Podocyte GSK3 is an evolutionarily conserved critical regulator of kidney function

Albuminuria affects millions of people, and is an independent risk factor for kidney failure, cardiovascular morbidity and death. The key cell that prevents albuminuria is the terminally differentiated glomerular podocyte. Here we report the evolutionary importance of the enzyme Glycogen Synthase Kinase 3 (GSK3) for maintaining podocyte function in mice and the equivalent nephrocyte cell in Drosophila. Developmental deletion of both GSK3 isoforms (α and β) in murine podocytes causes late neonatal death associated with massive albuminuria and renal failure. Similarly, silencing GSK3 in nephrocytes is developmentally lethal for this cell. Mature genetic or pharmacological podocyte/nephrocyte GSK3 inhibition is also detrimental; producing albuminuric kidney disease in mice and nephrocyte depletion in Drosophila. Mechanistically, GSK3 loss causes differentiated podocytes to re-enter the cell cycle and undergo mitotic catastrophe, modulated via the Hippo pathway but independent of Wnt-β-catenin. This work clearly identifies GSK3 as a critical regulator of podocyte and hence kidney function.

Combined blockade of angiotensin II and prorenin receptors ameliorates podocytic apoptosis induced by IgA-activated mesangial cells

Glomerulo-podocytic communication plays an important role in the podocytic injury in IgA nephropathy (IgAN). In this study, we examine the role of podocytic angiotensin II receptor subtype 1 (AT1R) and prorenin receptor (PRR) in podocytic apoptosis in IgAN. Polymeric IgA (pIgA) was isolated from patients with IgAN and healthy controls. Conditioned media were prepared from growth arrested human mesangial cells (HMC) incubated with pIgA from patients with IgAN (IgA-HMC media) or healthy controls (Ctl-HMC media). A human podocyte cell line was used as a model to examine the regulation of the expression of AT1R, PRR, TNF-α and CTGF by IgA-HMC media. Podocytic nephrin expression, annexin V binding and caspase 3 activity were used as the functional readout of podocytic apoptosis. IgA-HMC media had no effect on AngII release by podocytes. IgA-HMC media significantly up-regulated the expression of AT1R and PRR, down-regulated nephrin expression and induced apoptosis in podocytes. Mono-blockade of AT1R, PRR, TNF-α or CTGF partially reduced podocytic apoptosis. IgA-HMC media activated NFκB, notch1 and HEY1 expression by podocytes and dual blockade of AT1R with PRR, or anti-TNF-α with anti-CTGF, effectively rescued the podocytic apoptosis induced by IgA-HMC media. Our data suggests that pIgA-activated HMC up-regulates the expression of AT1R and PRR expression by podocytes and the associated activation of NFκB and notch signalling pathways play an essential role in the podocytic apoptosis induced by glomerulo-podocytic communication in IgAN. Simultaneously targeting the AT1R and PRR could be a potential therapeutic option to reduce the podocytic injury in IgAN.

Insulin directly stimulates VEGF-A production in the glomerular podocyte

Podocytes are critically important for maintaining the integrity of the glomerular filtration barrier and preventing albuminuria. Recently, it has become clear that to achieve this, they need to be insulin sensitive and produce an optimal amount of VEGF-A. In other tissues, insulin has been shown to regulate VEGF-A release, but this has not been previously examined in the podocyte. Using in vitro and in vivo approaches, in the present study, we now show that insulin regulates VEGF-A in the podocyte in both mice and humans via the insulin receptor (IR). Insulin directly increased VEGF-A mRNA levels and protein production in conditionally immortalized wild-type human and murine podocytes. Furthermore, when podocytes were rendered insulin resistant in vitro (using stable short hairpin RNA knockdown of the IR) or in vivo (using transgenic podocyte-specific IR knockout mice), podocyte VEGF-A production was impaired. Importantly, in vivo, this occurs before the development of any podocyte damage due to podocyte insulin resistance. Modulation of VEGF-A by insulin in the podocyte may be another important factor in the development of glomerular disease associated with conditions in which insulin signaling to the podocyte is deranged.

Insulin-like growth factor-II is produced by, signals to and is an important survival factor for the mature podocyte in man and mouse

Podocytes are crucial for preventing the passage of albumin into the urine and, when lost, are associated with the development of albuminuria, renal failure and cardiovascular disease. Podocytes have limited capacity to regenerate, therefore pro-survival mechanisms are critically important. Insulin-like growth factor-II (IGF-II) is a potent survival and growth factor; however, its major function is thought to be in prenatal development, when circulating levels are high. IGF-II has only previously been reported to continue to be expressed in discrete regions of the brain into adulthood in rodents, with systemic levels being undetectable. Using conditionally immortalized human and ex vivo adult mouse cells of the glomerulus, we demonstrated the podocyte to be the major glomerular source and target of IGF-II; it signals to this cell via the IGF-I receptor via the PI3 kinase and MAPK pathways. Functionally, a reduction in IGF signalling causes podocyte cell death in vitro and glomerular disease in vivo in an aged IGF-II transgenic mouse that produces approximately 60% of IGF-II due to a lack of the P2 promoter of this gene. Collectively, this work reveals the fundamental importance of IGF-II in the mature podocyte for glomerular health across mammalian species.

MicroRNA-126 contributes to renal microvascular heterogeneity of VCAM-1 protein expression in acute inflammation

Endothelial cells in different microvascular segments of the kidney have diverse functions and exhibit differential responsiveness to disease stimuli. The responsible molecular mechanisms are largely unknown. We previously showed that during hemorrhagic shock, VCAM-1 protein was expressed primarily in extraglomerular compartments of the kidney, while E-selectin protein was highly induced in glomeruli only (van Meurs M, Wulfert FM, Knol AJ, de Haes A, Houwertjes M, Aarts LPHJ, Molema G. Shock 29: 291–299, 2008). Here, we investigated the molecular control of expression of these endothelial cell adhesion molecules in mouse models of renal inflammation. Microvascular segment-specific responses to the induction of anti-glomerular basement membrane (anti-GBM), glomerulonephritis and systemic TNF-α treatment showed that E-selectin expression was transcriptionally regulated, with high E-selectin mRNA and protein levels preferentially expressed in the glomerular compartment. In contrast, VCAM-1 mRNA expression was increased in both arterioles and glomeruli, while VCAM-1 protein expression was limited in the glomeruli. These high VCAM-1 mRNA/low VCAM-1 protein levels were accompanied by high local microRNA (miR)-126 and Egfl7 levels, as well as higher Ets1 levels compared with arteriolar expression levels. Using miR-reporter constructs, the functional activity of miR-126 in glomerular endothelial cells could be demonstrated. Moreover, in vivo knockdown of miR-126 function unleashed VCAM-1 protein expression in the glomeruli upon inflammatory challenge. These data imply that miR-126 has a major role in the segmental, heterogenic response of renal microvascular endothelial cells to systemic inflammatory stimuli.

