Your search keyword '"Domenico Cerullo"' showing total 25 results

1. Corrigendum: Bi-specific autoantigen-T cell engagers as targeted immunotherapy for autoreactive B cell depletion in autoimmune diseases

Author

Luca Perico, Federica Casiraghi, Fabiane Sônego, Marta Todeschini, Daniela Corna, Domenico Cerullo, Anna Pezzotta, Patricia Isnard-Petit, Silvia Faravelli, Federico Forneris, Kader Thiam, Ariela Benigni, and Giuseppe Remuzzi

Subjects

autoimmune diseases, membranous nephropathy, anti-PLA2R antibodies, autoreactive B cell, targeted immunotherapies, bi-specific autoantigen-T cell engagers, Immunologic diseases. Allergy, RC581-607

Published

2025

2. Bi-specific autoantigen-T cell engagers as targeted immunotherapy for autoreactive B cell depletion in autoimmune diseases

Author

Luca Perico, Federica Casiraghi, Fabiane Sônego, Marta Todeschini, Daniela Corna, Domenico Cerullo, Anna Pezzotta, Patricia Isnard-Petit, Silvia Faravelli, Federico Forneris, Kader Thiam, Ariela Benigni, and Giuseppe Remuzzi

Subjects

autoimmune diseases, membranous nephropathy, anti-PLA2R antibodies, autoreactive B cell, targeted immunotherapies, bi-specific autoantigen-T cell engagers, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionIn autoimmune diseases, autoreactive B cells comprise only the 0.1-0.5% of total circulating B cells. However, current first-line treatments rely on non-specific and general suppression of the immune system, exposing patients to severe side effects. For this reason, identification of targeted therapies for autoimmune diseases is an unmet clinical need.MethodsHere, we designed a novel class of immunotherapeutic molecules, Bi-specific AutoAntigen-T cell Engagers (BiAATEs), as a potential approach for targeting the small subset of autoreactive B cells. To test this approach, we focused on a prototype autoimmune disease of the kidney, membranous nephropathy (MN), in which phospholipase A2 receptor (PLA2R) serves as primary nephritogenic antigen. Specifically, we developed a BiAATE consisting of the immunodominant Cysteine-Rich (CysR) domain of PLA2R and the single-chain variable fragment (scFv) of an antibody against the T cell antigen CD3, connected by a small flexible linker.ResultsBiAATE creates an immunological synapse between autoreactive B cells bearing an CysR-specific surface Ig+ and T cells. Ex vivo, the BiAATE successfully induced T cell-dependent depletion of PLA2R-specific B cells isolated form MN patients, sparing normal B cells. Systemic administration of BiAATE to mice transgenic for human CD3 reduced anti-PLA2R antibody levels following active immunization with PLA2R.DiscussionShould this approach be confirmed for other autoimmune diseases, BiAATEs could represent a promising off-the-shelf therapy for precision medicine in virtually all antibody-mediated autoimmune diseases for which the pathogenic autoantigen is known, leading to a paradigm shift in the treatment of these diseases.

Published

2024

3. SARS-CoV-2 spike protein induces lung endothelial cell dysfunction and thrombo-inflammation depending on the C3a/C3a receptor signalling

Author

Luca Perico, Marina Morigi, Anna Pezzotta, Monica Locatelli, Barbara Imberti, Daniela Corna, Domenico Cerullo, Ariela Benigni, and Giuseppe Remuzzi

Subjects

Medicine, Science

Abstract

Abstract The spike protein of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) can interact with endothelial cells. However, no studies demonstrated the direct effect of the spike protein subunit 1 (S1) in inducing lung vascular damage and the potential mechanisms contributing to lung injury. Here, we found that S1 injection in mice transgenic for human angiotensin converting enzyme 2 (ACE2) induced early loss of lung endothelial thromboresistance at 3 days, as revealed by thrombomodulin loss and von Willebrand factor (vWF) increase. In parallel, vascular and epithelial C3 deposits and enhanced C3a receptor (C3aR) expression were observed. These changes preceded diffuse alveolar damage and lung vascular fibrin(ogen)/platelets aggregates at 7 days, as well as inflammatory cell recruitment and fibrosis. Treatment with C3aR antagonist (C3aRa) inhibited lung C3 accumulation and C3a/C3aR activation, limiting vascular thrombo-inflammation and fibrosis. Our study demonstrates that S1 triggers vascular dysfunction and activates complement system, instrumental to lung thrombo-inflammatory injury. By extension, our data indicate C3aRa as a valuable therapeutic strategy to limit S1-dependent lung pathology.

Published

2023

4. Thyroid hormone treatment counteracts cellular phenotypical remodeling in diabetic organs

Author

Angelo M. Lavecchia, Polyxeni Mantzouratou, Domenico Cerullo, Monica Locatelli, Sara Conti, Matteo Tironi, Fabio Sangalli, Daniela Corna, Carlamaria Zoja, Giuseppe Remuzzi, and Christodoulos Xinaris

Subjects

Biomedical discipline, Cell biology, Human metabolism, Science

Abstract

Summary: Diabetes mellitus and alterations in thyroid hormone (TH) signaling are closely linked. Though the role of TH signaling in cell differentiation and growth is well known, it remains unclear whether its alterations contribute to the pathobiology of diabetic cells. Here, we aim to investigate whether the administration of exogenous T3 can counteract the cellular remodeling that occurs in diabetic cardiomyocytes, podocytes, and pancreatic beta cells.Treating diabetic rats with T3 prevents dedifferentiation, pathological growth, and ultrastructural alterations in podocytes and cardiomyocytes. In vitro, T3 reverses glucose-induced growth in human podocytes and cardiomyocytes, restores cardiomyocyte cytoarchitecture, and reverses pathological alterations in kidney and cardiac organoids. Finally, T3 treatment counteracts glucose-induced transdifferentiation, cell growth, and loss in pancreatic beta cells through TH receptor alpha1 activation.Our studies indicate that TH signaling activation substantially counteracts diabetes-induced pathological remodeling, and provide a potential therapeutic approach for the treatment of diabetes and its complications.

