor of macrophage cytokine synthesis produced by glomerular mesangial cells

Cross-communication between glomerular cells and infiltrating mononuclear cells plays an important role in the generation of or recovery from glomerular diseases. We found that cultured mesangial cells secrete a factor that inhibits production of proinflammatory cytokines by activated macrophages. Treatment of J774.2 macrophages with conditioned media from rat mesangial cells blunted the transcriptional induction of IL-1 beta, IL-6, and TNF-alpha by LPS. None of the media conditioned by other fibroblastic, epithelial, or endothelial cell lines exhibited the inhibitory effect. Media conditioned by normal rat glomeruli contained a similar inhibitory activity, which was enhanced in an acute model of mesangial proliferative glomerulonephritis. To identify the active component involved, we examined the expression of known macrophage deactivators IL-10, IL-13, and TGF-beta 1 in mesangial cells. Under the basal culture conditions, strong expression of TGF-beta 1 mRNA was observed, whereas expression of neither IL-10 nor IL-13 was detected. Immunoblot analysis and a specific bioassay detected the active form of TGF-beta 1 exclusively in the mesangial cell conditioned media. The inhibitory activity was enhanced by heat treatment, consistent with the known property of TGF-beta. A specific anti-TGF-beta 1 neutralizing Ab abolished the inhibitory effect exerted by the mesangial cell media, and exogenously added TGF-beta1 suppressed macrophage cytokine expression in a dose-dependent manner. These findings demonstrate that mesangial cells and isolated glomeruli secrete a factor which suppresses cytokine expression by activated macrophages, the active entity being identified as TGF-beta 1.

Anti-Fas antibodies induce cytolysis and apoptosis in cultured human mesangial cells

Death of renal cells often occurs during the acute and resolution phases of some forms of glomerulonephritis. The apoptotic Fas protein belongs to a recently described family of cytokine receptors with similarities to tumor necrosis factor (TNF) receptors, and may contribute to the necrobiology of renal cells. Fas transduces a signal for apoptosis in sensitive cells after binding by specific antibodies or following contact with natural Fas ligand. We have studied Fas in cultured human mesangial cells. Cytoflurography demonstrated Fas expression on the surface of human mesangial cells that was increased by stimulation with interferon gamma (IFN gamma). Agonistic anti-human Fas antibodies were cytotoxic to these cells. Cytotoxicity was time- and dose-dependent, and was modulated by pre-stimulation of the mesangial cells with IFN gamma and/or by co-treatment with actinomycin-D. Mesangial cell death following exposure to anti-Fas antibodies has features consistent with apoptosis, such as internucleosomal DNA fragmentation, nuclear shrinkage and condensation, and decreased DNA content. These data suggest that Fas and its ligand could play a mechanistic role in human glomerular cell injury.

Glomerulonephritis with predominant paramesangial IgG deposition

The new clinicopathological entity, immunoglobin G (IgG)-associated mesangial proliferative glomerulonephritis (GN), has been reported recently, but serial renal biopsies were not performed in the cases reported. The findings of three serial renal biopsies in a pediatric case with IgG-associated GN and paramesangial deposits are reported. Microscopic hematuria was found incidentally at the age of 8 years and the hematuria often worsened transiently during periods of upper respiratory infections. The patient was treated mainly with dipyridamole. The third biopsy showed that both paramesangial hemispherical deposits and predominant mesangial IgG deposits had increased, while mesangial cell proliferation had markedly decreased. These serial biopsy findings suggest that IgG-associated GN with microscopic hematuria and slight proteinuria may be characterized by a relatively benign histological and clinical course, as described in recent reports.

Both IgG- and C1q-receptors play a role in the enhanced binding of IgG complexes to human mesangial cells

The presence of immunoglobulin G (IgG) in the mesangial area in kidneys of patients with different forms of glomerulonephritis suggests a role for IgG in the inflammatory process. This study investigates whether IgG is able to bind to cultured human mesangial cells (MC) in vitro. Incubation of MC with 125I-aggregated IgG(125I-AIgG), as a model for immune complexes (IC), at 4 degrees C resulted in a time- and dose-dependent binding of 125I-AIgG to MC. The binding of 125I-AIgG to MC was inhibited by excess AIgG or Fc-fragments and not by F(ab')2-fragments or human serum albumin (HSA). Scatchard analysis revealed the presence of 2.8.10(6) receptors/cell with an affinity of 9.7.10(7) M-1. Incubation of MC with 125I-C1q resulted in a time- and dose-dependent binding of 125I-C1q to MC. The binding of 125I-C1q was inhibited by excess C1q or C1q talls and not by HSA. Scatchard analysis revealed the presence of 3.2.10(7) binding sites/cell with an affinity of 1.4.10(7) M-1. Immunoprecipitation of 125I-labeled MC membrane proteins with C1q or monoclonal antibodies directed against human C1q-R revealed a single 66 to 68 kd band under reducing conditions. Fluorescence-activated cell-sorter analysis revealed an average of 60.1% +/- 5.4% of the cells positive with a mean channel of fluorescence of 592. A cooperative effect between C1q-R and Fc gamma-R in the binding of 125I-AIgG to MC, was assessed by incubation of 125I-AIgG in the presence of increasing concentrations of C1q, C1q talls, or delta C1q. Only intact C1q showed a 6- to 11-fold enhancement in binding of 125I-AIgG to MC. These studies demonstrate the occurrence of C1q-R and Fc gamma-R on MC and indicate that binding of IC is enhanced after interaction of IC with C1q.

