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3. The protective role of podocyte hypertrophy via mtor signalling after mild podocyte depletion.

Author

Furic L., Moeller M.J., Nikolic-Paterson D.J., Bertram J.F., Denton K.M., Puelles V.G., Van Der Wolde J.W., Cullen-McEwen L.A., Furic L., Moeller M.J., Nikolic-Paterson D.J., Bertram J.F., Denton K.M., Puelles V.G., Van Der Wolde J.W., and Cullen-McEwen L.A.

Abstract

Background: Marked podocyte depletion is an established key feature of glomerulosclerosis (FSGS). However, little is known about the consequences of mild podocyte loss. In addition, activation of parietal epithelial cells (PECs) has been proposed as a major effector in FSGS. This study investigates the consequences of graded podocyte depletion, the hypertrophic response of podocytes and associations with PEC activation and thereby glomerulosclerosis. Method(s): We induced selective podocyte depletion in PodCreiDTR mice by injection of diphtheria toxin (DT) at different doses. L-NAME induced hypertension was used as a second hit challenge after mild podocyte loss. The mammalian target of rapamycin (mTOR) signalling pathway was manipulated using mTOR inhibitors (RAD001 and INK128). Podocyte depletion and hypertrophy were examined by 3D analysis of whole glomeruli in optically-cleared kidney slices. Result(s): PodCreiDTR mice injected with a low dose of DT presented mild podocyte depletion, compensatory podocyte hypertrophy and reversible albuminuria without PEC activation or glomerulosclerosis, even following a second hit challenge (high blood pressure), suggesting a protective role of podocyte hypertrophy. Injection of a higher dose of DT in PodCreiDTR mice led to greater podocyte loss and hypertrophy. However, these mice showed PEC activation, glomerulosclerosis and persistent albuminuria, suggesting there is a limit for the protective role of podocyte hypertrophy. Pharmacological inhibition of mTOR during the induction of mild podocyte depletion led to persistent and exacerbated albuminuria, impairment of podocyte hypertrophy, PEC activation and glomerulosclerosis. Conclusion(s): Podocyte hypertrophy via mTOR signalling is required for the adaptive hypertrophic response of remaining podocytes after mild podocyte depletion. These results are relevant for the use of mTOR inhibitors in the context of FSGS and CKD.

Published
2020

4. 3D analysis of optically cleared kidney slices reveals focal podocyte loss in crescentic nephritis.

Author

Puelles V.G., Fleck D., Vogt M., Papadouri S., Strieder T., Saritas T., Spehr M., Moeller M.J., Nikolic-Paterson D.J., Puelles V.G., Fleck D., Vogt M., Papadouri S., Strieder T., Saritas T., Spehr M., Moeller M.J., and Nikolic-Paterson D.J.

Abstract

Background: Podocyte depletion is a common feature of glomerulosclerosis (FSGS), but its role in crescentic nephritis remains unclear. This study combined genetic tagging of podocytes with three different optical clearing techniques to determine podocyte depletion in whole glomeruli from mice with crescentic nephritis. Method(s): Podocyte nuclei were labeled by eGFP-histone in of adult male Pod-rtTA/ H2B-eGFP mice by oral doxycycline, followed by a 7-day wash out period, and a single intra-peritoneal injection of nephrotoxic serum (NTS; 5mg/g). Experimental mice were killed 10 days after NTS injection, and compared to age-matched controls. Kidney slices were optically cleared with SCALE-A4, CLARITY and Ethyl Cinnamate (ECi). Highresolution serial optical images were obtained by confocal and two-photon microscopy. Result(s): Mean podocyte number per mouse showed very low variability within controls (1-5% variability, P>0.05) and within NTS-injected mice (1-9% variability, P>0.05) independent of the clearing technique. In NTS-injected mice, a similar degree of average podocyte depletion per mouse was identified with all clearing methods (60-63%, P<0.001). The technical (dis-)advantages of each clearing protocol were also analysed, including optimal penetration depth and resolution, compatibility with immunofluorescence, microscopy set-ups, and cost-efficiency. Importantly, total podocyte number per glomerulus showed great variability: controls (mean: 78,81; ranging from 49 to 128 podocytes per glomerulus) and in NTS-injected mice (mean: 29,99; ranging from 1 to 95 podocytes per glomerulus). Using the lowest value for podocyte number in controls as a cut-off reference, only 78% of analysed glomeruli (141 of 180) from NTS-injected mice had a certain degree of podocyte depletion. While deposition of the NTS within glomeruli occurred in a global and homogeneous fashion, podocyte loss was focal. Conclusion(s): This study has identified early focal podocyte depletion in mic

Published
2020

5. Spectrum: A quantitative pipeline for optically cleared tissue validated in crescentic nephritis.

Author

Kuppe C., Nikolic-Paterson D.J., Moeller M.J., Puelles V.G., Ortz L., Papadouri S., Strieder T., Saritas T., Vogt M., Kuppe C., Nikolic-Paterson D.J., Moeller M.J., Puelles V.G., Ortz L., Papadouri S., Strieder T., Saritas T., and Vogt M.

