Prevention of glomerulosclerosis by early cyclosporine treatment of experimental lupus nephritis

Moderator's view: The use of calcineurin inhibitors in the treatment of lupus nephritis

Lupus nephritis (LN) is one of the most severe manifestations of systemic lupus erythematosus (SLE), affecting ∼50% of patients, and both renal disease and treatment-related toxicity contribute to significant morbidity and mortality. Although our understanding of the aetiopathogenesis of LN is improving, treatment still remains a challenge, with the achievement of complete remission at 1 year in <50% of patients treated with current standard of care immunosuppressive therapy; this is associated with considerable short- and long-term side effects, some of which further contribute to non-adherence. Calcineurin inhibitors (CNIs) have been successfully used in organ transplantation and there is increasing evidence that cyclosporin A (CSA), and especially tacrolimus (TAC), are also effective in the treatment of LN. Randomised controlled trials showed similar efficacy for TAC when compared with mycophenolate mofetil (MMF) and multitarget therapy, including TAC and low-dose MMF, and resulted in significantly more complete remissions and overall responses compared with intravenous cyclophosphamide (CYC). Flares are observed in up to 45% of patients with LN, and an increase in relapse rate following induction with CNIs may be an issue. Most studies on this matter have been restricted to patients from Asia, and studies in more balanced cohorts are desirable. Moreover, there is a need to understand and determine the long-term effects of CNIs on renal function, proteinuria and comorbidities, with a special focus on cardiovascular risk. In this 'Pros and Cons' debate, the potential benefits and disadvantages of CNIs in the treatment of LN will be critically highlighted.

Quercitrin ameliorates the development of systemic lupus erythematosus-like disease in a chronic graft-versus-host murine model

Systemic lupus erythematosus (SLE) is a serious disorder of immune regulation characterized by overproduction of autoantibodies, lupus nephritis, CD4+ T cell aberrant activation, and immune complex-mediated inflammation. The chronic graft vs. host disease (cGVHD) mouse model is a well-established model of SLE. Quercitrin is a natural compound found in Tartary buckwheat with a potential anti-inflammatory effect that is used to treat heart and vascular conditions. In our previous study, we determined that quercitrin is an immunosuppressant with beneficial effects in mouse models of immune diseases. We hypothesized that quercitrin could prevent lupus nephritis in the cGVHD mouse model by decreasing the production of autoantibodies and inflammatory cytokines, and reducing immune cell activation. cGVHD was induced by injecting DBA/2 spleen cells into the tail vein of BDF1 mice. The cGVHD mice exhibited significant proteinuria, which is a marker of nephritis. Quercitrin decreased the number of serum antibodies, CD4+ T cell activation, as well as the expression levels of T-bet, GATA-3, and selected cytokines. Moreover, quercitrin treatment decreased the expression of inflammatory genes and cytokines in the kidney, as well as in peritoneal macrophages. In addition, quercitrin inhibited LPS-induced cytokines as well as the phosphorylation of ERK, p38 MAPK, and JNK in Raw264.7 cells. Overall, quercitrin ameliorated the symptoms of lupus nephritis in the cGVHD mouse model, which may be due to the inhibition of CD4 T cell activation and anti-inflammatory effects on macrophages.

The use of extracellular matrix probes and extracellular matrix-related probes for assessing diagnosis and prognosis in renal diseases

PURPOSE OF REVIEW

Scarring in the kidney results from excessive local synthesis and exogenous accumulation of extracellular matrix components. Once chronic damage is present in the biopsy, therapeutic intervention for the renal patient encounters severe limitations. It is therefore essential to determine clinical outcome preferably at a time point before the development of overt scarring. Clinical parameters and morphologic alterations in the biopsy are currently used as tools for the diagnosis of the renal disease entity and for assessment of the patient's prognosis. Expression levels of extracellular matrix and matrix-related components may serve as additive and even superior prognostic indicators to conventional parameters. We will elaborate on studies supporting this concept.