Published

2023

5. Thyroid Hormone and Heart Failure: Charting Known Pathways for Cardiac Repair/Regeneration

Author

Polyxeni Mantzouratou, Eleftheria Malaxianaki, Domenico Cerullo, Angelo Michele Lavecchia, Constantinos Pantos, Christodoulos Xinaris, and Iordanis Mourouzis

Subjects

thyroid hormone, thyroid receptors, low T3 syndrome, heart failure, coronary disease, cardiac remodeling, Biology (General), QH301-705.5

Abstract

Heart failure affects more than 64 million people worldwide, having a serious impact on their survival and quality of life. Exploring its pathophysiology and molecular bases is an urgent need in order to develop new therapeutic approaches. Thyroid hormone signaling, evolutionarily conserved, controls fundamental biological processes and has a crucial role in development and metabolism. Its active form is L-triiodothyronine, which not only regulates important gene expression by binding to its nuclear receptors, but also has nongenomic actions, controlling crucial intracellular signalings. Stressful stimuli, such as acute myocardial infarction, lead to changes in thyroid hormone signaling, and especially in the relation of the thyroid hormone and its nuclear receptor, which are associated with the reactivation of fetal development programmes, with structural remodeling and phenotypical changes in the cardiomyocytes. The recapitulation of fetal-like features of the signaling may be partially an incomplete effort of the myocardium to recapitulate its developmental program and enable cardiomyocytes to proliferate and finally to regenerate. In this review, we will discuss the experimental and clinical evidence about the role of the thyroid hormone in the recovery of the myocardium in the setting of heart failure with reduced and preserved ejection fraction and its future therapeutic implications.

Published

2023

6. Human iPSC-derived neural crest stem cells can produce EPO and induce erythropoiesis in anemic mice

Author

Valerio Brizi, Sara Buttò, Domenico Cerullo, Angelo Michele Lavecchia, Raquel Rodrigues-Diez, Rubina Novelli, Daniela Corna, Ariela Benigni, Giuseppe Remuzzi, and Christodoulos Xinaris

Subjects

Pluripotent stem cells, Neural crest cells, Erythropoietin, Anemia, Erythropoiesis, Biology (General), QH301-705.5

Abstract

Inadequate production of erythropoietin (EPO) leads to anemia. Although erythropoiesis-stimulating agents can be used to treat anemia, these approaches are limited by high costs, adverse effects, and the need for frequent injections. Developing methods for the generation and transplantation of EPO-producing cells would allow for the design of personalized and complication-free therapeutic solutions. In mice, the first EPO source are neural crest cells (NCCs), which ultimately migrate to the fetal kidney to differentiate into EPO-producing fibroblasts. In humans however, it remains unknown whether NCCs can produce EPO in response to hypoxia. Here, we developed a new protocol to differentiate human induced pluripotent stem cells (hiPSCs) into NCCs and showed that cthese cells can produce functional EPO that can induce human CD34+ hematopoietic progenitor differentiation into erythroblasts in vitro. Moreover, we showed that hiPSC-derived NCCs can be embedded in clinical-grade atelocollagen scaffolds and subcutaneously transplanted into anemic mice to produce human EPO, accelerate hematocrit recovery, and induce erythropoiesis in the spleen. Our findings provide unprecedented evidence of the ability of human NCCs to produce functional EPO in response to hypoxia, and proof-of-concept for the potential clinical use of NCC-containing scaffolds as cell therapy for renal and non-renal anemia.

Published

2021

7. Add-On Cyclic Angiotensin-(1-7) with Cyclophosphamide Arrests Progressive Kidney Disease in Rats with ANCA Associated Glomerulonephritis

Author

Domenico Cerullo, Daniela Rottoli, Daniela Corna, Mauro Abbate, Ariela Benigni, Giuseppe Remuzzi, and Carlamaria Zoja

Subjects

crescentic glomerulonephritis, myeloperoxidase, anti-neutrophil cytoplasmic antibodies, cyclophosphamide, angiotensin-(1-7), glomerular crescents, Cytology, QH573-671

Abstract

Rapidly progressive crescentic glomerulonephritis associated with anti-neutrophil cytoplasmic antibodies (ANCA-GN) is a major cause of renal failure. Current immunosuppressive therapies are associated with severe side effects, intensifying the need for new therapeutic strategies. The activation of Mas receptor/Angiotensin-(1-7) axis exerted renoprotection in chronic kidney disease. Here, we investigated the effect of adding the lanthionine-stabilized cyclic form of angiotensin-1-7 [cAng-(1-7)] to cyclophosphamide in a rat model of ANCA-GN. At the onset of proteinuria, Wistar Kyoto rats with ANCA-GN received vehicle or a single bolus of cyclophosphamide, with or without daily cAng-(1-7). Treatment with cAng-(1-7) plus cyclophosphamide reduced proteinuria by 85% vs. vehicle, and by 60% vs. cyclophosphamide, and dramatically limited glomerular crescents to less than 10%. The addition of cAng-(1-7) to cyclophosphamide protected against glomerular inflammation and endothelial rarefaction and restored the normal distribution of parietal epithelial cells. Ultrastructural analysis revealed a preserved GBM, glomerular endothelium and podocyte structure, demonstrating that combination therapy provided an additional layer of renoprotection. This study demonstrates that adding cAng-(1-7) to a partially effective dose of cyclophosphamide arrests the progression of renal disease in rats with ANCA-GN, suggesting that cAng-(1-7) could be a novel clinical approach for sparing immunosuppressants.

Published

2022

8. Shiga Toxin 2 Triggers C3a-Dependent Glomerular and Tubular Injury through Mitochondrial Dysfunction in Hemolytic Uremic Syndrome

Author

Simona Buelli, Monica Locatelli, Claudia Elisa Carminati, Daniela Corna, Domenico Cerullo, Barbara Imberti, Luca Perico, Maurizio Brigotti, Mauro Abbate, Carlamaria Zoja, Ariela Benigni, Giuseppe Remuzzi, and Marina Morigi

Subjects

podocytes, proximal tubular epithelial cells, complement, C3a/C3aR signaling, mitochondrial damage, Cytology, QH573-671

Abstract

Shiga toxin (Stx)-producing Escherichia coli is the predominant offending agent of post-diarrheal hemolytic uremic syndrome (HUS), a rare disorder of microvascular thrombosis and acute kidney injury possibly leading to long-term renal sequelae. We previously showed that C3a has a critical role in the development of glomerular damage in experimental HUS. Based on the evidence that activation of C3a/C3a receptor (C3aR) signaling induces mitochondrial dysregulation and cell injury, here we investigated whether C3a caused podocyte and tubular injury through induction of mitochondrial dysfunction in a mouse model of HUS. Mice coinjected with Stx2/LPS exhibited glomerular podocyte and tubular C3 deposits and C3aR overexpression associated with cell damage, which were limited by C3aR antagonist treatment. C3a promoted renal injury by affecting mitochondrial wellness as demonstrated by data showing that C3aR blockade reduced mitochondrial ultrastructural abnormalities and preserved mitochondrial mass and energy production. In cultured podocytes and tubular cells, C3a caused altered mitochondrial fragmentation and distribution, and reduced anti-oxidant SOD2 activity. Stx2 potentiated the responsiveness of renal cells to the detrimental effects of C3a through increased C3aR protein expression. These results indicate that C3aR may represent a novel target in Stx-associated HUS for the preservation of renal cell integrity through the maintenance of mitochondrial function.