Abstract

Background: Optical clearing and advanced light microscopy have revolutionised three-dimensional quantification in cell biology. Here, we present a Systematic Pipeline of Enhanced Clarification for Three-dimensional Rendering and Unbiased Morphometrics (SPECTRUM) as a unique tool for the comprehensive analysis of glomerular health and disease. Method(s): SPECTRUM is based on a combination of single cell identification (ie. lineage tracing), optical clearing, advanced light microscopy with single cell resolution, and 3D morphometrics. Podocytes and parietal epithelial cells (PECs) were genetically labelled with eGFP using inducible mouse systems (POD or PEC -rtTA/H2B-eGFP). Crescentic nephritis was used as a validation model. Several optical clearing protocols were optimized for kidney tissue, including aqueous, hydrogel, and solvent-based approaches. Image acquisition was based on whole structures (ie. glomeruli and lesions) using light sheet, confocal and two-photon microscopy. Subsequent tissue de-clarification with immunolabelling and classical histopathology allowed the combination of 3D and 2D analyses. Result(s): While IgG deposition showed a homogeneous distribution among all analysed glomeruli, only 80 showed signs of podocyte loss (podocyte loss per glomerulus of about 60). Only glomerular lesions showed significant increases in numbers of PECs (sign of PEC activation) in close association with reductions in glomerular capillary volume (sign of capillary injury). PEC activation was confirmed via immunofluorescence in recycled tissue samples (ie. de-novo CD44 expression). Based on 3D analysis of intraglomerular lesion location, we identified a progressive pattern from localised tubular lesions to segmental lesions and development of atubular glomeruli. Conclusion(s): SPECTRUM provides new roadmap for morphometrics in the kidney. In crescentic nephritis, SPECTRUM revealed that despite of uniform IgG deposition, there was focal lesion development and podocyte

Published
2020

7. Isolation and Primary Culture of Murine Podocytes with Proven Origin

Author

Smeets, B., Kabgani, N., and Moeller, M.J.

Subjects
Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11]
Abstract

Item does not contain fulltext Genetic studies on hereditary kidney diseases and in vivo experimental model studies have revealed a critical role for the podocyte in glomerular function and disease. Primary podocyte cultures as well as immortalized podocyte cell lines have been used extensively to study podocyte function. Although, primary cells often more closely resemble the in vivo cells, they may have only a finite replicative life span before they reach senescence. Therefore, the success of studies using primary cell cultures depends on standardized isolation and culture protocols that allow reproducible generation of stable primary cultures.This chapter describes the isolation of primary podocytes with a proven origin using the novel technology of cell-specific genetic tagging. Podocytes are isolated from glomeruli from a podocyte-specific transgenic reporter mouse. The podocyte-specific reporter gene beta-galactosidase is used to identify and specifically isolate the labeled podocytes from other glomerular cells by FACS.

Published
2016

8. Management and treatment of glomerular diseases (part 2): conclusions from a Kidney Disease: Improving Global Outcomes (KDIGO) Controversies Conference

Author

Rovin, B.H., Caster, D.J., Cattran, D.C., Gibson, K.L., Hogan, J.J., Moeller, M.J., Roccatello, D., Cheung, M., Wheeler, D.C., Wetzels, J.F.M., Winkelmayer, W.C., Floege, J., Rovin, B.H., Caster, D.J., Cattran, D.C., Gibson, K.L., Hogan, J.J., Moeller, M.J., Roccatello, D., Cheung, M., Wheeler, D.C., Wetzels, J.F.M., Winkelmayer, W.C., and Floege, J.

Abstract

Contains fulltext : 203024.pdf (publisher's version ) (Open Access), In November 2017, the Kidney Disease: Improving Global Outcomes (KDIGO) initiative brought a diverse panel of experts in glomerular diseases together to discuss the 2012 KDIGO glomerulonephritis guideline in the context of new developments and insights that had occurred over the years since its publication. During this KDIGO Controversies Conference on Glomerular Diseases, the group examined data on disease pathogenesis, biomarkers, and treatments to identify areas of consensus and areas of controversy. This report summarizes the discussions on primary podocytopathies, lupus nephritis, anti-neutrophil cytoplasmic antibody-associated nephritis, complement-mediated kidney diseases, and monoclonal gammopathies of renal significance.

Published
2019

9. MTOR-mediated podocyte hypertrophy regulates glomerular integrity in mice and humans.

Author

Denton K.M., Bertram J.F., Ricardo S.D., Kerr P.G., Furic L., Nikolic-Paterson D.J., Huber T.B., Puelles V.G., Van Der Wolde J.W., Wanner N., Scheppach M.W., Cullen-McEwen L.A., Bork T., Lindenmeyer M.T., Gernhold L., Wong M.N., Braun F., Cohen C.D., Kett M.M., Kuppe C., Kramann R., Saritas T., Van Roeyen C.R., Moeller M.J., Tribolet L., Rebello R., Sun Y.B., Li J., Muller-Newen G., Hughson M.D., Hoy W.E., Person F., Wiech T., Denton K.M., Bertram J.F., Ricardo S.D., Kerr P.G., Furic L., Nikolic-Paterson D.J., Huber T.B., Puelles V.G., Van Der Wolde J.W., Wanner N., Scheppach M.W., Cullen-McEwen L.A., Bork T., Lindenmeyer M.T., Gernhold L., Wong M.N., Braun F., Cohen C.D., Kett M.M., Kuppe C., Kramann R., Saritas T., Van Roeyen C.R., Moeller M.J., Tribolet L., Rebello R., Sun Y.B., Li J., Muller-Newen G., Hughson M.D., Hoy W.E., Person F., and Wiech T.