RECENT FINDINGS

Several investigators have shown in experimental models for renal disease that extracellular matrix probes and related probes reflect disease progression and predict outcome. In this review, we will provide an update on the most recent studies of human renal biopsies showing that expression of extracellular matrix components, regulators of matrix degradation, and cytokines affecting matrix deposition may be employed for discrimination of diagnostic groups and predicting prognosis.

SUMMARY

Molecular techniques are expected to be used more and more for diagnostic and prognostic purposes in nephrological practice to supplement the histopathological analysis of the renal biopsy. Assessment of expression of matrix molecules, matrix-regulating cytokines, and metalloproteinases in renal kidney biopsies is helpful to distinguish patients who are at risk of developing progressive renal failure from patients who are likely to recover from renal tissue injury by natural remodeling mechanisms.

Transgenic mice overexpressing cyclophilin A are resistant to cyclosporin A-induced nephrotoxicity via peptidyl-prolyl cis–trans isomerase activity

Cyclosporin A (CsA) suppresses immune reaction by inhibiting calcineurin activity after forming complex with cyclophilins and is currently widely used as an immunosuppressive drug. Cyclophilin A (CypA) is the most abundantly and ubiquitously expressed family member of cyclophilins. We previously showed that CsA toxicity is mediated by ROS generation as well as by inhibition of peptidyl-prolyl cis-trans isomerase (PPIase) activity of CypA in CsA-treated myoblasts [FASEB J. 16 (2002) 1633]. Since CsA-induced nephrotoxicity is the most significant adverse effect in its clinical utilization, we here investigated the role of CsA inhibition of CypA PPIase activity in its nephrotoxicity using transgenic mouse models. Transgenic mice of either wild type (CypA/wt) or R55A PPIase mutant type (CypA/R55A), a dominant negative mutant of CypA PPIase activity, showed normal growth without any apparent abnormalities. However, CsA-induced nephrotoxicity was virtually suppressed in CypA/wt mice, but exacerbated in CypA/R55A mice, compared to that of littermates. Also, life expectancy was extended in CypA/wt mice and shortened in CypA/R55A mice during CsA administration. Besides, CsA-induced nephrotoxicity was inversely related to the levels of catalase expression and activity. In conclusion, our data provide in vivo evidence that supplement of CypA PPIase activity allows animal's resistance toward CsA-induced nephrotoxicity.

Cerebral lupus in patients whilst on treatment for lupus nephritis with cyclosporine

Two young female patients who were treated for severe lupus nephritis with cyclosporine, developed, while the renal parameters remained stable, signs of cerebral lupus (bilateral papiloedema and cranial nerve palsy in one patient and grand mal seizures in the second). The first patient responded to plasmapheresis and i.v. cyclophosphamide, and the second to temporary increase in prednisone with anti-convulsant medication. Both case histories suggest that cyclosporine, whilst controlling lupus nephritis, was not able to prevent serious attacks of cerebral lupus. This discrepancy might be related to relative inability of the drug to reduce antibody production or to the existence of heterogeneous pathogenetic mechanisms of lupus in different organ systems.

RNA expression profiling as prognostic tool in renal patients: toward nephrogenomics

Damage to the kidney generally elicits tissue repair mechanisms, but these processes themselves conversely may result in the progression of chronic renal disease. In a majority of patients chronic renal insufficiency progresses to a common histological end point, marked by the presence of a vast amount of scar tissue, that is, glomerulosclerosis and interstitial fibrosis. These lesions are the result of an excessive production of extracellular matrix (ECM) components. Studies on RNA expression in experimental kidney disease have shown that renal mRNA levels for ECM components and cytokines can function as prognostic tools. This suggests that mRNA levels potentially predict outcome and reaction to therapy in patients with renal diseases. Timely detection of molecular alterations could allow early therapeutic intervention that slows down or even prevents the development of sclerotic and fibrotic lesions. This review first provides a short introduction on mechanisms of initiation and progression of renal disease. Molecular techniques are available to identify renal RNA sequences potentially involved in disease progression. We discuss several molecular techniques that are being used in kidney research for quantitation and detection of mRNA. This is followed by a brief overview of investigation in experimental renal diseases, which reveal that alterations in tissue ECM mRNA levels precede histological damage and can function as predictors of clinical outcome. In particular, studies in human kidney biopsies that evaluate the prognostic value of mRNA levels with respect to renal function are examined, paying special attention to the pitfalls that potentially are encountered when interpreting the results of such studies. Then, we elaborate on ways of optimal exploitation of mRNA quantification as a prognostic tool. The potential and limitations of microarray technology in the search for genes specifically involved in progression of renal disease are reviewed, including RNA expression profiling and large-scale DNA mutation screening. Finally, the future utilities of microarray in nephrology and renal pathology are discussed.

