Detection of podocyturia in patients with lupus nephritis

Nephrology Dialysis Transplantation, 2016

Background. Currently, renal biopsy remains the gold standard for the diagnosis and prognosis of lupus nephritis (LN). However, it is an invasive method, and new non-invasive laboratory tests are needed to identify renal involvement without renal biopsy. Podocyte damage plays an important role in the pathogenesis and progression of systemic lupus erythematosus (SLE). We characterize whether the phenotype of urinary podocytes (viability, apoptosis, mRNA and protein levels of the podocyteassociated molecules) is a novel marker of clinical and histological features in SLE patients with or without LN. Methods. We quantified in urinary sediments of 32 SLE patients and 20 controls, mRNA and protein levels of podocalyxin, synapotopodin, podocin, nephrin and WT-1 by quantitative real-time polymerase chain reaction and western blot analysis and correlated these with clinical and histological parameters. The viability of detached urine podocytes was analysed by flow cytometry with podocalyxin and annexin V/7-AAD double staining and immunofluorescence of urine podocyte cultures. Results. The degree of a poptotic podocytes from urine samples was significantly decreased in patients with LN, especially in the active state (33% compared with 75% in controls, P < 0.001), and the majority of the detached podocytes in the urine of patients with active LN were viable (70% grew in culture). Furthermore, urinary mRNA of podocyte-associated molecules was significantly lower in patients with active LN (P < 0.05) compared with healthy controls, and protein levels of podocyte markers were significantly increased in SLE patients, especially with LN compared with SLE without LN (P < 0.05) and the healthy control group (P < 0.01). Finally, urinary protein levels of podocyte-related markers were associated with proteinuria and histological features (P < 0.05 and P < 0.01), and receiver operating characteristics curves of protein levels discriminate between LN and healthy controls with an area under the curve (AUC) between 0.91 and 0.77 (P < 0.001). Conclusions. Urinary dedifferentiated podocytes were shown in active LN, and their protein levels correlated with proteinuria and histological features in LN. These preliminary results suggest that it could be a potentially useful non-invasive marker for evaluating the progression of glomerular disease in SLE.

Renal failure, 2016

Objective To establish the occurrence and intensity of podocyturia and its relation to grade of disease activity, as defined by clinical and laboratory criteria. Methods Prospective, cross-sectional study involving 50 patients with lupus nephritis and 29 controls, which had podocyturia levels determined from random urine samples using an immunofluorescence technique. Disease activity was graded by BILAG (renal criteria) and an additional system used in the service (S2). Results Fifty patients with lupus nephritis (WHO classes III, IV and V), with a median age of 37 years, were evaluated. Of these, 86.5% were female, and 52% were BILAG A. Podocyturia quantification in the lupus nephritis and control groups differed significantly (p = 0.009). This score was higher in relation to classes III, IV and V. The correlation with C3 consumption was stronger (p = 0.011) than with C4. The highest levels were found in the most active groups (A and B of BILAG and S2). Lower podocyturia correlated...

Diabetes &amp; Obesity International Journal

Constant efforts are ongoing to identify reliable and reproducible noninvasive biomarkers for acute and chronic kidney injury targeted toward identifying kidney injury not only in its early stages, but also in classifying kidney disease according to severity, predict disease outcomes, and monitor response to therapeutic interventions. The number of podocytes in urine or podocyturia increases with active kidney disease even before proteinuria appears and seems to improve with treatment. Also, podocyturia seems to be confined to active disease, in contrast to proteinuria, which is present during both active and chronic phases of glomerular damage. It will be particularly interesting to explore podocyturia, as a marker of subclinical early renal damage, which may be a detectable way before the occurrence of overt proteinuria and development of full blown glomerular disease.

Podocytes are epithelial cells lining the outer surface of the renal glomerular capillaries and they play a pivotal role in maintaining the structural and functional integrity of the glomerular filtration barrier. Podocytes react to injury in various ways and any injury to these highly specialized cells can progress to podocyte dysfunction, resulting in a group of proteinuric renal diseases called podocytopathies. Podocytopathies include a wide spectrum of primary and secondary kidney diseases, including minimal change disease, diffuse mesangial sclerosis, focal segmental glomerulosclerosis, collapsing glomerulopathy, diabetic, membranous and lupus nephropathies. Etiologically, they can be idiopathic, genetic or secondary to infections and drugs, metabolic diseases, hemodynamic factors or associated with various immune and non-immune systemic diseases. This manuscript provides a basic understanding of podocyte structure, causes of podocyte injury, response to the injury and the subsequent progression to podocytopathies. The pathogenesis of these diseases is set around podocytes. The clinical and morphological manifestations, the commonality and heterogeneity of these podocytopathies are also discussed. As our knowledge of podocyte biology improves, so will our treatment avenues with a more podocyte-centric personalized approach.