Abstract

The cellular origins of glomerulosclerosis involve activation of parietal epithelial cells (PECs) and progressive podocyte depletion. While mammalian target of rapamycin-mediated (mTORmediated) podocyte hypertrophy is recognized as an important signaling pathway in the context of glomerular disease, the role of podocyte hypertrophy as a compensatory mechanism preventing PEC activation and glomerulosclerosis remains poorly understood. In this study, we show that glomerular mTOR and PEC activation-related genes were both upregulated and intercorrelated in biopsies from patients with focal segmental glomerulosclerosis (FSGS) and diabetic nephropathy, suggesting both compensatory and pathological roles. Advanced morphometric analyses in murine and human tissues identified podocyte hypertrophy as a compensatory mechanism aiming to regulate glomerular functional integrity in response to somatic growth, podocyte depletion, and even glomerulosclerosis - all of this in the absence of detectable podocyte regeneration. In mice, pharmacological inhibition of mTOR signaling during acute podocyte loss impaired hypertrophy of remaining podocytes, resulting in unexpected albuminuria, PEC activation, and glomerulosclerosis. Exacerbated and persistent podocyte hypertrophy enabled a vicious cycle of podocyte loss and PEC activation, suggesting a limit to its beneficial effects. In summary, our data highlight a critical protective role of mTOR-mediated podocyte hypertrophy following podocyte loss in order to preserve glomerular integrity, preventing PEC activation and glomerulosclerosis.Copyright © 2019, American Society for Clinical Investigation.

Published
2019

10. Novel 3D analysis using optical tissue clearing documents the evolution of murine rapidly progressive glomerulonephritis.

Author

Moeller M.J., Floege J., Kramann R., Kurts C., Bertram J.F., Spehr M., Nikolic-Paterson D.J., Puelles V.G., Fleck D., Ortz L., Papadouri S., Strieder T., Bohner A.M.C., van der Wolde J.W., Vogt M., Saritas T., Kuppe C., Fuss A., Menzel S., Klinkhammer B.M., Muller-Newen G., Heymann F., Decker L., Braun F., Kretz O., Huber T.B., Susaki E.A., Ueda H.R., Boor P., Moeller M.J., Floege J., Kramann R., Kurts C., Bertram J.F., Spehr M., Nikolic-Paterson D.J., Puelles V.G., Fleck D., Ortz L., Papadouri S., Strieder T., Bohner A.M.C., van der Wolde J.W., Vogt M., Saritas T., Kuppe C., Fuss A., Menzel S., Klinkhammer B.M., Muller-Newen G., Heymann F., Decker L., Braun F., Kretz O., Huber T.B., Susaki E.A., Ueda H.R., and Boor P.

Abstract

Recent developments in optical tissue clearing have been difficult to apply for the morphometric analysis of organs with high cellular content and small functional structures, such as the kidney. Here, we establish combinations of genetic and immuno-labelling for single cell identification, tissue clearing and subsequent de-clarification for histoimmunopathology and transmission electron microscopy. Using advanced light microscopy and computational analyses, we investigated a murine model of crescentic nephritis, an inflammatory kidney disease typified by immune-mediated damage to glomeruli leading to the formation of hypercellular lesions and the rapid loss of kidney function induced by nephrotoxic serum. Results show a graded susceptibility of the glomeruli, significant podocyte loss and capillary injury. These effects are associated with activation of parietal epithelial cells and formation of glomerular lesions that may evolve and obstruct the kidney tubule, thereby explaining the loss of kidney function. Thus, our work provides new high-throughput endpoints for the analysis of complex tissues with single-cell resolution.Copyright © 2019 International Society of Nephrology

Published
2019

11. Novel parietal epithelial cell subpopulations contribute to focal segmental glomerulosclerosis and glomerular tip lesions.

Author

Kuppe C., van der Vlag J., Hakroush S., Smeets B., Puelles V.G., Saritas T., Kabgani N., Wagner A., Leuchtle K., Moeller M.J., Floege J., Fogo A., Grone H.-J., Schiffer M., Boor P., Kuppe C., van der Vlag J., Hakroush S., Smeets B., Puelles V.G., Saritas T., Kabgani N., Wagner A., Leuchtle K., Moeller M.J., Floege J., Fogo A., Grone H.-J., Schiffer M., and Boor P.

Abstract

Beside the classical flat parietal epithelial cells (PECs), we investigated proximal tubular epithelial-like cells, a neglected subgroup of PECs. These cells, termed cuboidal PECs, make up the most proximal part of the proximal tubule and may also line parts of Bowman's capsule. Additionally, a third intermediate PEC subgroup was identified at the junction between the flat and cuboidal PEC subgroups at the tubular orifice. The transgenic mouse line PEC-rtTA labeled all three PEC subgroups. Here we show that the inducible Pax8-rtTA mouse line specifically labeled only cuboidal and intermediate PECs, but not flat PECs. In aging Pax8-rtTA mice, cell fate mapping showed no evidence for significant transdifferentiation from flat PECs to cuboidal or intermediate PECs or vice versa. In murine glomerular disease models of crescentic glomerulonephritis, and focal segmental glomerulosclerosis (FSGS), intermediate PECs became more numerous. These intermediate PECs preferentially expressed activation markers CD44 and Ki-67, suggesting that this subgroup of PECs was activated more easily than the classical flat PECs. In mice with FSGS, cuboidal and intermediate PECs formed sclerotic lesions. In patients with FSGS, cells forming the tip lesions expressed markers of intermediate PECs. These novel PEC subgroups form sclerotic lesions and were more prone to cellular activation compared to the classical flat PECs in disease. Thus, colonization of Bowman's capsule by cuboidal PECs may predispose to lesion formation and chronic kidney disease. We propose that tip lesions originate from this novel subgroup of PECs in patients with FSGS.Copyright © 2019 International Society of Nephrology

Published
2019

12. Postnatal podocyte gain: Is the jury still out?.

Author

Puelles V.G., Moeller M.J., Puelles V.G., and Moeller M.J.