Published

2022

9. Protective Effects of Human Nonrenal and Renal Stromal Cells and Their Conditioned Media in a Rat Model of Chronic Kidney Disease

Author

Barbara Imberti, Domenico Cerullo, Daniela Corna, Cinzia Rota, Monica Locatelli, Anna Pezzotta, Martino Introna, Chiara Capelli, Claudia Elisa Carminati, Ton J. Rabelink, Danielle G. Leuning, Carlamaria Zoja, Marina Morigi, Giuseppe Remuzzi, Ariela Benigni, and Valerie Luyckx

Subjects

Medicine

Abstract

Mesenchymal stromal cells (MSCs) are emerging as a novel therapeutic option for limiting chronic kidney disease progression. Conditioned medium (CM) containing bioactive compounds could convey similar benefits, avoiding the potential risks of cell therapy. This study compared the efficacy of nonrenal and renal cell-based therapy with the corresponding CM in rats with renal mass reduction (RMR). Infusions of human kidney stromal cells (kPSCs) and CM-kPSCs, but not umbilical cord (uc) MSCs or CM-ucMSCs, reduced proteinuria and preserved podocyte number and nephrin expression in RMR rats. Glomerular fibrosis, microvascular rarefaction, and apoptosis were reduced by all treatments, while the peritubular microvascular loss was reduced by kPSCs and CM-kPSCs treatment only. Importantly, kPSCs and CM-kPSCs reduced NG2-positive pericytes, and all therapies reduced α-smooth muscle actin expression, indicating reduced myofibroblast expansion. Treatment with kPSCs also significantly inhibited the accumulation of ED1-positive macrophages in the renal interstitium of RMR rats. These findings demonstrate that the CM of ucMSCs and kPSCs confers similar renoprotection as the cells. kPSCs and CM-kPSCs may be superior in attenuating chronic renal injury as a cell source.

Published

2020

10. Therapeutic potential of stromal cells of non-renal or renal origin in experimental chronic kidney disease

Author

Cinzia Rota, Marina Morigi, Domenico Cerullo, Martino Introna, Ornella Colpani, Daniela Corna, Chiara Capelli, Ton J. Rabelink, Danielle G. Leuning, Daniela Rottoli, Ariela Benigni, Carlamaria Zoja, and Giuseppe Remuzzi

Subjects

Mesenchymal stromal cell therapy, Renal perivascular cells, Conditioned medium, Renal repair, Chronic kidney disease, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Mesenchymal stromal cell (MSC)-based therapy is a promising strategy for preventing the progression of chronic kidney disease (CKD), with the potential to induce tissue regeneration. In search of the best cellular source we compared, in the rat model of adriamycin (ADR) nephropathy, the regenerative potential of human stromal cells of non-renal origin, such as bone marrow (bm) MSCs and umbilical cord (uc) MSCs, with that of newly discovered stromal cells of renal origin, the kidney perivascular cells (kPSCs) known to exhibit tissue-specific properties. Methods The therapeutic effect of repeated infusions of human bmMSCs, ucMSCs, kPSCs (1.5 × 106 cells/rats) or conditioned medium from ucMSCs was studied in athymic rats with ADR-induced nephropathy (7.9 mg/kg). The ability of the three stromal cell populations to engraft the damaged kidney was evaluated by detecting the presence of human nuclear antigenpos cells. Glomerular podocyte loss and endothelial damage, sclerotic lesions and inflammation were assessed at 14 and 28 days. In-vitro experiments with a transwell system were performed to investigate the effects of different stromal cell populations on parietal epithelial cells (PECs) activated or not with albumin or angiotensin II for 24 h. Results Infusions of non-renal and renal stromal cells resulted in a comparable engraftment into the kidney, in the peritubular areas and around the glomerular structures. All three cell populations limited podocyte loss and glomerular endothelial cell injury, and attenuated the formation of podocyte and PEC bridges. This translated into a reduction of glomerulosclerosis and fibrosis. Human ucMSCs had an anti-inflammatory effect superior to that of the other stromal cells, reducing macrophage infiltration and inducing polarisation towards the M2 macrophage phenotype. Conditioned medium from ucMSCs shared the same renoprotective effects of the cells. Consistent with in-vivo data, bmMSCs and kPSCs, but even more so ucMSCs, limited proliferation, migratory potential and extracellular matrix production of activated PECs, when cultured in a transwell system. Conclusions Our data indicate that either non-renal or renal stromal cells induce renal tissue repair, highlighting ucMSCs and their conditioned medium as the most reliable clinical therapeutic tool for CKD patients.

Published

2018

11. Automatic cyst and kidney segmentation in autosomal dominant polycystic kidney disease: Comparison of U-Net based methods.