Effect of age and biopsy site on extracellular matrix mRNA and protein levels in human kidney biopsies

BACKGROUND

Investigation of the prognostic value of the expression of mRNA for extracellular matrix (ECM) components with respect to deterioration of kidney function in patients with renal disease requires an evaluation of the basal expression of ECM mRNA in healthy individuals and of the reliability of ECM mRNA measurements. In the current study, the collagen alpha 1(IV)/GAPDH (C4:G) and collagen alpha 1(I)/GAPDH (C1:G) mRNA ratios and the accumulation of collagen IV and collagen I protein were investigated in renal cortices of individuals of various age. Furthermore, we examined whether the C4:G mRNA ratio measured in a renal biopsy is representative of that in the rest of the kidney.

METHODS

To investigate the effect of age on collagen expression, kidneys obtained at autopsy from patients with a normal renal function (N = 18; age 19 to 92) were used. C4:G and C1:G mRNA ratios were measured by real-time polymerase chain reaction (PCR) analysis. Accumulation of collagen IV and collagen I protein was measured by quantitative image analysis on immunohistochemically stained sections. To determine whether the site at which a biopsy is taken affects the C4:G mRNA ratio, this ratio was measured in cortical biopsies taken from different locations from each of four kidneys: one without renal disease, one with diabetes mellitus type I, and two with diabetes mellitus type II. C4:G mRNA ratios were measured by using real-time PCR.

RESULTS

The C4:G mRNA ratio, but not the C1:G mRNA ratio or collagen IV protein accumulation, increased significantly with age (r = 0.55, P < 0.03). Collagen I protein accumulation increased with age (r = 0.85, P < 0.001) and correlated with the extent of interstitial fibrosis (r = 0.50, P < 0.05). The C4:G mRNA ratio did not differ significantly within a kidney.

CONCLUSIONS

This report shows, to our knowledge for the first time, that in the aging, normally functioning human kidney, there is a dissociation between the levels of mRNA for collagen IV and collagen I and the accumulation of these proteins. The levels of mRNA for collagen IV in a single renal biopsy can be regarded as representative of those in the rest of the kidney. These observations should be taken into account when ECM mRNA levels are used for diagnostic purposes.

Lupus nephritis: lessons from experimental animal models

Lupus nephritis is a frequent and severe complication of SLE. In the last decades, animal models for SLE have been studied widely to investigate the immunopathology of this autoimmune disease because abnormalities can be studied and manipulated before clinical signs of the disease become apparent. In this review an overview is given of our current knowledge on the development of lupus nephritis, as derived from animal models, and a hypothetical pathway for the development of lupus nephritis is postulated. The relevance of the studies in experimental models in relationship with our knowledge of human SLE is discussed.

Processing renal biopsies for diagnostic mRNA quantification: improvement of RNA extraction and storage conditions