Abstract

Chronic kidney disease can be understood as a pathological reduction in the number of functional glomeruli. It is a frequent medical problem and one of the major independent risk factors for cardiovascular morbidity and mortality. In humans, glomeruli/nephrons are generated during the prenatal period (glomerular endowment), which may be impaired by multiple conditions. After birth, glomeruli are progressively lost - mostly due to glomerular scarring (focal segmental glomerulosclerosis; FSGS). Multiple independent studies have shown that significant loss of glomerular visceral epithelial cells (podocytes) is sufficient to induce FSGS. It is generally believed that podocytes cannot renew themselves and it has been generally assumed that their number is determined at birth (podocyte endowment). However, there are several lines of experimental evidence showing that podocytes can be replenished in the postnatal period. First, a limited reserve of podocytes has been reported on Bowman's capsule, which may be associated with body growth and increases in glomerular size between childhood and adulthood. Second, two intrinsic progenitor cell niches have been proposed to replenish podocytes throughout adult life and in association with glomerular injury and podocyte loss: parietal epithelial cells and/or cells of the renin lineage. While there is increasing evidence supporting postnatal podocyte gain, controversy remains about the involved signalling pathways and the efficiency of these sources to prevent nephron loss.Copyright © 2018 Elsevier Ltd

Published
2019

13. CD44 is required for the pathogenesis of experimental crescentic glomerulonephritis and collapsing focal segmental glomerulosclerosis

Author

Eymael, J., Sharma, Shagun, Loeven, M.A., Wetzels, J.F.M., Mooren, F., Florquin, S., Deegens, J.K.J., Willemsen, B.K.T., Sharma, V., Kuppevelt, T.H. van, Bakker, M.A.H., Ostendorf, T., Moeller, M.J., Dijkman, H.B., Smeets, B., Vlag, J. van der, Eymael, J., Sharma, Shagun, Loeven, M.A., Wetzels, J.F.M., Mooren, F., Florquin, S., Deegens, J.K.J., Willemsen, B.K.T., Sharma, V., Kuppevelt, T.H. van, Bakker, M.A.H., Ostendorf, T., Moeller, M.J., Dijkman, H.B., Smeets, B., and Vlag, J. van der

Abstract

Contains fulltext : 193190.pdf (publisher's version ) (Closed access)

Published
2018

14. Investigations of Glucocorticoid Action in GN

Author

Kuppe, C., Roeyen, C. van, Leuchtle, K., Kabgani, N., Vogt, M., Zandvoort, M. Van, Smeets, B., Floege, J., Grone, H.J., Moeller, M.J., Kuppe, C., Roeyen, C. van, Leuchtle, K., Kabgani, N., Vogt, M., Zandvoort, M. Van, Smeets, B., Floege, J., Grone, H.J., and Moeller, M.J.

Abstract

Item does not contain fulltext, For several decades, glucocorticoids have been used empirically to treat rapid progressive GN. It is commonly assumed that glucocorticoids act primarily by dampening the immune response, but the mechanisms remain incompletely understood. In this study, we inactivated the glucocorticoid receptor (GR) specifically in kidney epithelial cells using Pax8-Cre/GRfl/fl mice. Pax8-Cre/GRfl/fl mice did not exhibit an overt spontaneous phenotype. In mice treated with nephrotoxic serum to induce crescentic nephritis (rapidly progressive GN), this genetic inactivation of the GR in kidney epithelial cells exerted renal benefits, including inhibition of albuminuria and cellular crescent formation, similar to the renal benefits observed with high-dose prednisolone in control mice. However, genetic inactivation of the GR in kidney epithelial cells did not induce the immunosuppressive effects observed with prednisolone. In vitro, prednisolone and the pharmacologic GR antagonist mifepristone each acted directly on primary cultures of parietal epithelial cells, inhibiting cellular outgrowth and proliferation. In wild-type mice, pharmacologic treatment with the GR antagonist mifepristone also attenuated disease as effectively as high-dose prednisolone without the systemic immunosuppressive effects. Collectively, these data show that glucocorticoids act directly on activated glomerular parietal epithelial cells in crescentic nephritis. Furthermore, we identified a novel therapeutic approach in crescentic nephritis, that of glucocorticoid antagonism, which was at least as effective as high-dose prednisolone with potentially fewer adverse effects.

Published
2017

15. Minimal change disease and idiopathic FSGS: manifestations of the same disease

Author

Maas, R.J.H., Deegens, J.K.J., Smeets, B., Moeller, M.J., Wetzels, J.F.M., Maas, R.J.H., Deegens, J.K.J., Smeets, B., Moeller, M.J., and Wetzels, J.F.M.

Abstract

Item does not contain fulltext, Minimal change disease (MCD) and focal segmental glomerulosclerosis (FSGS) are the key histological findings in patients with idiopathic nephrotic syndrome (INS). Although MCD and idiopathic FSGS are often considered to represent separate entities based on differences in their presenting characteristics, histology and outcomes, little evidence exists for this separation. We propose that MCD and idiopathic FSGS are different manifestations of the same progressive disease. The gradual development of FSGS in patients with non-remitting or relapsing INS has been well documented. Moreover, FSGS is the uniform result of substantial podocyte loss in animal models, and a common feature of virtually all progressive human glomerulopathies. As evidence suggests a common aetiology, the pathogenesis of MCD and idiopathic FSGS should be studied together. In clinical trials, idiopathic FSGS should be considered to represent an advanced stage of disease progression that is less likely to respond to treatment than the earlier stage of disease, which is usually defined as MCD.

Published
2016

16. Common histological patterns in glomerular epithelial cells in secondary focal segmental glomerulosclerosis

Author

Kuppe, C., Grone, H.J., Ostendorf, T., Kuppevelt, T.H. van, Boor, P., Floege, J., Smeets, B., Moeller, M.J., Kuppe, C., Grone, H.J., Ostendorf, T., Kuppevelt, T.H. van, Boor, P., Floege, J., Smeets, B., and Moeller, M.J.