Author

Maria Rombolotti, Fabio Sangalli, Domenico Cerullo, Andrea Remuzzi, and Ettore Lanzarone

Published

2022

12. Therapeutic Small Interfering RNA Targeting Complement C3 in a Mouse Model of C3 Glomerulopathy

Author

Cristina Zanchi, Monica Locatelli, Domenico Cerullo, Verena Aumiller, Daniela Corna, Daniela Rottoli, Mona Eisermann, Roberta Donadelli, Mansoureh Mousavi, Marina Noris, Giuseppe Remuzzi, Ariela Benigni, and Carlamaria Zoja

Subjects

Mice, Glomerulonephritis, Membranoproliferative, Complement Factor H, Complement Pathway, Alternative, Immunology, Animals, Humans, Immunology and Allergy, Kidney Diseases, Complement C3, RNA, Small Interfering, Complement Factor B

Abstract

Alternative pathway complement dysregulation with abnormal glomerular C3 deposits and glomerular damage is a key mechanism of pathology in C3 glomerulopathy (C3G). No disease-specific treatments are currently available for C3G. Therapeutics inhibiting complement are emerging as a potential strategy for the treatment of C3G. In this study, we investigated the effects of N-acetylgalactosamine (GalNAc)–conjugated small interfering RNA (siRNA) targeting the C3 component of complement that inhibits liver C3 expression in the C3G model of mice with heterozygous deficiency of factor H (Cfh+/− mice). We showed a duration of action for GalNAc-conjugated C3 siRNA in reducing the liver C3 gene expression in Cfh+/− mice that were dosed s.c. once a month for up to 7 mo. C3 siRNA limited fluid-phase alternative pathway activation, reducing circulating C3 fragmentation and activation of factor B. Treatment with GalNAc-conjugated C3 siRNA reduced glomerular C3d deposits in Cfh+/− mice to levels similar to those of wild-type mice. Ultrastructural analysis further revealed the efficacy of the C3 siRNA in slowing the formation of mesangial and subendothelial electron-dense deposits. The present data indicate that RNA interference–mediated C3 silencing in the liver may be a relevant therapeutic strategy for treating patients with C3G associated with the haploinsufficiency of complement factor H.

Published

2022

13. Patient Safety Walkrounds for Improving Safety and Quality of Care in the Penitentiary System of the Tuscany Region

Author

Giulia Dagliana, Mateo Ameglio, Luca Amoroso, Sara Bellachioma, Tommaso Bellandi, Roberto Bocchieri, Valerio Cellesi, Domenico Cerullo, Paola Morganti, Sandra Rogialli, Antonella Vassalle, Angela Venezia, and Franco Scarpa

Published

2023

14. Characterization of a Rat Model of Myeloperoxidase-Anti-Neutrophil Cytoplasmic Antibody-Associated Crescentic Glomerulonephritis

Author

Daniela Macconi, Daniela Corna, Ariela Benigni, Giuseppe Remuzzi, Mauro Abbate, Paola Rizzo, Daniela Rottoli, Domenico Cerullo, and Carlamaria Zoja

Subjects

Male, Pathology, medicine.medical_specialty, Kidney Glomerulus, urologic and male genital diseases, Rats, Inbred WKY, Antibodies, Antineutrophil Cytoplasmic, Blood Urea Nitrogen, Podocyte, Glomerulonephritis, Glomerular Basement Membrane, medicine, Animals, Humans, Hematuria, Peroxidase, Anti-neutrophil cytoplasmic antibody, Kidney, biology, urogenital system, business.industry, Monocyte, Glomerular basement membrane, Epithelial Cells, Bowman Capsule, Rats, Proteinuria, medicine.anatomical_structure, Neutrophil Infiltration, Pertussis Toxin, Myeloperoxidase, biology.protein, Neural cell adhesion molecule, Antibody, business

Abstract

Background/Aim: Necrotizing crescentic glomerulonephritis (GN) associated with anti-neutrophil cytoplasmic antibodies (ANCA) against myeloperoxidase (MPO) is a devastating disease that quickly progresses to kidney failure. Current therapies are broadly immunosuppressive and associated with adverse effects. We wanted to set up a model that could be suitable for testing narrowly targeted therapies. Methods: The model was constructed in male Wistar Kyoto rats through injections of human MPO (hMPO) and pertussis toxin, followed by a sub-nephritogenic dose of sheep anti-rat glomerular basement membrane (GBM) serum to boost the disease. Rats were monitored for 35 days. Rats given hMPO alone, saline, or human serum albumin with or without anti-GBM serum were also studied. Results: Rats receiving hMPO developed circulating anti-hMPO and anti-rat MPO antibodies. Challenging hMPO-immunized rats with the anti-GBM serum led to more glomerular neutrophil infiltration and MPO release, and severe haematuria, heavy proteinuria, and higher blood urea nitrogen than hMPO alone. Pauci-immune GN developed with crescents, affecting 25% of glomeruli. The majority of crescents were fibrocellular. Necrotizing lesions and Bowman capsule ruptures were detected. Cells double positive for claudin-1 (a marker of parietal epithelial cells [PECs]) and neural cell adhesion molecule (NCAM; progenitor PECs) were present in crescents. Double staining for NCAM and Ki-67 established proliferative status of progenitor PECs. Podocyte damage was associated with endothelial and GBM changes by electron microscopy. Monocyte/macrophages and CD4+ and CD8+ T cells accumulated in glomeruli and the surrounding area and in the tubulointerstitium. Lung haemorrhage also manifested. Conclusion: This model reflects histological lesions of human ANCA-associated rapidly progressive GN and may be useful for investigating new therapies.

Published

2021

15. Automatic cyst and kidney segmentation in autosomal dominant polycystic kidney disease: Comparison of U-Net based methods

Author

Maria Rombolotti, Fabio Sangalli, Domenico Cerullo, Andrea Remuzzi, and Ettore Lanzarone

Subjects

Cysts, Cyst and kidney segmentation, U-net architecture, Settore ING-IND/34 - Bioingegneria Industriale, Health Informatics, Kidney, Polycystic Kidney, Autosomal Dominant, Magnetic Resonance Imaging, Computer Science Applications, Rats, Autosomal dominant polycystic kidney disease, Mice, Micro-CT Imaging, Cyst-to-kidney volume ratio, Settore ING-INF/06 - Bioingegneria Elettronica e Informatica, Image Processing, Computer-Assisted, Animals

Abstract

Autosomal Dominant Polycystic Kidney Disease is a genetic disease that causes uncontrolled growth of fluid-filled cysts in the kidney. Kidney enlargement resulting from the expansion of cysts is continuous and often associated with decreased renal function and kidney failure. Mouse and rat models are necessary to discover new drugs able to halt the progression of the disease. The analysis of the effects of pharmacological interventions in these models is based on renal morphology and quantification of changes in total renal volume and cyst volume. This requires a proper, reproducible and fast segmentation of the kidney images. We propose a set of fully convolutional networks for kidney and cyst segmentation in micro-CT images, based on the U-Net architecture, to compare them and analyze which ones perform better on contrast-enhanced micro-CT images from normal rats and rats with Autosomal Dominant Polycystic Kidney Disease. Networks have been tested on a series images, and the performance has been evaluated in terms of Intersection over Union and Dice coefficients. Results showed that the best performing networks are the U-Net in which a batch normalization layer is applied after each pair of 3 × 3 convolutions, and the U-Net in which convolutional layers are replaced by inception blocks. Results also showed accurate cyst-to-kidney volume ratios obtained from the segmented images, which is one of main metrics of interest. Finally, segmentation performance has been found to be stable as the images in the training set vary. Therefore, the proposed automatic methodology is suitable and immediately applicable to segment cysts and kidney from micro-CT images, and directly provides the cyst-to-kidney volume ratio.