International journal of health sciences

Background: Systemic lupus erythematosus often affects the kidneys, and its treatment continues to provide new challenges to clinicians every day. Proteinuria caused by either direct or indirect podocyte damage is diagnostic of lupus nephritis. Aim: The purpose of this study was to evaluate the prognostic usefulness of urinary podocytes in predicting renal complication in individuals with SLE. Subjects and methods: Twenty individuals with SLE participated in this cross-sectional observational research. Complete history collection, clinical examination, and laboratory investigation were performed on all individuals. Podocytes detection in the urine and a kidney biopsy were performed. Results: The relationship between urinary podocytes and histological subtype is quite significant. Also, urinary podocytes significantly positively correlated with all parameters except with albumin significantly negatively correlated. Conclusion: Lupus patients who have renal damage may exhibit urinary ...

Nature Reviews Disease Primers, 2020

The majority of diseases underlying chronic kidney disease (CKD) present with proteinuria, that is, loss of plasma proteins into the urine. Proteinuric kidney diseases can be divided into glomerular or non-glomerular forms, depending on whether protein loss occurs across the glomerular filtration barrier or results from insufficient reabsorption of filtered protein by the proximal tubule 1 . Glomerular proteinuria is defined by a predominance of albumin whereas, in non-glomerular forms, albumin is only a minor component. Proteinuria and proteinuria-related symptoms are the only or the main clinical presentation of diseases affecting podocytes, which are 'octopus-like' highly specialized cells in the glomerulus that act as part of the filter 2-4 . Causes of podocyte injury include all forms of immune complex glomerulonephritis that engender distinct histopathological patterns; for example, subepithelial localization of immune complexes in membranous nephropathy causes direct podocyte injury and massive proteinuria. By contrast, podocyte injuries without immune complex deposits produce different histopathological lesion patterns evident on biopsy, of which four types can be distinguished: diffuse mesangial sclerosis (DMS), which

International Journal of Nephrology

Background. Urinary podocyte excretion is related to a reduction in glomerular podocyte numbers, glomerulosclerosis, and urinary protein selectivity. To elucidate the role of urinary podocytes in proteinuria and renal prognosis and to identify the factors that cause podocyte detachment, we examined urinary podocytes in 120 renal biopsy patients. Methods. Podocytes were identified in urinary sediments stained with fluorescent-labeled anti-podocalyxin antibodies in ten high power fields. The amounts of protein bands, separated by SDS-polyacrylamide gel electrophoresis, were calculated using an image software program and the correlation with urinary podocytes was analyzed. Podocyte surface pores were observed using a low-vacuum scanning electron microscope. The renal prognosis, including induction of hemodialysis or 30% reduction in eGFR, was investigated. Results. Urinary podocyte excretion showed a higher positive correlation with albumin excretion compared to IgG, prealbumin, and tr...

Journal of the American Society of Nephrology, 2013

Model systems demonstrate that progression to ESRD is driven by progressive podocyte depletion (the podocyte depletion hypothesis) and can be noninvasively monitored through measurement of urine pellet podocyte mRNAs. To test these concepts in humans, we analyzed urine pellet mRNAs from 358 adult and pediatric kidney clinic patients and 291 controls (n=1143 samples). Compared with controls, urine podocyte mRNAs increased 79-fold (P,0.001) in patients with biopsy-proven glomerular disease and a 50% decrease in kidney function or progression to ESRD. An independent cohort of patients with Alport syndrome had a 23-fold increase in urinary podocyte mRNAs (P,0.001 compared with controls). Urinary podocyte mRNAs increased during active disease but returned to baseline on disease remission. Furthermore, urine podocyte mRNAs increased in all categories of glomerular disease evaluated, but levels ranged from high to normal, consistent with individual patient variability in the risk for progression. In contrast, urine podocyte mRNAs did not increase in polycystic kidney disease. The association between proteinuria and podocyturia varied markedly by glomerular disease type: a high correlation in minimalchange disease and a low correlation in membranous nephropathy. These data support the podocyte depletion hypothesis as the mechanism driving progression in all human glomerular diseases, suggest that urine pellet podocyte mRNAs could be useful for monitoring risk for progression and response to treatment, and provide novel insights into glomerular disease pathophysiology.

Clinical Journal of the American Society of Nephrology, 2012

Background and objectives The discovery of different podocyte autoantibodies in membranous nephropathy (MN) raises questions about their pathogenetic and clinical meaning. This study sought to define antibody isotypes and correlations; to compare levels in MN, other glomerulonephritides, and controls; and to determine their association with clinical outcomes.

BANTAO Journal, 2015

Glomerular disease is the most common cause of endstage renal disease (ESRD), accounting for almost two thirds of cases. In glomerular disease, alterations of po-docytes are of particular importance. Podocyte loss represents a central mediator of glomerular sclerosis. Toxic, genetic, immune, infectious, oxidant, metabolic, hemody-namic, and other mechanisms can all target the podo-cytes. These mechanisms provide new insight into the unique dynamic microenvironment that each individual podocyte inhabits and how it can turn hostile to survival. At the same time, they raise new therapeutic challenges to preserve glomerular function by containing podocyte injury and limiting its spread, both in podo-cytopathies and in other progressive glomerular diseases. Treatment strategies should aim at enhancing podocyte survival. The renin-angiotensin axis blockade, apart from its antifibrotic and intraglomerular hemodynamic effects, has an important role in preventing podocyte loss. However, only...