High glucose causes dysfunction of the human glomerular endothelial glycocalyx

The endothelial glycocalyx is a gel-like layer which covers the luminal side of blood vessels. The glomerular endothelial cell (GEnC) glycocalyx is composed of proteoglycan core proteins, glycosaminoglycan (GAG) chains, and sialoglycoproteins and has been shown to contribute to the selective sieving action of the glomerular capillary wall. Damage to the systemic endothelial glycocalyx has recently been associated with the onset of albuminuria in diabetics. In this study, we analyze the effects of high glucose on the biochemical structure of the GEnC glycocalyx and quantify functional changes in its protein-restrictive action. We used conditionally immortalized human GEnC. Proteoglycans were analyzed by Western blotting and indirect immunofluorescence. Biosynthesis of GAG was analyzed by radiolabeling and quantified by anion exchange chromatography. FITC-albumin was used to analyze macromolecular passage across GEnC monolayers using an established in vitro model. We observed a marked reduction in the biosynthesis of GAG by the GEnC under high-glucose conditions. Further analysis confirmed specific reduction in heparan sulfate GAG. Expression of proteoglycan core proteins remained unchanged. There was also a significant increase in the passage of albumin across GEnC monolayers under high-glucose conditions without affecting interendothelial junctions. These results reproduce changes in GEnC barrier properties caused by enzymatic removal of heparan sulfate from the GEnC glycocalyx. They provide direct evidence of high glucose-induced alterations in the GEnC glycocalyx and demonstrate changes to its function as a protein-restrictive layer, thus implicating glycocalyx damage in the pathogenesis of proteinuria in diabetes.

DC-specific ICAM-3-grabbing nonintegrin mediates internalization of HIV-1 into human podocytes

Human immunodeficiency virus (HIV)-1 has been demonstrated to contribute to the pathogenesis of HIV-associated nephropathy. In renal biopsy studies, podocytes have been reported to be infected by HIV-1. However, the mechanism involved in HIV-1 internalization into podocytes is not clear. In the present study, we evaluated the occurrence of HIV-1 internalization into conditionally immortalized human podocytes and the mechanism involved. Human podocytes rapidly internalized R5 and X4 HIV-1 primary strains via an endocytosis-dependent pathway, without establishing a productive infection. The HIV-1 internalization was dendritic cell-specific ICAM-3-grabbing nonintegrin (DC-SIGN) receptor mediated. The role of DC-SIGN was confirmed by using specific blocking antibodies and transfection with small interfering (si) RNA/DC-SIGN. Since podocyte HIV-1 trafficking was not altered by pH-modulating agents, it appeared that HIV-1 routing occurred through nonacid vesicular compartments. Interestingly, transfection of podocytes with neither siRNA/caveolin-1 nor siRNA/clathrin heavy chain inhibited podocyte viral accumulation. Thus it appears that clathrin-coated vesicles and caveosomes may not be contributing to HIV-1-associated membrane traffic.

Spatiotemporal expression of chemokines and chemokine receptors in experimental anti-myeloperoxidase antibody-mediated glomerulonephritis

Myeloperoxidase (MPO)-anti-neutrophil cytoplasmic autoantibody (ANCA)-associated necrotizing crescentic glomerulonephritis (NCGN) is characterized by abundant leucocyte infiltration. Chemokines are chemotactic cytokines involved in receptor-mediated recruitment of leucocytes. Our objective was to analyse spatiotemporal gene expression of chemokines and chemokine receptors in anti-MPO-mediated NCGN, to find potential targets for intervening with leucocyte influx. NCGN was induced in mice by co-administration of anti-MPO immunoglobulin (Ig)G and lipopolysaccharide. mRNA expression levels of chemokines and chemokine receptors were analysed in whole kidney lysates as well as in laser microdissected glomeruli and tubulo-interstitial tissue 1 and 7 day(s) after NCGN induction. Several chemokines and chemokine receptors were induced or up-regulated in anti-MPO-mediated NCGN, both on day 1 (chemokines CCL3, 5; CXCL2, 5, 13; receptor CXCR2) and on day 7 (chemokines CCL2, 5, 7, 8, 17, 20; CXCL1, 2, 5, 10; CX(3)CL1; receptors CCR2, 8; CX(3)CR1). The expression levels of most chemokines and receptors were higher in glomeruli than in the tubulo-interstitium. Because of the temporal induction of CXCR2 on day 1, we hypothesized CXCR2 as a potential target for treatment in anti-MPO-induced NCGN. Inhibition of CXCR2 using a goat-anti-CXCR2 serum prior to NCGN induction increased glomerular neutrophil influx but did not affect crescent formation and albuminuria. In conclusion, expression levels of various chemokines and chemokine receptors were increased in anti-MPO NCGN, and expressed particularly in glomeruli. These chemokines and receptors may serve as potential targets for treatment. Inhibition of a single target, CXCR2, did not attenuate anti-MPO NCGN. Combinatorial interventions may be necessary to avoid redundancy.

Echocardiographic features of cardiac failure in Uganda

Cardiac failure is a common medical presentation in Uganda. This study primarily focuses on the aetiology of heart failure in 65 adult patients and assesses the utility of echocardiography in a resource-limited setting. Our findings suggest that endomyocardial fibrosis is much less prevalent than previously described in other regions of Uganda and highlights the need for more basic descriptive studies on common presenting illnesses in rural Africa.

Vascular endothelial growth factor as a survival factor for human islets: effect of immunosuppressive drugs

AIMS/HYPOTHESIS

Rapamycin, part of the immunosuppressive regimen of the Edmonton protocol, has been shown to inhibit vascular endothelial growth factor (VEGF) production and VEGF-mediated survival signalling in tumour cell lines. This study investigates the survival-promoting activities of VEGF in human islets and the effects of rapamycin on islet viability.