Abstract

Item does not contain fulltext, Parietal epithelial cells (PECs) are involved in the development of sclerotic lesions in primary focal and segmental glomerulosclerosis (FSGS). Here, the role of PECs was explored in the more common secondary FSGS lesions in 68 patient biopsies, diagnosed with 11 different frequently or rarely encountered glomerular pathologies and additional secondary FSGS lesions. For each biopsy, one section was quadruple stained for PECs (ANXA3), podocytes (synaptopodin), PEC matrix (LKIV69), and Hoechst (nuclei), and a second was quadruple stained for activated PECs (CD44 and cytokeratin-19), PEC matrix, and nuclei. In all lesions, cellular adhesions (synechiae) between Bowman's capsule and the tuft were formed by cells expressing podocyte and/or PEC markers. Cells expressing PEC markers were detected in all FSGS lesions independent of the underlying glomerular disease and often stained positive for markers of activation. Small FSGS lesions, which were hardly identified on PAS sections previously, were detectable by immunofluorescent staining using PEC markers, potentially improving the diagnostic sensitivity to identify these lesions. Thus, similar patterns of cells expressing podocyte and/or PEC markers were found in the formation of secondary FSGS lesions independent of the underlying glomerular disease. Hence, our findings support the hypothesis that FSGS lesions follow a final cellular pathway to nephron loss that includes involvement of cells expressing PEC markers.

Published
2015

17. Detection of activated parietal epithelial cells on the glomerular tuft distinguishes early focal segmental glomerulosclerosis from minimal change disease

Author

Smeets, B., Stucker, F., Wetzels, J., Brocheriou, I., Ronco, P., Grone, H.J., D'Agati, V., Fogo, A.B., Kuppevelt, T.H. van, Fischer, H.P., Boor, P., Floege, J., Ostendorf, T., Moeller, M.J., Smeets, B., Stucker, F., Wetzels, J., Brocheriou, I., Ronco, P., Grone, H.J., D'Agati, V., Fogo, A.B., Kuppevelt, T.H. van, Fischer, H.P., Boor, P., Floege, J., Ostendorf, T., and Moeller, M.J.

Abstract

Item does not contain fulltext, In rodents, parietal epithelial cells (PECs) migrating onto the glomerular tuft participate in the formation of focal segmental glomerulosclerosis (FSGS) lesions. We investigated whether immunohistologic detection of PEC markers in the initial biopsies of human patients with first manifestation of idiopathic nephrotic syndrome with no immune complexes can improve the sensitivity to detect sclerotic lesions compared with standard methods. Ninety-five renal biopsies were stained for claudin-1 (PEC marker), CD44 (activated PECs), and LKIV69 (PEC matrix); 38 had been diagnosed as early primary FSGS and 57 as minimal change disease. PEC markers were detected on the tuft in 87% of the biopsies of patients diagnosed as primary FSGS. PEC markers were detected in FSGS lesions from the earliest stages of disease. In minimal change disease, no PEC activation was observed by immunohistology. However, in 25% of biopsies originally diagnosed as minimal change disease the presence of small lesions indicative of a sclerosing process were detected, which were undetectable on standard periodic acid-Schiff staining, even though only a single histologic section for each PEC marker was evaluated. Staining for LKIV69 detected lesions with the highest sensitivity. Two novel PEC markers A-kinase anchor protein 12 and annexin A3 exhibited similar sensitivity. In summary, detection of PECs on the glomerular tuft by immunostaining improves the differentiation between minimal change disease and primary FSGS and may serve to guide clinical decision making.

Published
2014

18. The regenerative potential of parietal epithelial cells in adult mice

Author

Berger, K., Schulte, K., Boor, P., Kuppe, C., Kuppevelt, T.H. van, Floege, J., Smeets, B., Moeller, M.J., Berger, K., Schulte, K., Boor, P., Kuppe, C., Kuppevelt, T.H. van, Floege, J., Smeets, B., and Moeller, M.J.

Abstract

Item does not contain fulltext, Previously, we showed that some podocytes in juvenile mice are recruited from cells lining Bowman's capsule, suggesting that parietal epithelial cells (PECs) are a progenitor cell population for podocytes. To investigate whether PECs also replenish podocytes in adult mice, PECs were genetically labeled in an irreversible fashion in 5-week-old mice. No significant increase in labeled podocytes was observed, even after 18 months. To accelerate a potential regenerative mechanism, progressive glomerular hypertrophy was induced by progressive partial nephrectomies. Again, no significant podocyte replenishment was observed. Rather, labeled PECs exclusively invaded segments of the tuft affected by glomerulosclerosis, consistent with our previous findings. We next reassessed PEC recruitment in juvenile mice using a different reporter mouse and confirmed significant recruitment of labeled PECs onto the glomerular tuft. Moreover, some labeled cells on Bowman's capsule expressed podocyte markers, and cells on Bowman's capsule were also directly labeled in juvenile podocyte-specific Pod-rtTA transgenic mice. In 6-week-old mice, however, cells on Bowman's capsule no longer expressed podocyte-specific markers. Similarly, in human kidneys, some cells on Bowman's capsule expressed the podocyte marker synaptopodin from 2 weeks to 2 years of age but not at 7 years of age. In summary, podocyte regeneration from PECs could not be detected in aging mice or models of glomerular hypertrophy. We propose that a small fraction of committed podocytes reside on Bowman's capsule close to the vascular stalk and are recruited onto the glomerular tuft during infancy to adolescence in mice and humans.