Published

2021

16. Empagliflozin protects glomerular endothelial cell architecture in experimental diabetes through the VEGF-A/caveolin-1/PV-1 signaling pathway

Author

Monica Locatelli, Carlamaria Zoja, Sara Conti, Domenico Cerullo, Daniela Corna, Daniela Rottoli, Cristina Zanchi, Susanna Tomasoni, Giuseppe Remuzzi, and Ariela Benigni

Subjects

Blood Glucose, Male, Vascular Endothelial Growth Factor A, Caveolin 1, Endothelial Cells, Pathology and Forensic Medicine, Diabetes Mellitus, Experimental, Mice, Glucosides, Sodium-Glucose Transporter 2, Glomerular Basement Membrane, Albuminuria, Animals, Humans, Diabetic Nephropathies, Female, Benzhydryl Compounds, Sodium-Glucose Transporter 2 Inhibitors, Signal Transduction

Abstract

In addition to having blood glucose-lowering effects, inhibitors of sodium glucose cotransporter 2 (SGLT2) afford renoprotection in diabetes. We sought to investigate which components of the glomerular filtration barrier could be involved in the antiproteinuric and renoprotective effects of SGLT2 inhibition in diabetes. BTBR (black and tan, brachyuric) ob/ob mice that develop a type 2 diabetic nephropathy received a standard diet with or without empagliflozin for 10 weeks, starting at 8 weeks of age, when animals had developed albuminuria. Empagliflozin caused marked decreases in blood glucose levels and albuminuria but did not correct glomerular hyperfiltration. The protective effect of empagliflozin against albuminuria was not due to a reduction in podocyte damage as empagliflozin did not affect the larger podocyte filtration slit pore size nor the defective expression of nephrin and nestin. Empagliflozin did not reduce the thickening of the glomerular basement membrane. In BTBR ob/ob mice, the most profound abnormality seen using electron microscopy was in the endothelial aspect of the glomerular capillary, with significant loss of endothelial fenestrations. Remarkably, empagliflozin ameliorated the subverted microvascular endothelial ultrastructure. Caveolae and bridging diaphragms between adjacent endothelial fenestrae were seen in diabetic mice and associated with increased expression of caveolin-1 and the appearance of PV-1. These endothelial abnormalities were limited by the SGLT2 inhibitor. Although no expression of SGLT2 was found in glomerular endothelial cells, SGLT2 was expressed in the podocytes of diabetic mice. VEGF-A, which is a known stimulus for endothelial caveolin-1 and PV-1, was increased in podocytes of BTBR ob/ob mice and normalized by SGLT2 inhibitor treatment. Thus, empagliflozin's protective effect on the glomerular endothelium of diabetic mice could be due to a limitation of the paracrine signaling of podocyte-derived VEGF-A that resulted in a reduction of the abnormal endothelial caveolin-1 and PV-1, with the consequent preservation of glomerular endothelial function and permeability. © 2022 The Pathological Society of Great Britain and Ireland.

Published

2021

17. Human iPSC-derived neural crest stem cells can produce EPO and induce erythropoiesis in anemic mice

Author

Ariela Benigni, Giuseppe Remuzzi, Angelo Michele Lavecchia, Christodoulos Xinaris, Daniela Corna, Sara Buttò, Raquel Rodrigues-Diez, Rubina Novelli, Valerio Brizi, and Domenico Cerullo

Subjects

Neural crest cells, QH301-705.5, Induced Pluripotent Stem Cells, CD34, Biology, Cell therapy, Mice, Pluripotent stem cells, hemic and lymphatic diseases, medicine, Animals, Humans, Erythropoiesis, Biology (General), Induced pluripotent stem cell, Erythropoietin, Neural crest, Anemia, Cell Biology, General Medicine, Transplantation, Neural Crest, Cancer research, Stem cell, Developmental Biology, medicine.drug

Abstract

Inadequate production of erythropoietin (EPO) leads to anemia. Although erythropoiesis-stimulating agents can be used to treat anemia, these approaches are limited by high costs, adverse effects, and the need for frequent injections. Developing methods for the generation and transplantation of EPO-producing cells would allow for the design of personalized and complication-free therapeutic solutions. In mice, the first EPO source are neural crest cells (NCCs), which ultimately migrate to the fetal kidney to differentiate into EPO-producing fibroblasts. In humans however, it remains unknown whether NCCs can produce EPO in response to hypoxia. Here, we developed a new protocol to differentiate human induced pluripotent stem cells (hiPSCs) into NCCs and showed that cthese cells can produce functional EPO that can induce human CD34+ hematopoietic progenitor differentiation into erythroblasts in vitro. Moreover, we showed that hiPSC-derived NCCs can be embedded in clinical-grade atelocollagen scaffolds and subcutaneously transplanted into anemic mice to produce human EPO, accelerate hematocrit recovery, and induce erythropoiesis in the spleen. Our findings provide unprecedented evidence of the ability of human NCCs to produce functional EPO in response to hypoxia, and proof-of-concept for the potential clinical use of NCC-containing scaffolds as cell therapy for renal and non-renal anemia.