The goal of this study was to improve a procedure for the extraction and storage of RNA from minute quantities of human renal tissue in clinical practice, using kidney biopsies and cadaveric donor kidneys unsuitable for transplantation. Collagen alpha1(IV) mRNA was analyzed as a measure for RNA integrity. The results show that at least 3 h may pass between microdissecting the renal tissue and the onset of cDNA synthesis without degradation of the glomerular mRNA. To extract the glomerular mRNA, microdissected glomeruli were incubated in a permeabilization solution. Treating glomeruli with collagenase IV before permeabilization had a deteriorating effect on the mRNA yield. The addition of reverse transcription mixture to the permeabilization solution in the presence of the glomeruli resulted in the highest cDNA yields. Storage of glomerular tissue in the presence of Nonidet P-40-based buffer for 1 wk at -70 degrees C did not significantly affect the mRNA, but storage for 2 or 4 wk resulted in deterioration of the mRNA by approximately 40 and 95%, respectively. Furthermore, three methods for total RNA isolation from microdissected interstitial tissue were compared. An approximately 2.5 times higher yield of collagen alpha1(IV) mRNA was obtained with silica gel-based membrane spin technology than with a guanidine isothiocyanate/phenol chloroform or a lithium chloride/phenol chloroform method. Finally, this study shows for the first time reliable detection of collagen alpha1(IV) mRNA in biopsies that had been frozen for at least 10 yr at -70 degrees C. These experiments have helped to improve a procedure for the processing of glomerular and interstitial tissue acquired from human kidney biopsies for mRNA analysis. This method is suitable for implementation in routine clinical practice.

Risk factors for hypercreatinemia in patients with systemic lupus erythematosus

Renal insufficiency is one of the most severe outcomes of systemic lupus erythematosus (SLE). The aim of this study was to identify baseline predictors of the development of renal insufficiency in a cohort of patients with SLE. 281 patients from the The Hopkins Lupus Cohort (HLC) enrolled between 1987-1994 were followed for the occurrence of renal insufficiency, defined as a serum creatinine 1.6 mg/dl for men and 1.4 mg/dl for women. Over a mean (+/-s.d.) of 3. 3+/-2.1 y of follow up, 46 (16%) of the 281 patients developed renal insufficiency. Using a multivariate Cox proportional hazard model, we found the risk of renal insufficiency associated with younger (0-19 y) or older (40 y) age at baseline (relative risk (95% CI) 5.1 (1.4, 18.8) and 4.1 (2.1, 8.2)) and longer duration of SLE before referral to the cohort (RR 1.25 [1.05, 1.5] for every five years). Additional predictive variables were borderline elevation of serum creatinine at baseline (RR 3.1 (1.4, 6.6) for a serum creatinine 1. 4-1.5 mg/dl for men and 1.2-1.3 mg/dl for women), and mean proteinuria (RR 3.6 (1.8, 7.4) for trace-3+ and 10.6 (3.8, 30.0) for 3+ (urine dipstick level)). Socioeconomic status, race, autoantibodies and complement were not significantly associated with the risk of renal insufficiency. This study supports early referral of SLE patients to rheumatologists and emphasizes the importance of early signs of renal involvement as predictors of later renal insufficiency in SLE patients.

Anti-DNA autoantibodies and systemic lupus erythematosus

Systemic lupus erythematosus (SLE) is a systemic autoimmune disease that affects most of the organs and tissues of the body, causing glomerulonephritis, arthritis, and cerebritis. SLE can be fatal with nephritis, in particular, predicting a poor outcome for patients. In this review, we highlight what has been learned about SLE from the study of mouse models, and pay particular attention to anti-DNA autoantibodies, both as pathological agents of lupus nephritis and as DNA-binding proteins. We summarize the current approaches used to treat SLE and discuss the targeting of anti-DNA autoantibodies as a new treatment for lupus nephritis.

Matrix and adhesion molecules in kidney pathology: recent observations

The purpose of this article is to review a set of recently obtained data concerning matrix and matrix adhesion molecules in renal disease. Our goal is not to cover the entire topic, but rather to focus on findings obtained with an experimental model for chronic lupus nephritis, evoked in mice by inducing graft-versus-host disease (GVHD). The overall aim of these studies was to investigate the role of adhesion molecules as targets for autoantibodies, in the recruitment of inflammatory cells, and in the accumulation of matrix in kidney disorders. In addition, we set out to discover how matrix proteins in renal diseases differ from normal matrix molecules both quantitatively, in their increased frequency, and qualitatively, in their intramolecular structure. The advances in understanding and methodology described in this review imply a substantial capability for greater insight into the pathogenesis of kidney disease; for making better use of renal biopsies, such as in applying competitive reverse-transcriptase-polymerase chain reaction (RT-PCR) in RNA analysis for matrix; and in developing more effective treatment strategies for patients with kidney disease.