Published
2014

20. Proximal tubular cells contain a phenotypically distinct, scattered cell population involved in tubular regeneration

Author

Smeets, B., Boor, P., Dijkman, H.B., Sharma, S.V., Jirak, P., Mooren, F., Berger, K., Bornemann, J., Gelman, I.H., Floege, J., Vlag, J. van der, Wetzels, J.F.M., Moeller, M.J., Smeets, B., Boor, P., Dijkman, H.B., Sharma, S.V., Jirak, P., Mooren, F., Berger, K., Bornemann, J., Gelman, I.H., Floege, J., Vlag, J. van der, Wetzels, J.F.M., and Moeller, M.J.

Abstract

Item does not contain fulltext, Regeneration of injured tubular cells occurs after acute tubular necrosis primarily from intrinsic renal cells. This may occur from a pre-existing intratubular stem/progenitor cell population or from any surviving proximal tubular cell. In this study, we characterize a CD24-, CD133-, and vimentin-positive subpopulation of cells scattered throughout the proximal tubule in normal human kidney. Compared to adjacent 'normal' proximal tubular cells, these CD24-positive cells contained less cytoplasm, fewer mitochondria, and no brush border. In addition, 49 marker proteins are described that are expressed within the proximal tubules in a similar scattered pattern. For eight of these markers, we confirmed co-localization with CD24. In human biopsies of patients with acute tubular necrosis (ATN), the number of CD24-positive tubular cells was increased. In both normal human kidneys and the ATN biopsies, around 85% of proliferating cells were CD24-positive - indicating that this cell population participates in tubular regeneration. In healthy rat kidneys, the novel cell subpopulation was absent. However, upon unilateral ureteral obstruction (UUO), the novel cell population was detected in significant amounts in the injured kidney. In summary, in human renal biopsies, the CD24-positive cells represent tubular cells with a deviant phenotype, characterized by a distinct morphology and marker expression. After acute tubular injury, these cells become more numerous. In healthy rat kidneys, these cells are not detectable, whereas after UUO, they appeared de novo - arguing against the notion that these cells represent a pre-existing progenitor cell population. Our data indicate rather that these cells represent transiently dedifferentiated tubular cells involved in regeneration. Copyright (c) 2012 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

Published
2013

21. Albumin is recycled from the primary urine by tubular transcytosis

Author

Tenten, V., Menzel, S., Kunter, U., Sicking, E.M., Roeyen, C.R. van, Sanden, S.K., Kaldenbach, M., Boor, P., Fuss, A., Uhlig, S., Lanzmich, R., Willemsen, B., Dijkman, H., Grepl, M., Wild, K. von, Kriz, W., Smeets, B., Floege, J., Moeller, M.J., Tenten, V., Menzel, S., Kunter, U., Sicking, E.M., Roeyen, C.R. van, Sanden, S.K., Kaldenbach, M., Boor, P., Fuss, A., Uhlig, S., Lanzmich, R., Willemsen, B., Dijkman, H., Grepl, M., Wild, K. von, Kriz, W., Smeets, B., Floege, J., and Moeller, M.J.

Abstract

Item does not contain fulltext, Under physiologic conditions, significant amounts of plasma protein pass the renal filter and are reabsorbed by proximal tubular cells, but it is not clear whether the endocytosed protein, particularly albumin, is degraded in lysosomes or returned to the circulatory system intact. To resolve this question, a transgenic mouse with podocyte-specific expression of doxycycline-inducible tagged murine albumin was developed. To assess potential glomerular backfiltration, two types of albumin with different charges were expressed. On administration of doxycycline, podocytes expressed either of the two types of transgenic albumin, which were secreted into the primary filtrate and reabsorbed by proximal tubular cells, resulting in serum accumulation. Renal transplantation experiments confirmed that extrarenal transcription of transgenic albumin was unlikely to account for these results. Genetic deletion of the neonatal Fc receptor (FcRn), which rescues albumin and IgG from lysosomal degradation, abolished transcytosis of both types of transgenic albumin and IgG in proximal tubular cells. In summary, we provide evidence of a transcytosis within the kidney tubular system that protects albumin and IgG from lysosomal degradation, allowing these proteins to be recycled intact.

Published
2013

22. Primary cultures of glomerular parietal epithelial cells or podocytes with proven origin.

Author

Kabgani, N., Grigoleit, T., Schulte, K., Sechi, A., Sauer-Lehnen, S., Tag, C., Boor, P., Kuppe, C., Warsow, G., Schordan, S., Mostertz, J., Chilukoti, R.K., Homuth, G., Endlich, N., Tacke, F., Weiskirchen, R., Fuellen, G., Endlich, K., Floege, J., Smeets, B., Moeller, M.J., Kabgani, N., Grigoleit, T., Schulte, K., Sechi, A., Sauer-Lehnen, S., Tag, C., Boor, P., Kuppe, C., Warsow, G., Schordan, S., Mostertz, J., Chilukoti, R.K., Homuth, G., Endlich, N., Tacke, F., Weiskirchen, R., Fuellen, G., Endlich, K., Floege, J., Smeets, B., and Moeller, M.J.

Abstract

Contains fulltext : 109162.pdf (publisher's version ) (Open Access), Parietal epithelial cells (PECs) are crucially involved in the pathogenesis of rapidly progressive glomerulonephritis (RPGN) as well as in focal and segmental glomerulosclerosis (FSGS). In this study, transgenic mouse lines were used to isolate pure, genetically tagged primary cultures of PECs or podocytes using FACsorting. By this approach, the morphology of primary glomerular epithelial cells in culture could be resolved: Primary podocytes formed either large cells with intracytoplasmatic extensions or smaller spindle shaped cells, depending on specific culture conditions. Primary PECs were small and exhibited a spindle-shaped or polygonal morphology. In the very early phases of primary culture, rapid changes in gene expression (e.g. of WT-1 and Pax-2) were observed. However, after prolonged culture primary PECs and podocytes still segregated clearly in a transcriptome analysis--demonstrating that the origin of primary cell cultures is important. Of the classical markers, synaptopodin and podoplanin expression were differentially regulated the most in primary PEC and podocyte cultures. However, no expression of any endogenous gene allowed to differentiate between the two cell types in culture. Finally, we show that the transcription factor WT1 is also expressed by PECs. In summary, genetic tagging of PECs and podocytes is a novel and necessary tool to derive pure primary cultures with proven origin. These cultures will be a powerful tool for the emerging field of parietal epithelial cell biology.