MATERIALS AND METHODS

Levels of VEGF and its receptors in isolated human islets and whole pancreas was determined by western blotting and immunostaining. Islet viability following VEGF or immunosuppressive drug treatment was determined using a 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. Islet VEGF release was measured by ELISA. Mouse islets infected with an adenovirus expressing the gene for VEGF were transplanted syngeneically into streptozotocin-induced diabetic mice, with blood glucose levels measured three times per week.

RESULTS

Isolated human islets produced multiple isoforms of VEGF and VEGF receptors 1, 2 and 3 and the coreceptor neuropilin 1. Exogenous VEGF (10 ng/ml) prevented human islet death induced by serum starvation, which suggests that VEGF can act as a survival factor for human islets. Transplantation of mouse islets infected with a VEGF-expressing adenovirus in a syngeneic model, improved glycaemic control at day 1 post-transplantation (p < 0.05). Rapamycin at 10 and 100 ng/ml significantly reduced islet VEGF release (by 37 +/- 4% and 43 +/- 6%, respectively; p < 0.05) and at 100 ng/ml reduced islet viability (by 36 +/- 9%) and insulin release (by 47 +/- 7%, all vs vehicle-treated controls; p < 0.05). Tacrolimus had no effect on islet VEGF release or viability.

CONCLUSIONS/INTERPRETATION

Our data suggest that rapamycin may have deleterious effects on islet survival post-transplantation, both through a direct effect on islet viability and indirectly through blockade of VEGF-mediated revascularisation.

Inhalation of glutamic acid decarboxylase 65-derived peptides can protect against recurrent autoimmune but not alloimmune responses in the non-obese diabetic mouse

Systemic administration of islet-derived antigens has been shown to protect against diabetes in the non-obese diabetic (NOD) mouse by the induction of antigen-specific regulatory T cells. Bystander regulation to related and unrelated islet-derived antigens (intramolecular and intermolecular recognition) in this context is recognized. We tested if intranasal administration of glutamic acid decarboxylase 65 (GAD 65)-derived peptides could protect against both autoimmune and, through bystander regulation, alloimmune responses in a NOD mouse model. Spontaneously diabetic female NOD mice underwent islet transplantation from either C57Bl/6 or NOD islet donors. Islet recipients were treated with intranasal GAD 65-derived peptides or control (ovalbumin) peptide pre- and post-transplantation. In-vitro analysis of the effect of inhalation was defined using lymph node proliferation assays and supernatant analysis for cytokines. GAD 65-derived peptide inhalation resulted in significant protection against recurrent autoimmune disease, with the generation of an interleukin (IL)-10-producing immune phenotype in a syngeneic islet transplant model. This phenotype, however, was not robust enough to protect against alloimmune responses. Inhalation of GAD-derived peptides induces an immunoregulatory response that protects against recurrent autoimmune, but not alloimmune responses in the NOD mouse.

Eosinophilic glomerulonephritis in children in Southwestern Uganda

Acute renal disease is common in sub-Saharan Africa, with high mortality. Its etiology is poorly understood; quartan malaria owing to Plasmodium malariae was implicated in previous series. Few previous studies have included histological data; furthermore, much of the literature pre-dates the human immunodeficiency virus (HIV) epidemic. We report prospective analysis of acute proteinuric renal disease in children in rural Uganda. Clinical and laboratory data are presented on 65 patients (aged 2-14 years, mean 8.4; 35 male, 30 female) in 41 of whom histological diagnosis was obtained by renal biopsy. The most frequent histological finding was endocapillary proliferative glomerulonephritis (GN) in 27/41 cases, in 20 of which eosinophils were very prominent. No cases showed features of HIV nephropathy. Malarial films were positive in 11 cases: all owing to Plasmodium falciparum. Patients were treated with diuretics, antihypertensives, and supportive measures. Corticosteroids were rarely used, being reserved for patients with minimal changes on renal biopsy. Clinical outcomes were fair: 91% of patients survived to discharge. We conclude that acute GN is common in children in Uganda, that an unusual eosinophilic proliferative GN is the most frequent histological finding, that HIV is not implicated as an important factor in this age group, and that good outcomes can be achieved using simple clinical and laboratory diagnostic methods. Renal biopsy in selected cases is feasible and helpful, especially in allowing rational use of corticosteroids and other potentially toxic treatments. Symptomatic treatments and careful supportive care will allow the majority of children to recover.

Impact of diabetes on haemoglobin levels in renal disease

AIMS/HYPOTHESIS

Anaemia is a common complication of renal impairment. It has been suggested that renal failure secondary to diabetes is associated with more severe anaemia, but this has not been clearly substantiated in the published literature. To clarify this, we undertook a single centre, retrospective study to identify the impact of diabetes on anaemia associated with renal impairment.

MATERIALS AND METHODS

Information on clinical, biochemical and haematological parameters of 2,052 stable ambulatory patients attending a single tertiary referral renal unit was collected. The impact of diabetic kidney disease on haemoglobin levels at all degrees of renal impairment was studied by comparison with patients with non-diabetic kidney disease after correcting for other commonly associated variables that influence anaemia in patients with renal impairment.

RESULTS

Linear regression analysis showed lower haemoglobin in patients with diabetic kidney disease (p < 0.01). At chronic kidney disease (CKD) stages 3, 4 and 5, mean haemoglobin levels in patients with diabetic kidney disease compared with those in patients with non-diabetic kidney disease were 129.5 vs 136.9 g/l (p < 0.001), 120.5 vs 126.9 g/l (p < 0.001) and 107.1 vs 115.9 g/l (p < 0.01), respectively. At CKD stage 4 and 5 the two groups were comparable for ferritin, plasma intact parathyroid hormone levels, ACE inhibitor use and length of follow-up by a nephrologist.

CONCLUSIONS/INTERPRETATION

Diabetic kidney disease is associated with lower haemoglobin in comparison with non-diabetic kidney disease, especially at GFR <60 ml/min.