Published

2021

18. Addition of cyclic angiotensin-(1-7) to angiotensin-converting enzyme inhibitor therapy has a positive add-on effect in experimental diabetic nephropathy

Author

Domenico Cerullo, Paola Cassis, Mauro Abbate, Daniela Rottoli, Giuseppe Remuzzi, Sebastian Villa, Carlamaria Zoja, Ariela Benigni, Monica Locatelli, and Daniela Corna

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Kidney Glomerulus, 030232 urology & nephrology, Angiotensin-Converting Enzyme Inhibitors, Mice, Transgenic, Sulfides, Peptides, Cyclic, Podocyte, Diabetic nephropathy, Mice, 03 medical and health sciences, 0302 clinical medicine, Microscopy, Electron, Transmission, Lisinopril, Fibrosis, Internal medicine, medicine, Animals, Humans, Diabetic Nephropathies, Alanine, biology, business.industry, Angiotensin-converting enzyme, medicine.disease, Angiotensin II, Peptide Fragments, Disease Models, Animal, Proteinuria, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Diabetes Mellitus, Type 2, Nephrology, ACE inhibitor, Albuminuria, biology.protein, Drug Therapy, Combination, Angiotensin I, medicine.symptom, business, Half-Life, medicine.drug

Abstract

The Renin-Angiotensin System (RAS) possesses a counter-regulatory axis composed of angiotensin converting enzyme (ACE)2, angiotensin-(1-7) [Ang-(1-7)] and the Mas receptor, which opposes many AT1-receptor-mediated effects of ligand angiotensin II. Ang-(1-7), as a ligand of the Mas receptor, has inhibitory effects on renal inflammation and fibrosis in experimental diabetes. However, Ang-(1-7) has a short half-life in plasma, which may render it unsuitable for use in clinics. Here, we investigated the effects of the lanthionine-stabilized Ang-(1-7), cyclic (c)Ang-(1-7), a lanthipeptide that is more peptidase-resistant than the linear peptide, in BTBR ob/ob mice with type 2 diabetic nephropathy. BTBR ob/ob mice received vehicle, cAng-(1-7), or the ACE inhibitor lisinopril. The treatment started at ten weeks of age, when the animals had already developed albuminuria, and ended at 19-20 weeks of age. cAng-(1-7) limited albuminuria progression, and limited podocyte dysfunction similarly to lisinopril. cAng-(1-7), unlike lisinopril, reduced glomerular fibrosis and inflammation, and counteracted glomerular capillary rarefaction. Furthermore, when cAng-(1-7) was combined with lisinopril, a superior antiproteinuric effect than with lisinopril alone was found, in association with better preservation of podocyte proteins and amelioration of capillary density. Thus, adding cAng-(1-7) to ACE-inhibitor therapy could benefit those diabetic patients who do not respond completely to ACE-inhibitor therapy.

Published

2019

19. Protective Effects of Human Nonrenal and Renal Stromal Cells and Their Conditioned Media in a Rat Model of Chronic Kidney Disease

Author

Marina Morigi, Claudia Elisa Carminati, Chiara Capelli, Cinzia Rota, Ariela Benigni, Carlamaria Zoja, Daniëlle G. Leuning, Domenico Cerullo, Martino Introna, Ton J. Rabelink, Giuseppe Remuzzi, Barbara Imberti, Valerie A. Luyckx, Monica Locatelli, Daniela Corna, and Anna Pezzotta

Subjects

0301 basic medicine, medicine.medical_specialty, Stromal cell, 030232 urology & nephrology, Biomedical Engineering, renal repair, lcsh:Medicine, Podocyte, Cell therapy, Nephrin, 03 medical and health sciences, 0302 clinical medicine, Fibrosis, Internal medicine, medicine, Animals, Humans, Renal Insufficiency, Chronic, stromal cells, Transplantation, biology, business.industry, Mesenchymal stem cell, lcsh:R, Cell Biology, medicine.disease, Rats, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, conditioned medium, biology.protein, renal perivascular cells, Original Article, business, Myofibroblast, chronic kidney disease, Kidney disease

Abstract

Mesenchymal stromal cells (MSCs) are emerging as a novel therapeutic option for limiting chronic kidney disease progression. Conditioned medium (CM) containing bioactive compounds could convey similar benefits, avoiding the potential risks of cell therapy. This study compared the efficacy of nonrenal and renal cell-based therapy with the corresponding CM in rats with renal mass reduction (RMR). Infusions of human kidney stromal cells (kPSCs) and CM-kPSCs, but not umbilical cord (uc) MSCs or CM-ucMSCs, reduced proteinuria and preserved podocyte number and nephrin expression in RMR rats. Glomerular fibrosis, microvascular rarefaction, and apoptosis were reduced by all treatments, while the peritubular microvascular loss was reduced by kPSCs and CM-kPSCs treatment only. Importantly, kPSCs and CM-kPSCs reduced NG2-positive pericytes, and all therapies reduced α-smooth muscle actin expression, indicating reduced myofibroblast expansion. Treatment with kPSCs also significantly inhibited the accumulation of ED1-positive macrophages in the renal interstitium of RMR rats. These findings demonstrate that the CM of ucMSCs and kPSCs confers similar renoprotection as the cells. kPSCs and CM-kPSCs may be superior in attenuating chronic renal injury as a cell source.

Published

2020

20. Sirt3 Deficiency Shortens Life Span and Impairs Cardiac Mitochondrial Function Rescued by Opa1 Gene Transfer

Author

Annalisa Perna, Paola Cassis, Ariela Benigni, Vincenzo Lionetti, Lorena Zentilin, Carlamaria Zoja, Daniela Corna, Giuseppe Remuzzi, Mauro Giacca, Sara Conti, Susanna Tomasoni, Luca Perico, Piera Trionfini, Domenico Cerullo, Benigni, A., Cassis, P., Conti, S., Perico, L., Corna, D., Cerullo, D., Zentilin, L., Zoja, C., Perna, A., Lionetti, V., Giacca, M., Trionfini, P., Tomasoni, S., and Remuzzi, G.

Subjects

0301 basic medicine, SIRT3, Physiology, Clinical Biochemistry, heart failure, Gene transfer, trans-mitochondrial cristae alignment, Biochemistry, mitochondrial bioenergetics, 03 medical and health sciences, medicine, gene transfer, Molecular Biology, mammalian life span, General Environmental Science, 030102 biochemistry & molecular biology, biology, Life span, mitochondrial bioenergetic, Cell Biology, medicine.disease, Cell biology, SIRT3, mammal lifespan, heart failure, trans-mitochondrial cristae alignment, mitochondrial bioenergetics, gene transfer, 030104 developmental biology, Heart failure, Sirtuin, biology.protein, General Earth and Planetary Sciences, NAD+ kinase, mammal lifespan, Function (biology)