Published
2012

23. Parietal epithelial cells and podocytes in glomerular diseases

Author

Smeets, B., Moeller, M.J., Smeets, B., and Moeller, M.J.

Abstract

Item does not contain fulltext, In recent years, it has become apparent that parietal epithelial cells (PECs) play an important role within the renal glomerulus, in particular in diseased conditions. In this review, we examine current knowledge about the role of PECs and their interactions with podocytes in development and under physiological conditions. A particular focus is on the crucial role of PECs and podocytes in two major glomerular disease entities. In rapidly progressive glomerulonephritis, PECs and podocytes proliferate and obstruct the tubular outlet, resulting in loss of the affected nephron. In focal and segmental glomerulosclerosis, PECs become activated and invade a segment of the glomerular tuft via an adhesion. From this entry site, activated PECs displace podocytes and deposit matrix. Thus, activated PECs are involved in inflammatory as well as degenerative glomerular diseases, which both can lead to irreversible loss of renal function.

Published
2012

24. Parietal Epithelial Cell Activation Marker in Early Recurrence of FSGS in the Transplant

Author

Fatima, H., Moeller, M.J., Smeets, B., Yang, H.C., D'Agati, V.D., Alpers, C.E., Fogo, A.B., Fatima, H., Moeller, M.J., Smeets, B., Yang, H.C., D'Agati, V.D., Alpers, C.E., and Fogo, A.B.

Abstract

Item does not contain fulltext, BACKGROUND AND OBJECTIVES: Podocyte loss is key in glomerulosclerosis. Activated parietal epithelial cells are proposed to contribute to pathogenesis of glomerulosclerosis and may serve as stem cells that can transition to podocytes. CD44 is a marker for activated parietal epithelial cells. This study investigated whether activated parietal epithelial cells are increased in early recurrent FSGS in transplant compared with minimal change disease. DESIGN, SETTING, PARTICIPANTS, & MEASUREMENTS: CD44 staining in renal allograft biopsies from 12 patients with recurrent FSGS was performed and compared with native kidneys with minimal change disease or FSGS and normal control native and transplant kidneys without FSGS. CD44+ epithelial cells along Bowman's capsule in the parietal epithelial cell location and over the glomerular tuft in the visceral epithelial cell location were assessed. RESULTS: Cases with early recurrent FSGS manifesting only foot process effacement showed significantly increased CD44+ visceral epithelial cells involving 29.0% versus 2.6% of glomeruli in minimal change disease and 0% in non-FSGS transplants. Parietal location CD44 positivity also was numerically increased in recurrent FSGS. In later transplant biopsies, glomeruli with segmental lesions had more CD44+ visceral epithelial cells than glomeruli without lesions. CONCLUSIONS: Parietal epithelial cell activation marker is significantly increased in evolving FSGS versus minimal change disease, and this increase may distinguish early FSGS from minimal change disease. Whether parietal epithelial cell activation contributes to pathogenesis of sclerosis in idiopathic FSGS or is a regenerative/repair response to replace injured podocytes awaits additional study.

Published
2012

25. Subtotal ablation of parietal epithelial cells induces crescent formation.

Author

Sicking, E.M., Fuss, A., Uhlig, S., Jirak, P., Dijkman, H., Wetzels, J., Engel, D.R., Urzynicok, T., Heidenreich, S., Kriz, W., Kurts, C., Ostendorf, T., Floege, J., Smeets, B., Moeller, M.J., Sicking, E.M., Fuss, A., Uhlig, S., Jirak, P., Dijkman, H., Wetzels, J., Engel, D.R., Urzynicok, T., Heidenreich, S., Kriz, W., Kurts, C., Ostendorf, T., Floege, J., Smeets, B., and Moeller, M.J.

Abstract

01 april 2012, Item does not contain fulltext, Parietal epithelial cells (PECs) of the renal glomerulus contribute to the formation of both cellular crescents in rapidly progressive GN and sclerotic lesions in FSGS. Subtotal transgenic ablation of podocytes induces FSGS but the effect of specific ablation of PECs is unknown. Here, we established an inducible transgenic mouse to allow subtotal ablation of PECs. Proteinuria developed during doxycycline-induced cellular ablation but fully reversed 26 days after termination of doxycycline administration. The ablation of PECs was focal, with only 30% of glomeruli exhibiting histologic changes; however, the number of PECs was reduced up to 90% within affected glomeruli. Ultrastructural analysis revealed disruption of PEC plasma membranes with cytoplasm shedding into Bowman's space. Podocytes showed focal foot process effacement, which was the most likely cause for transient proteinuria. After >9 days of cellular ablation, the remaining PECs formed cellular extensions to cover the denuded Bowman's capsule and expressed the activation marker CD44 de novo. The induced proliferation of PECs persisted throughout the observation period, resulting in the formation of typical cellular crescents with periglomerular infiltrate, albeit without accompanying proteinuria. In summary, subtotal ablation of PECs leads the remaining PECs to react with cellular activation and proliferation, which ultimately forms cellular crescents.