Direct effects of dexamethasone on human podocytes

Glucocorticoids are widely used in the treatment of human glomerular diseases, but their mode of action is poorly understood particularly in steroid-sensitive nephrotic syndrome, which is most common in childhood and is characterized by a lack of inflammation in the kidney. The podocyte is a key cell in the glomerulus in health and disease: until recently, human podocytes have been difficult to study in vitro. We have developed a conditionally immortalized human podocyte cell line transfected with a temperature-sensitive simian virus 40 transgene: when the transgene is inactivated in vitro, these cells adopt the phenotype of differentiated podocytes. We have used these cells to evaluate, using immunocytochemistry, reverse transcriptase-polymerase chain reaction, and Western blotting, direct effects of the glucocorticoid dexamethasone at concentrations designed to mimic in vivo therapeutic corticosteroid levels. Dexamethasone upregulated expression of nephrin and tubulin-alpha, and downregulated vascular endothelial growth factor. Effects on cell cycle were complex with downregulation of cyclin kinase inhibitor p21 and augmentation of podocyte survival, without any effect on apoptosis. We report cytokine production by human podocytes, especially interleukin (IL)-6 and -8; IL-6 expression was suppressed by dexamethasone. These potent direct effects on podocytes illustrate a novel mode of action of glucocorticoids and suggest potential new therapeutic strategies for glomerular disease.

VEGF-C promotes survival in podocytes

Vascular endothelial growth factor (VEGF)-A is an autocrine survival factor for podocytes, which express two VEGF receptors, VEGF-R1 and VEGF-R3. As VEGF-A is not a known ligand for VEGF-R3, the aim of this investigation was to examine whether VEGF-C, a known ligand for VEGF-R3, served a function in podocyte biology and whether this was VEGF-R3 dependent. VEGF-C protein expression was localized to podocytes in contrast to VEGF-D, which was expressed in parietal epithelial cells. Intracellular calcium ([Ca2+]i) experiments demonstrated that VEGF-C induced a 0.74 ± 0.09-fold reduction in [Ca2+]icompared with baseline in human conditionally immortalized podocytes (hCIPs; P < 0.05, one sample t-test, n = 8). Cytotoxicity experiments revealed that in hCIPs VEGF-C reduced cytotoxicity to 81.4 ± 1.9% of serum-starved conditions ( P < 0.001, paired t-test, n = 16), similar to VEGF-A (82.8 ± 4.5% of serum-starved conditions, P < 0.05, paired t-test). MAZ51 (a VEGF-R3 kinase inhibitor) inhibited the VEGF-C-induced reduction in cytotoxicity (106.2 ± 2.1% of serum-starved conditions), whereas MAZ51 by itself had no cytotoxic effects on hCIPs. VEGF-C was also shown to induce a 0.5 ± 0.13-fold reduction in levels of MAPK phosphorylation compared with VEGF-A and VEGF-A-Mab treatment ( P < 0.05, ANOVA, n = 4), yet had no effect on Akt phosphorylation. Surprisingly, immunoprecipitation studies detected no VEGF-C-induced autophosphorylation of VEGF-R3 in hCIPs but did so in HMVECs. Moreover, SU-5416, a tyrosine kinase inhibitor, blocked the VEGF-C-induced reduction in cytotoxicity (106 ± 2.8% of serum-starved conditions) at concentrations specific for VEGF-R1. Together, these results suggest for the first time that VEGF-C acts in an autocrine manner in cultured podocytes to promote survival, although the receptor or receptor complex activated has yet to be elucidated.

Conditionally immortalized human glomerular endothelial cells expressing fenestrations in response to VEGF

Glomerular endothelial cells (GEnC) are specialized cells with important roles in physiological filtration and glomerular disease. Despite their unique features, GEnC have been little studied because of difficulty in maintaining them in cell culture. We have addressed this problem by generation of conditionally immortalized (ci) human GEnC using technology with which we have previously produced ci podocytes. Primary culture GEnC were transduced with temperature-sensitive simian virus 40 large tumour antigen and telomerase using retroviral vectors. Cells were selected, cloned, and then characterized by light and electron microscopy (EM), response to vascular endothelial growth factor (VEGF), and tumour necrosis factor (TNF)alpha, expression of endothelial markers by focused gene array, immunofluorescence and Western blotting, and formation and behaviour of monolayers. CiGEnC proliferated at the permissive temperature (33 degrees C) and became growth arrested at the non-permissive temperature (37 degrees C). CiGEnC retained morphological features of early-passage primary culture GEnC up to at least p41, confirming successful immortalization. EM demonstrated fenestrations, increased in number by VEGF. mRNA analysis confirmed expression of the endothelial markers platelet endothelial cell adhesion molecule 1, intercellular adhesion molecule 2, VEGF receptor 2, and von Willebrand factor, validated by immunofluorescence and Western blotting. CiGEnC also expressed Tie2, and TNFalpha upregulated E-selectin. CiGEnC formed monolayers with barrier properties responsive to cyclic adenosine 3',5' monophosphate (cAMP) and thrombin. CiGEnC retain the markers and behaviour of primary culture GEnC. They express fenestrations which are upregulated in response to VEGF. These cells are a unique resource for further study of GEnC and their roles in glomerular filtration, glomerular disease, and response to glomerular injury.

Podocyte proteoglycan synthesis is involved in the development of nephrotic syndrome

Proteoglycans (PGs) are important for the glomerular barrier, for cell signaling, and for the anchorage of cells to the glomerular basement membrane. They are, however, complex macromolecules, and their production has not yet been thoroughly investigated in podocytes. In the present study, we studied the biosynthesis of PGs by highly differentiated human podocytes and in rats. The cells were treated with puromycin aminonucleoside (PAN; a nephrosis-inducing agent), steroids (used as primary treatment for nephrotic syndrome), or both. Analysis was made by TaqMan real-time PCR, Western blotting, and by metabolic labeling with (35)S and (3)H. We found that podocytes produce versican, syndecan-1, decorin, and biglycan together with the previously known PG syndecan-4, glypican, and perlecan. PAN treatment downregulated the mRNA and the protein expression of both versican (by 24 +/- 6%, P < 0.01, for mRNA and by 50% for protein) and perlecan (by 14 +/- 5%, P < 0.05, for mRNA and by 50% for protein). The decreased expression was confirmed by studying the glomerular gene expression in rats treated with PAN during a time course study. In addition, puromycin decreased the expression of enzymes involved in the glycosaminoglycan biosynthesis. Steroid treatment decreased perlecan (by 24 +/- 3%, P < 0.01) and syndecan-1 expression (by 30 +/- 4%, P < 0.01) but increased the expression of decorin 2.5-fold. The observed alterations of PG synthesis induced by PAN may lead to decreased glomerular anionic charge and disturbed podocyte morphology, factors that are important for the development of a nephrotic syndrome.