Abstract

Aims: Sirtuins, a family of NAD+-dependent deacetylases, are recognized as nondispensable regulators of aging processes. Sirtuin 3 (SIRT3) is the main mitochondrial deacetylase that maintains mitochondrial bioenergetics, an essential prerequisite for healthy aging. In this study, using Sirt3 knockout (Sirt3-/-) mice, we sought to establish whether Sirt3 deficiency affected life span, an endpoint that has never been tested formally in mammals, and uncover the mechanisms involved in organ damage associated with aging. Results: Sirt3-/- mice experienced a shorter life span than wild-type mice and severe cardiac damage, characterized by hypertrophy and fibrosis, as they aged. No alterations were found in organs other than the heart. Sirt3 deficiency altered cardiac mitochondrial bioenergetics and caused hyperacetylation of optic atrophy 1 (OPA1), a SIRT3 target. These changes were associated with aberrant alignment of trans-mitochondrial cristae in cardiomyocytes, and cardiac dysfunction. Gene transfer of deacetylated Opa1 restored cristae alignment in Sirt3-/- mice, ameliorated cardiac reserve capacity, and protected the heart against hypertrophy and fibrosis. The translational relevance of these findings is in the data showing that SIRT3 silencing in human-induced pluripotent stem cell-derived cardiomyocytes led to mitochondrial dysfunction and altered contractile phenotype, both rescued by Opa1 gene transfer. Innovation: Our findings indicate that future approaches to heart failure could include SIRT3 as a plausible therapeutic target. Conclusion: SIRT3 has a major role in regulating mammalian life span. Sirt3 deficiency leads to cardiac abnormalities, due to defective trans-mitochondrial cristae alignment and impaired mitochondrial bioenergetics. Correcting cardiac OPA1 hyperacetylation through gene transfer diminished heart failure in Sirt3-/- mice during aging.

Published

2019

21. Therapeutic potential of stromal cells of non-renal or renal origin in experimental chronic kidney disease

Author

Martino Introna, Ariela Benigni, Domenico Cerullo, Ornella Colpani, Daniela Rottoli, Giuseppe Remuzzi, Carlamaria Zoja, Daniela Corna, Ton J. Rabelink, Daniëlle G. Leuning, Marina Morigi, Chiara Capelli, and Cinzia Rota

Subjects

0301 basic medicine, Male, Medicine (miscellaneous), Mesenchymal stromal cell therapy, Podocyte, Umbilical Cord, 0302 clinical medicine, Chronic kidney disease, lcsh:QD415-436, Kidney, lcsh:R5-920, Renal perivascular cells, Glomerulosclerosis, Focal Segmental, Podocytes, Graft Survival, Antigens, Nuclear, medicine.anatomical_structure, Molecular Medicine, Stem cell, lcsh:Medicine (General), Stromal cell, Transplantation, Heterologous, Bone Marrow Cells, Mesenchymal Stem Cell Transplantation, Biochemistry, Genetics and Molecular Biology (miscellaneous), Nephropathy, lcsh:Biochemistry, 03 medical and health sciences, Rats, Nude, Renal repair, medicine, Animals, Humans, Regeneration, Renal Insufficiency, Chronic, Conditioned medium, Cell Proliferation, business.industry, Macrophages, Research, Mesenchymal stem cell, Epithelial Cells, Mesenchymal Stem Cells, Cell Biology, medicine.disease, Coculture Techniques, Rats, Disease Models, Animal, 030104 developmental biology, Doxorubicin, Culture Media, Conditioned, Cancer research, Bone marrow, business, 030217 neurology & neurosurgery, Biomarkers, Kidney disease

Abstract

Background Mesenchymal stromal cell (MSC)-based therapy is a promising strategy for preventing the progression of chronic kidney disease (CKD), with the potential to induce tissue regeneration. In search of the best cellular source we compared, in the rat model of adriamycin (ADR) nephropathy, the regenerative potential of human stromal cells of non-renal origin, such as bone marrow (bm) MSCs and umbilical cord (uc) MSCs, with that of newly discovered stromal cells of renal origin, the kidney perivascular cells (kPSCs) known to exhibit tissue-specific properties. Methods The therapeutic effect of repeated infusions of human bmMSCs, ucMSCs, kPSCs (1.5 × 106 cells/rats) or conditioned medium from ucMSCs was studied in athymic rats with ADR-induced nephropathy (7.9 mg/kg). The ability of the three stromal cell populations to engraft the damaged kidney was evaluated by detecting the presence of human nuclear antigenpos cells. Glomerular podocyte loss and endothelial damage, sclerotic lesions and inflammation were assessed at 14 and 28 days. In-vitro experiments with a transwell system were performed to investigate the effects of different stromal cell populations on parietal epithelial cells (PECs) activated or not with albumin or angiotensin II for 24 h. Results Infusions of non-renal and renal stromal cells resulted in a comparable engraftment into the kidney, in the peritubular areas and around the glomerular structures. All three cell populations limited podocyte loss and glomerular endothelial cell injury, and attenuated the formation of podocyte and PEC bridges. This translated into a reduction of glomerulosclerosis and fibrosis. Human ucMSCs had an anti-inflammatory effect superior to that of the other stromal cells, reducing macrophage infiltration and inducing polarisation towards the M2 macrophage phenotype. Conditioned medium from ucMSCs shared the same renoprotective effects of the cells. Consistent with in-vivo data, bmMSCs and kPSCs, but even more so ucMSCs, limited proliferation, migratory potential and extracellular matrix production of activated PECs, when cultured in a transwell system. Conclusions Our data indicate that either non-renal or renal stromal cells induce renal tissue repair, highlighting ucMSCs and their conditioned medium as the most reliable clinical therapeutic tool for CKD patients. Electronic supplementary material The online version of this article (10.1186/s13287-018-0960-8) contains supplementary material, which is available to authorized users.

Published

2018

22. Simplified Method to Measure Glomerular Filtration Rate by Iohexol Plasma Clearance in Conscious Rats

Author

Matteo Fois, Nadia Stucchi, Beatriz Abrante, Daniela Corna, Sergio Luis-Lima, Domenico Cerullo, Esteban Porrini, Sebastian Villa, Silvia Ferrari, Flavio Gaspari, Giovanni Nattino, Carlamaria Zoja, Fabiola Carrara, Antonio Cannata, and Nadia Azzollini

Subjects

Male, medicine.medical_specialty, Iohexol, 030232 urology & nephrology, Measure (physics), Urology, Renal function, 030204 cardiovascular system & hematology, urologic and male genital diseases, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Animals, Medicine, Plasma clearance, urogenital system, business.industry, female genital diseases and pregnancy complications, Rats, Filtration fraction, Rats, Inbred Lew, Female, business, Glomerular Filtration Rate, Clearance, medicine.drug