The effect of various forms of heparin on the release of immune complexes from the surface of cultured mesangial cells

Heparin is capable of enhancing the rate of release of antigen from nephritic rat kidneys. It also interferes with the binding of immune complexes by cultured glomerular mesangial cells. Postulating that these two effects might be related, we sought to determine what basic aspects of the molecular structure of heparin are responsible for the interference with binding in vitro. After cultured mesangial cells had bound radiolabelled synthetic immune complexes, heparin or a variety of structurally related molecules were added to the supernatant. De-N-sulphated heparin, heparan sulphate, low molecular weight heparin, and low molecular weight dextran sulphate had no effect on immune complex binding. High molecular weight dextran sulphate was able, like heparin, to dislodge immune complexes from mesangial cells, suggesting that high molecular weight and high sulphation are required. These results differ from previous findings in vivo, suggesting that the effect of heparin in vivo is not due to interaction at the mesangial cell surface. Alternative explanations for the effect of heparin in the intact animal include destabilization of the immune complex structure or, more probably, an effect at the boundary between the immune complex deposit and the basement membrane.

Pan-nephritis (glomerulonephritis, arteriolitis, and tubulointerstitial nephritis) associated with predominant mesangial C1q deposition and hypocomplementemia: a variant type of C1q nephropathy?

A 35-year-old man showed acute nephritic syndrome manifested as proteinuria, hematuria, and hypocomplementemia after upper respiratory infection. A renal biopsy showed mild to moderate mesangial proliferative glomerulonephritis with an accumulation of mononuclear cells in the capillary loop and with the deposition of C1q (graded as 3+), immunoglobulin (Ig) G, C3 (2+), IgA, IgM, and fibrinogen (weak to 1+), and mononuclear cell infiltration of the glomerular hilus, arterioles, and proximal tubules, which was a peculiar form of renal lesion. The mesangial deposition of C1q has been well documented in lupus nephritis, membranoproliferative glomerulonephritis, and endocapillary glomerulonephritis. The clinical signs and laboratory data in our patient ruled out these diseases. Although an immunofluorescence study showed these similarities to Clq nephropathy, the histopathological features of the peculiar arteriolitis and tubulointerstitial nephritis and laboratory findings of hypocomplementemia, as well as the good response to oral steroid therapy, differed from typical C1q nephropathy. The current patient appears to be a very rare phenotype of nephritis, being the only 1 case in almost 2,800 renal biopsies.

Genetic susceptibility to silver-induced anti-fibrillarin autoantibodies in mice

Similar to mercuric chloride, silver nitrate has recently been shown to induce IgG autoantibodies targeting the nucleolar 34-kDa protein fibrillarin i SJL (H-2s) mice. In the present study we show that the autoimmunogenic effect of silver is dependent on intact T-cell function since SJL/N mice homozygous for the nude mutation (athymic), in contrast to the functionally T-cell-intact SJL/N-nu/+ littermates, did not develop anti-nucleolar/anti-fibrillarin autoantibodies (ANoA/AFA). The genetic susceptibility for silver-induced AFA was localized to the H-2A locus using congenic and intra-H-2-recombinant strains. However, background (non-H-2) genetic factors substantially influenced both the response rate and the titer of ANoA/AFA attained. Strains bearing H-2As on the SJL and A backgrounds (SJL, A.SW, A.TH) showed 100% response rate and high ANoA titers (3750 +/- 246, mean reciprocal titer +/- SEM), whereas H-2As mice on the B10 background (B10.S) showed 60% response rate and significantly lower ANoA titers (1170 +/- 305) in the responding mice. Expression of H-2E [B10.S(9R) mice] further reduced the response rate (22%) and the ANoA titer (640 +/- 0). A suppressive effect on the B10 background has previously been observed in mercury treatment, but the effect was stronger in silver-treated mice. Two major differences were noted between silver- and mercury-induced murine autoimmunity. First, silver-treated mice did not show elevated titers of other autoantibody specificities, specifically not of antichromatin and anti-histone antibodies, which develop in mercury-treated SJL mice.(ABSTRACT TRUNCATED AT 250 WORDS)