Steroid-sensitive nephrotic syndrome and vascular endothelial growth factor gene polymorphisms

Genetic polymorphisms have been recognized as important determinants of gene expression. Three common single nucleotide polymorphisms have been identified in the promoter and 5' untranslated region of the vascular endothelial growth factor (VEGF) gene: -460 C --> T, -141 A --> C and +405 G --> C. As VEGF has been postulated to play a role in the pathogenesis of childhood steroid-sensitive nephrotic syndrome (SSNS), this study tested the hypothesis that VEGF genotype may be associated with susceptibility to SSNS. We examined the genotype frequencies of these polymorphisms in a total of 116 children with SSNS and 150 control subjects, using polymerase chain reaction-restriction fragment length polymorphism analysis (PCR-RFLP). There were no statistically significant differences in any of the genotype frequencies between SSNS patients and controls. We conclude that VEGF -460, -141 and +405 genotypes are not associated with susceptibility to childhood SSNS.

The interleukin-10-1082 G/A polymorphism: allele frequency in different populations and functional significance

Genotypic variation in the human interleukin-10 (IL-10) promoter may account for marked inter-individual variation in IL-10 production and may influence susceptibility to autoimmune diseases. The G/A polymorphism at position -1082 has been linked to high/low IL-10 producer status. We directly tested the functional significance of this polymorphism using DNA-binding assays and reporter gene assays, examined allele frequencies in two geographically distinct populations and assessed intra- and inter-individual variation in IL-10 production in vitro according to genotype. Functional analyses showed that the -1082 region contains a putative ETS-like transcription factor-binding site, and nuclear factors from a monocyte cell line bind to this region. Transient transfection studies in an Epstein-Barr virus-transformed B cell line indicated that the -1082 A allele confers a two fold increase in transcriptional activity of the IL-10 promoter compared to the G allele. There was marked inter-individual variation in IL-10 production by peripheral blood mononuclear cells in vitro, with no consistent effect of genotype.

Expression of neuropilin-1 by human glomerular epithelial cells in vitro and in vivo

Vascular endothelial growth factor (VEGF) is a potent promoter of endothelial mitogenesis and of endothelial permeability. Within the kidney it is synthesized primarily in the visceral glomerular epithelial cells (vGECs); however, the role of VEGF in the glomerulus remains unknown, as does the target cell upon which it acts. Although the target cells may be those of the glomerular endothelium, there are micro-anatomical reasons why this might not be the case. This, therefore, led us to consider the possibility that glomerular VEGF may bind to the vGECs themselves. Since it has been shown that vGECs do not express the main tyrosine kinase VEGF receptors, we chose to study vGEC expression of the more recently described VEGF isoform-specific receptors, the neuropilins. The expression of mRNAs for neuropilin-1, neuropilin-2 and soluble neuropilin was studied in whole kidney, sieved glomeruli and cultured podocytes by reverse transcription-PCR, and neuropilin-1 mRNA expression in isolated single glomeruli was analysed by nested reverse transcription-PCR. The expression of neuropilin-1 protein was investigated in cultured vGECs by Western blotting and immunocytochemistry, and in normal kidney sections by immunohistochemistry. Neuropilin-1 mRNA was detected in whole kidney, single and sieved glomeruli and cultured vGECs. Neuropilin-1 protein was detected in cultured vGECs and in vGECs in normal kidney sections by immunohistochemistry. Thus the present study suggests that vGECs may have the potential to bind the VEGF that they secrete. Functional studies will be required to address the potential significance of this finding in terms of an autocrine loop or VEGF sequestration.

Effects of type 2 cytokines on glomerular epithelial cells

Visceral glomerular epithelial cells (GECs) are involved in the maintenance of the filtration barrier and may play a role in immune responses. Cytokines may act on GECs and we wished to test this in vitro. Vascular endothelial growth factor (VEGF) is a specific product of the GEC that may play a role in glomerular permeability. We have investigated whether GECs in culture express receptors for interleukin (IL)-4, 10 and 13 (often grouped together as type 2 cytokines) and whether these cytokines alter GEC VEGF production. Type 2 cytokines were compared to transforming growth factor-beta (TGF-beta) and IL-1beta which are known to upregulate VEGF production. GECs were grown from human nephrectomy specimens and cultured with and without the addition of exogenous cytokines. Messenger RNA data demonstrated the presence of IL-4 receptor alpha, IL-10 receptor 1 and 2, and IL-13 receptors alpha1 and alpha2. However, at the protein level by flow cytometry, only IL-13 alpha2 could be consistently demonstrated. IL-4, IL-10 and IL-13 inhibited production of VEGF but did not affect the pattern of isoform expression. In contrast, TBF-beta and IL-1beta caused an increase in VEGF production. These effects were not explained by effects on proliferation. Our data provide evidence that GECs express receptors for type 2 cytokines and that these cytokines can act directly on GECs, to decrease VEGF production.

Exogenous type-1 cytokines modulate mercury-induced hyper-IgE in the rat

Suppression of IgE responses is a major goal for immunotherapy, especially in the field of allergy. The Th2 subset of helper T cells plays a vital role in class switching of B cells to IgE production by releasing IL-4. In susceptible rat strains, mercuric chloride (HgCl2) induces activation of Th2 cells, with enhanced expression of IL-4, polyclonal B cell activation and very high levels of circulating IgE. We have previously shown that spontaneous regulation of this response coincides with enhanced expression of Th1/type-1 cytokines, including interferon-gamma (IFN-gamma) and IL-12. We now report the effects of administration of exogenous type-1 cytokines on HgCl2-induced Th2 responses. At high doses, recombinant rat IFN-gamma markedly reduced serum IgE levels. Recombinant mouse IL-12 was less effective at suppressing the IgE response following HgCl2, although it caused marked up-regulation of IFN-gamma gene expression in the spleen. In Lewis rats, which are resistant to HgCl2-induced autoimmunity, a rise in serum IFN-gamma was observed after HgCl2, but administration of polyclonal anti-IFN-gamma antibodies did not render them susceptible to induction of a Th2 response by HgCl2. Our data show that individual type-1 cytokines are capable of suppressing the dramatic Th2 response induced by HgCl2 in the rat, even when they are not given until after starting HgCl2 administration. IFN-gamma is a pivotal cytokine in ameliorating the Th2 response and measures aimed at selective up-regulation of this cytokine may be of therapeutic value in suppression of unwanted IgE responses.