Published
2012

26. Parietal epithelial cells participate in the formation of sclerotic lesions in focal segmental glomerulosclerosis

Author

Smeets, B., Kuppe, C., Sicking, E.M., Fuss, A., Jirak, P., Kuppevelt, A.H.M.S.M. van, Endlich, K., Wetzels, J.F.M., Grone, H.J., Floege, J., Moeller, M.J., Smeets, B., Kuppe, C., Sicking, E.M., Fuss, A., Jirak, P., Kuppevelt, A.H.M.S.M. van, Endlich, K., Wetzels, J.F.M., Grone, H.J., Floege, J., and Moeller, M.J.

Abstract

Item does not contain fulltext, The pathogenesis of the development of sclerotic lesions in focal segmental glomerulosclerosis (FSGS) remains unknown. Here, we selectively tagged podocytes or parietal epithelial cells (PECs) to determine whether PECs contribute to sclerosis. In three distinct models of FSGS (5/6-nephrectomy + DOCA-salt; the murine transgenic chronic Thy1.1 model; or the MWF rat) and in human biopsies, the primary injury to induce FSGS associated with focal activation of PECs and the formation of cellular adhesions to the capillary tuft. From this entry site, activated PECs invaded the affected segment of the glomerular tuft and deposited extracellular matrix. Within the affected segment, podocytes were lost and mesangial sclerosis developed within the endocapillary compartment. In conclusion, these results demonstrate that PECs contribute to the development and progression of the sclerotic lesions that define FSGS, but this pathogenesis may be relevant to all etiologies of glomerulosclerosis.

Published
2011

27. Tracing the origin of glomerular extracapillary lesions from parietal epithelial cells.

Author

Smeets, B., Uhlig, S., Fuss, A., Mooren, F., Wetzels, J.F.M., Floege, J., Moeller, M.J., Smeets, B., Uhlig, S., Fuss, A., Mooren, F., Wetzels, J.F.M., Floege, J., and Moeller, M.J.

Abstract

Contains fulltext : 81092.pdf (publisher's version ) (Open Access), Cellular lesions form in Bowman's space in both crescentic glomerulonephritis and collapsing glomerulopathy. The pathomechanism and origin of the proliferating cells in these lesions are unknown. In this study, we examined proliferating cells by lineage tracing of either podocytes or parietal epithelial cells (PECs) in the nephrotoxic nephritis model of inflammatory crescentic glomerulonephritis. In addition, we traced the fate of genetically labeled PECs in the Thy-1.1 transgenic mouse model of collapsing glomerulopathy. In both models, cellular bridges composed of PECs were observed between Bowman's capsule and the glomerular tuft. Genetically labeled PECs also populated larger, more advanced cellular lesions. In these lesions, we detected de novo expression of CD44 in activated PECs. In contrast, we rarely identified genetically labeled podocytes within the cellular lesions of crescentic glomerulonephritis. In conclusion, PECs constitute the majority of cells that compose early extracapillary proliferative lesions in both crescentic glomerulonephritis and collapsing glomerulopathy, suggesting similar pathomechanisms in both diseases.

Published
2009

28. Disruption of glomerular basement membrane charge through podocyte-specific mutation of agrin does not alter glomerular permselectivity.

Author

Harvey, S.J., Jarad, G., Cunningham, J., Rops, L.W.M.M., Vlag, J. van der, Berden, J.H.M., Moeller, M.J., Holzman, L.B., Burgess, R.W., Miner, J.H., Harvey, S.J., Jarad, G., Cunningham, J., Rops, L.W.M.M., Vlag, J. van der, Berden, J.H.M., Moeller, M.J., Holzman, L.B., Burgess, R.W., and Miner, J.H.

Abstract

Contains fulltext : 52372.pdf (publisher's version ) (Closed access), Glomerular charge selectivity has been attributed to anionic heparan sulfate proteoglycans (HSPGs) in the glomerular basement membrane (GBM). Agrin is the predominant GBM-HSPG, but evidence that it contributes to the charge barrier is lacking, because newborn agrin-deficient mice die from neuromuscular defects. To study agrin in adult kidney, a new conditional allele was used to generate podocyte-specific knockouts. Mutants were viable and displayed no renal histopathology up to 9 months of age. Perlecan, a HSPG normally confined to the mesangium in mature glomeruli, did not appear in the mutant GBM, which lacked heparan sulfate. Moreover, GBM agrin was found to be derived primarily from podocytes. Polyethyleneimine labeling of fetal kidneys revealed anionic sites along both laminae rarae of the GBM that became most prominent along the subepithelial aspect at maturity; labeling was greatly reduced along the subepithelial aspect in agrin-deficient and conditional knockout mice. Despite this severe charge disruption, the glomerular filtration barrier was not compromised, even when challenged with bovine serum albumin overload. We conclude that agrin is not required for establishment or maintenance of GBM architecture. Although agrin contributes significantly to the anionic charge to the GBM, both it and its charge are not needed for glomerular permselectivity. This calls into question whether charge selectivity is a feature of the GBM.

Published
2007

30. Immunsuppressive Behandlung von Glomerulonephritiden.

Author

Rauen, T., Floege, J., and Moeller, M.J.

Abstract

Copyright of Der Nephrologe is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2015
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31. An assessment of SEA model quality.

Author

Moeller, M.J., Thomas, R.S., and Powell, R.E.

Abstract

Statistical energy analysis (SEA) models are being adopted routinely in up-front automotive sound package design. SEA models provide a means of assessing noise and vibration relative to absolute targets, and they are used to assess alternative designs or changes required to meet targets. This article addresses how to evaluate objectively both the absolute and the relative predictive capability of SEA models. The absolute prediction is assessed using a hypothesis test to determine membership of the analytical prediction relative to a set of test data. The relative prediction is assessed using hardware-designed experiments to estimate design sensitivities.

Published
2005

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