Levamisole induces interleukin-18 and shifts type 1/type 2 cytokine balance

Immune responses can be classified, according to the predominant cytokines involved, into type 1 (featuring interferon-gamma, IFN-gamma) and type 2 (featuring interleukin-4, IL-4); imbalance between type 1 and type 2 cytokine compartments has been implicated in many human diseases. Levamisole is a drug with an unknown mode of action that has been used to boost immunity in infectious diseases including leprosy, and in some cancers. To test the hypothesis that levamisole acts by inducing a shift to a type 1 immune response, we used Brown Norway (BN) rats, which are markedly biased to type 2 responses. BN rats treated with levamisole showed a dose-dependent rise in serum IFN-gamma and fall in serum immunoglobulin E (IgE) level. Detailed analysis of cytokine gene expression showed upregulation of IFN-gamma and downregulation of IL-4 messenger RNA. This coincided with marked upregulation of IL-18, a recently characterized cytokine with potent activity in stimulating IFN-gamma production. IL-12 was not induced. Further, the type 2 response induced in BN rats by mercuric chloride was markedly attenuated when rats were pretreated with levamisole: there was a 2-log reduction in maximum serum IgE level and marked attenuation of IL-4 gene upregulation. These data indicate that levamisole acts by resetting the immune balance towards a type 1 response via induction of IL-18. Our findings provide a direction for development of more specific immunomodulating therapy.

Role of beta1 and beta2 subunits of the interleukin-12 receptor in determining T helper 1/T helper 2 responses in vivo in the rat

Interleukin-12 (IL-12) responsiveness, and hence capacity to mount a T helper type 1(Th1) immune response, may be regulated via differential expression of the IL-12 receptor beta2 subunit at least in vitro in human and murine cells. To test whether a similar phenomenon operates in vivo in the rat we cloned and sequenced partial cDNAs for rat IL-12Rbeta1 and IL-12Rbeta2 subunits and analysed expression of these genes in vivo in two rat strains with different Th1/Th2 bias. After treatment with mercuric chloride (HgCl2), Brown-Norway rats develop Th2-biased autoimmunity whereas Lewis rats do not develop autoimmunity, instead becoming resistant to Th1-biased diseases to which they are normally susceptible. We report close sequence homology between the segments of the rat IL-12R genes sequenced and corresponding mouse genes (95.6% and 92% for IL-12Rbeta1 and IL-12Rbeta2, respectively). Both Brown-Norway and Lewis rats express both beta1 and beta2 subunits of IL-12 receptor in vivo in spleen; Brown-Norway rats express the beta2 subunit at a lower level than Lewis rats. After HgCl2 treatment, IL-12Rbeta1 expression was not altered but there was down-regulation of IL-12Rbeta2 expression in both strains. We conclude that relative under-expression of IL-12Rbeta2 by Brown-Norway rats contributes to their Th2 bias, and that down-regulation of IL-12Rbeta2 after HgCl2 administration in Lewis rats underlies subsequent resistance to induction of Th1-biased diseases.

Dinucleotide repeat polymorphisms within the Flt-1 gene in minimal change nephropathy

Dysregulation of Flt-1, a major receptor for vascular permeability factor (VPF), may provide a mechanism for the development of proteinuria in minimal change nephropathy (MCN). The gene for Flt-1 has a polymorphic dinucleotide repeat. We have demonstrated an 88% predominance of one allele and an 80% rate of homozygosity for this polymorphism with no association with MCN.

Heterogeneous vascular endothelial growth factor (VEGF) isoform mRNA and receptor mRNA expression in human glomeruli, and the identification of VEGF148 mRNA, a novel truncated splice variant

Vascular endothelial growth factor (VEGF) mediates increased vascular permeability and endothelial mitogenesis, and may orchestrate normal glomerular permselectivity and proteinuria. Distinct isoforms result from differential gene splicing. VEGF binds to two cell surface tyrosine-kinase receptors, KDR (kinase domain region) and Flt-1 (fms-like tyrosine kinase-1). The latter also exists in a soluble form (sFlt), which is inhibitory. We have studied patterns of VEGF-isoform and VEGF-receptor expression in isolated single normal human glomeruli. mRNA from 190 glomeruli (from 20 individuals) was harvested on to magnetic beads, and nested reverse transcription-PCR was performed using primers for the VEGF isoforms and VEGF receptors. Simultaneous nested reverse transcription-PCR for CD45 was conducted in order to exclude leucocyte contamination. Unexpected products were isolated, cloned and sequenced. Multiple patterns of glomerular VEGF mRNA isoform expression were identified. Most frequently (58%), all three common forms were expressed. VEGF(189) (i.e. 189-amino-acid form of VEGF) was expressed in 63%, VEGF(165) in 85% and VEGF(121) in 84% of glomeruli. Two unexpected PCR products were also identified: 18% of glomeruli expressed VEGF(145), and 27% of glomeruli expressed a new truncated VEGF splice variant, VEGF(148), lacking exon 6, the terminal part of exon 7 and exon 8. Multiple patterns of VEGF-receptor expression were also identified, the most common being expression of all three isoforms (28%). Overall, KDR was seen in 59% of glomeruli, Flt-1 in 45% and sFlt in 57%. Thus the expression of VEGF within normal glomeruli is complex and variable, with inter- and intra-individual variation. Furthermore, sFlt appears to be the co-dominant form of VEGF receptor expressed within glomeruli, suggesting that, in healthy individuals, a degree of VEGF autoregulation is the norm. The physiological importance of VEGF(148) remains to be confirmed.

Low-dose mercuric chloride induces resistance in brown norway rats to further mercuric chloride by up-regulation of interferon-gamma

Mercuric chloride induces autoimmunity in Brown Norway rats with polyclonal B-cell activation, hyper-IgE and multiple autoantibodies. Pre-treatment with low-dose HgCl2 (one-tenth of the standard dose) induces resistance to later full-dose HgCl2; we have studied the mechanism of this resistance. Brown Norway rats given low-dose HgCl2 showed only a modest increase in serum IgE level, three logs lower than rats given standard-dose HgCl2, and no up-regulation of splenic interleukin (IL)-4 mRNA. There was up-regulation of splenic interferon (IFN)-gamma gene expression and a progressive rise in serum IFN-gamma. Neither IL-12 nor IL-18 were induced, but there was up-regulation of IL-12 receptor beta2-chain (IL-12Rbeta2) expression. IL-10 and transforming growth factor (TGF)-beta expression did not change. Serum IgE and splenic IL-4 mRNA expression remained static when these rats were rechallenged, confirming resistance. Thereafter IFN-gamma expression gradually fell, after which IL-4 expression and serum IgE rose slightly. Our observations suggest that low-dose HgCl2 confers protection in Brown Norway rats to further HgCl2 by up-regulation of IFN-gamma, associated with enhanced IL-12Rbeta2 expression. The immunological response to HgCl2 in susceptible rat strains is more complex than previously appreciated and is dose dependent, with low doses inducing a T helper '(Th)1' type of response in contrast to the 'Th2' type response associated with standard doses.

Interleukin-4 and interleukin-4 receptor polymorphisms in minimal change nephropathy

Minimal change nephropathy (MCN) is an important cause of nephrotic syndrome, especially in children, that is strongly associated with atopy and IgE production. The immunogenetics of MCN are poorly understood. Interleukin-4 (IL-4) is the critical cytokine involved in the development of atopy. Polymorphic regions in the genes encoding IL-4 itself and the IL-4 receptor have been demonstrated that may predispose to increased activity. We have analysed these polymorphisms in 149 patients with MCN and 73 controls to test the hypothesis that these loci are involved in genetic predisposition to MCN. In our populations there were no polymorphisms in the IL-4 promoter. We did confirm allelic variation in a dinucleotide repeat in the second intron of the IL-4 gene, but there was no significant difference between allele distributions in MCN and controls. Similarly, allele frequencies for the IL-4 receptor alpha chain polymorphism were similar in patients and controls. Genetic loci which are believed to influence IL-4 responsiveness and to predispose to atopy do not appear to be associated with susceptibility to MCN.

The spouse as a kidney donor: ethically sound?

A shortage of cadaver donor organs requires transplant units to examine all possible alternatives. Transplantation from living donors accounts for only approximately 10% of kidney transplants in the UK. Recent studies have shown that the results of kidney transplantation between spouses are at least as good as those of well-matched cadaver organs, but very few transplants of this type have been performed in this country so far. As part of the assessment process, the proposed donor and recipient are required to provide written statements about the issues. We reproduce here the personal statements made by one of our patients and his wife: we believe that the statements support our contention that spousal transplantation is ethically justifiable and should be more widely available. We report our early experience in Bristol with seven kidney transplants from spousal donors and we encourage other renal units in this country and elsewhere to consider this method of improving the prospects of kidney transplantation for their patients.

Is complement a target for therapy in renal disease?

Complement deposition in the injured kidney is common, especially in glomerulonephritis. The precise role of the complement system in the mediation of tissue injury in the kidney has been defined in recent years, and this has assumed extra importance with the recent development of specific forms of therapy directed at the complement pathway. As well as the induction of cell lysis, complement has many subtle effects on cell biology, particularly on endothelial cells. Complement components are produced locally in the kidney. Detailed studies of certain rare forms of nephritis have provided evidence that complement activation can directly cause tissue injury. Appreciation of the importance of complement in hyperacute rejection of xenotransplants has given new impetus to the development of complement inhibitors. A narrative review is provided, with a brief overview of the complement pathway and its regulatory mechanisms, mechanisms of complement-induced tissue injury, local complement production, and the renal consequences of complement dysregulation. Currently available forms of therapy aimed at the complement system are reviewed, and possible future therapeutic strategies are suggested. The complement system plays a direct causal role in tissue injury in certain forms of renal disease. Specific forms of therapy are becoming available that can selectively interrupt complement activation or promote its regulation. Much of the drive for the development of these therapies comes from the field of xenotransplantation, but these forms of therapy should also be tested in various primary renal diseases.

Th1/Th2 cytokine gene expression after mercuric chloride in susceptible and resistant rat strains

Mercuric chloride (HgCl2) has contrasting effects on different rat strains: susceptible strains, e.g. Brown Norway (BN) develop polyclonal B cell activation, multiple autoantibodies and widespread tissue injury. Lewis (LEW) rats are resistant: no autoimmune response occurs after HgCl2; instead, there is immunosuppression. We have previously shown, by fully quantitative polymerase chain reaction (PCR), up-regulation of interleukin-4 (IL-4) gene expression in HgCl2-treated BN rats, implicating Th2 cells in the autoimmune syndrome. Involvement of the reciprocal Th1 subset, producing interferon-gamma (IFN-gamma), in resistance of LEW rats to HgCl2 has been suggested. We now report extensive analysis of Th1 and Th2 cytokine gene expression in spleen and lymph nodes of susceptible (BN) and resistant (LEW) rats after HgCl2. IL-4 and IFN-gamma were analyzed by quantitative PCR, other cytokines were assessed using semiquantitative PCR: the relative merits of these two techniques are discussed. We show pronounced up-regulation of IL-4 and more modest up-regulation of IFN-gamma in BN rats, but no up-regulation of either in LEW rats. Baseline levels of IFN-gamma were higher in Lew rats. Semiquantitative PCR showed increased expression of IL-2, IL-6 and IL-10 in BN; in LEW rats only IL-10 was increased. There was no marked change in IL-5, IL-13 or transforming growth factor-beta (TGF-beta) in either strain. These data further support the key role of IL-4 in HgCl2-induced autoimmunity, and suggest that failure of up-regulation of IL-4, together with higher baseline IFN-gamma expression, accounts for resistance of LEW rats to HgCl2. However, neither IFN-gamma nor TGF-beta can be implicated in HgCl2-induced immunosuppression in the LEW rat in vivo: our data suggest a role for IL-10 in this phenomenon.

Cholesterol emboli may mimic systemic vasculitis

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Cloning of a partial cDNA for rat interleukin-12 (IL-12) and analysis of IL-12 expression in vivo

Experimental models of autoimmunity in the rat may feature selective activation of either the Th1 or Th2 subset of helper T cells. Interleukin-12 (IL-12) is a key cytokine in the development of Th1 responses. In order to study IL-12 in the rat we used polymerase chain reaction (PCR) primers based on murine IL-12 to amplify a partial cDNA from rat tissue. The product was cloned and sequenced: it shows 94% nucleotide identity with the murine gene and 94% identity of predicted amino acid sequence. Primers based on the rat IL-12 sequence were used to analyse IL-12 expression in vivo using semi-quantitative PCR. We studied RNA from lymphoid tissues of two rat strains which differ in their response to mercuric chloride (HgCl2): Brown Norway (BN) rats develop autoimmunity with a predominant Th2 response; Lewis rats are resistant. Interleukin-12 expression was higher in Lewis than BN, and higher in spleen than lymph node. After HgCl2, IL-12 expression increased in BN towards the time when the autoimmune response autoregulates. Variation in baseline levels of IL-12 expression may account for the Th2 predisposition of BN rats compared to Lewis rats; IL-12 may play a role in the autoregulation of the Th2 response induced by HgCl2.

Role of neutrophils in the pathogenesis of experimental vasculitis

In the Brown-Norway rat, mercuric chloride (HgCl2) induces an autoimmune syndrome characterized by high IgE levels. There is widespread necrotizing leukocytoclastic vasculitis involving lung, skin, mucous membranes, pancreas, liver, and gut, with tissue injury being most marked in the cecum. As in systemic vasculitis in man, there are neutrophils at the site of tissue injury and the animals develop anti-neutrophil cytoplasmic antibodies, which in the Brown-Norway rat are directed against myeloperoxidase. To determine whether neutrophils are involved in the pathogenesis of the vasculitis, we have used a monoclonal antibody that was reported to deplete neutrophils in other rat strains. Rats treated with HgCl2 received antibody by intravenous injection at various time points. Serial blood samples were taken for neutrophil counts and to assay for anti-myeloperoxidase and IgE antibodies. The guts of animals killed after antibody therapy were scored for vasculitic changes and neutrophils infiltrate. RP3 (but not the control antibody MAC6) was shown to bind to Brown-Norway rat neutrophils and to block glycogen-induced influx of neutrophils into the peritoneum. When given at peak disease, RP3 caused a dose-dependent reduction in tissue injury with a marked reduction in circulating blood neutrophil numbers and in tissue neutrophil infiltrate. RP3 treatment did not affect the rise in titer of IgE and anti-myeloperoxidase antibodies. The data presented demonstrate that in this model neutrophils are necessary for the induction of vasculitis and that the degree of vasculitis correlates with neutrophil number. To our knowledge, this study is the first to provide direct evidence for a role for neutrophils in vasculitis. We suggest that antibodies directed against neutrophils, especially if they deplete neutrophils, may be useful in the therapy of vasculitis in man.

Serum IgE concentration and other immune manifestations of treatment with gold salts are linked to the MHC and IL4 regions in the rat

A subset of patients with rheumatoid arthritis occasionally develops skin reactions and glomerulonephritis and exhibits an increase in serum IgE concentration when treated with gold salts. Brown-Norway (BN) rats injected with aurothiopropanolsulfonate (ATPS) also manifest an autoimmune glomerulonephritis and increased serum IgE concentration, whereas Lewis (LEW) rats are resistant to complications. Here, we show linkage between responses to ATPS in a (BN x LEW) F2 cohort and the major histocompatibility complex (RT1) on rat chromosome 20 and between markers in the region of IL4 and other candidate genes on rat chromosome 10. Recently, human serum IgE concentration has been reported to be linked to the IL-4 region. Taken together, these findings raise the possibility that homologous genes could be implicated in ATPS manifestations in the rat and in the regulation of IgE levels in the human.

Molecular analysis of C3 allotypes related to transplant outcome in human renal allografts

The third component of complement (C3) exists in two main allotypic forms, C3S and C3F, which can be distinguished at the molecular level using a variation of the polymerase chain reaction. An increased frequency of the C3F allele has been noted in a number of autoimmune and inflammatory conditions affecting the kidney, including systemic vasculitis, IgA nephropathy, and type II mesangiocapillary nephritis. Recently, in an unrelated study, we found (with small numbers) an increased incidence of graft loss associated with the presence of the C3F allele. To further assess this, we analyzed the S/F polymorphism in 183 donor-recipient pairs of patients undergoing renal transplantation. Forty-one of 183 grafts were lost, but graft loss was not associated with the C3F allele over 14-month follow-up. However, the presence of the C3F allele predicted an increased risk of graft dysfunction (defined as serum creatinine > 150 mumol/L): 61/105 versus 36/78, with a relative risk of 1.4 (P < 0.05). The C3F allele predisposed toward graft dysfunction when present in either donor or recipient. The presence of two C3F alleles gave a relative risk for graft dysfunction of 1.8, suggesting a dose-dependent effect, although numbers were small. The presence of the C3F allele was not significantly correlated with the number of rejection episodes, serum creatinine, or duration of primary nonfunction. These findings suggest that C3F may be a susceptibility allele for allograft injury. Possible mechanisms for this association are discussed.

Nitric oxide contributes to tissue injury in mercuric chloride-induced autoimmunity

Recent data has suggested a role for nitric oxide (NO) both in the induction of immunity and as an effector of tissue injury in experimental models of inflammation. In this study, we have tested the efficacy of two inhibitors of NO synthase, NG-monomethyl-L-arginine (L-NMMA) and aminoguanidine (AG), to modify the autoimmune leucocytoclastic necrotizing vasculitis which develops following the administration of mercuric chloride (HgCl2) to the Brown Norway rat. Neither agent affected the induction of autoimmunity as judged by plasma IgE titres or the degree of tissue neutrophil infiltration; however, L-NMMA did significantly attenuate tissue injury scores. We conclude that inhibition of NO synthase does not influence the induction of autoimmunity by HgCl2, but that NO does contribute to the development of tissue injury in this experimental model.