Abstract

Background/Aims: Glomerular filtration rate (GFR) is the best index for evaluating renal function. We aimed to develop a simplified iohexol plasma clearance procedure for GFR measurement in rats without urine collection, animal catheterization or anesthesia, with limited sampling and requiring blood instead of plasma, to further reduce the sample volume and improve animal welfare. Methods: After iohexol injection (129.4 mg), samples were drawn according to 2-compartment kinetics and analyzed by high performance liquid chromatography. Healthy male Lewis rats were used to find a correction factor (CF) to obtain the ‘reference clearance' from the simplified 1-comparment model. This approach was validated using male or female (Lewis, Sprague-Dawley) rats and animals with renal mass reduction (RMR). In additional rats, different simplified approaches were evaluated. Results: Iohexol concentrations in blood and plasma strongly correlated (r = 0.9784, p < 0.0001). A CF of 0.90 enabled the calculation of the reference GFR. Validation results in male Lewis rats were 0.99 ± 0.27 for the reference GFR and 1.03 ± 0.29 ml/min/100 g for the simplified approach. Results in female Sprague-Dawley rats confirmed the suitability of the proposed method. In RMR rats, GFR was 0.14 ± 0.05 and 0.14 ± 0.04 ml/min/100 g for the reference and simplified model, respectively. Conclusion: The procedure we set up to measure GFR in conscious rats was proven to be reliable, required a small volume of blood at only 4 selected time points, without the need to collect urine or catheterize the animals, was applicable to rats from different strains and sexes, both healthy and with renal function impairment. Moreover, the procedure enables the monitoring of GFR changes over time in the same animal, thereby reducing the number of animals to be used.

Published

2016

23. ADAMTS13 Deficiency Shortens the Life Span of Mice With Experimental Diabetes

Author

Daniela Corna, Valentina Casieri, Giuseppe Remuzzi, Vincenzo Lionetti, Paola Cassis, Sara Conti, Rubina Novelli, Giulia Taraboletti, Sebastian Villa, Domenico Cerullo, Monica Locatelli, Carlamaria Zoja, Fabrizio Giordano, Marco Matteucci, Ariela Benigni, Sara Gastoldi, and Cristina Zanchi

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Connexin, ADAMTS13 Protein, 030204 cardiovascular system & hematology, Diabetes Mellitus, Experimental, Thrombospondin 1, 03 medical and health sciences, Mice, 0302 clinical medicine, hemic and lymphatic diseases, Diabetes mellitus, Ca2+/calmodulin-dependent protein kinase, Internal medicine, Dobutamine, Internal Medicine, medicine, Animals, Phosphorylation, Mice, Knockout, Thrombospondin, business.industry, Reverse Transcriptase Polymerase Chain Reaction, Streptozotocin, medicine.disease, Immunohistochemistry, ADAMTS13, 030104 developmental biology, Endocrinology, Connexin 43, cardiovascular system, business, Calcium-Calmodulin-Dependent Protein Kinase Type 2, Shear Strength, medicine.drug

Abstract

In patients with diabetes, impaired activity of ADAMTS13 (a disintegrin and metalloprotease with thrombospondin type 1 repeats, member 13), the plasma metalloprotease that cleaves highly thrombogenic von Willebrand factor multimers, is a major risk factor of cardiovascular events. Here, using Adamts13−/− mice made diabetic by streptozotocin, we investigated the impact of the lack of ADAMTS13 on the development of diabetes-associated end-organ complications. Adamts13−/− mice experienced a shorter life span than their diabetic wild-type littermates. It was surprising that animal death was not related to the occurrence of detectable thrombotic events. The lack of ADAMTS13 drastically increased the propensity for ventricular arrhythmias during dobutamine-induced stress in diabetic mice. Cardiomyocytes of diabetic Adamts13−/− mice exhibited an aberrant distribution of the ventricular gap junction connexin 43 and increased phosphorylation of Ca2+/calmodulin-dependent kinase II (CaMKII), and with the consequent CaMKII-induced disturbance in Ca2+ handling, which underlie propensity for arrhythmia. In vitro, thrombospondin 1 (TSP1) promoted, in a paracrine manner, CaMKII phosphorylation in murine HL-1 cardiomyocytes, and ADAMTS13 acted to inhibit TSP1-induced CaMKII activation. In conclusion, the deficiency of ADAMTS13 may underlie the onset of lethal arrhythmias in diabetes through increased CaMKII phosphorylation in cardiomyocytes. Our findings disclose a novel function for ADAMTS13 beyond its antithrombotic activity.

Published

2017

24. SGLT2 inhibitor dapagliflozin limits podocyte damage in proteinuric nondiabetic nephropathy

Author

Marina Morigi, Domenico Cerullo, Sebastian Villa, Paola Cassis, Carlamaria Zoja, Daniela Corna, Simona Buelli, Monica Locatelli, Cristina Zanchi, Giuseppe Remuzzi, and Ariela Benigni

Subjects

0301 basic medicine, Nephrology, Male, medicine.medical_specialty, 030232 urology & nephrology, Pharmacology, Nephropathy, Podocyte, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Glucosides, Sodium-Glucose Transporter 2, Internal medicine, medicine, Animals, Humans, Dapagliflozin, Benzhydryl Compounds, RNA, Small Interfering, Renal Insufficiency, Chronic, Sodium-Glucose Transporter 2 Inhibitors, Proteinuria, business.industry, Podocytes, Serum Albumin, Bovine, General Medicine, medicine.disease, Actin cytoskeleton, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, chemistry, ACE inhibitor, medicine.symptom, business, Injections, Intraperitoneal, medicine.drug, Kidney disease, Research Article

Abstract

Sodium-glucose cotransporter 2 (SGLT2) inhibitors have pleiotropic properties beyond blood glucose-lowering effects and modify important nonglycemic pathways, leading to end-organ protection. SGLT2 inhibitors display renoprotective effects in diabetic kidney disease, which creates a rationale for testing the therapeutic potential of this drug class in nondiabetic chronic kidney disease. Here, we have shown that dapagliflozin provided glomerular protection in mice with protein-overload proteinuria induced by bovine serum albumin (BSA), to a similar extent as an ACE inhibitor used as standard therapy for comparison. Dapagliflozin limited proteinuria, glomerular lesions, and podocyte dysfunction and loss. We provide the observation that SGLT2 was expressed in podocytes and upregulated after BSA injections. Through in vitro studies with cultured podocytes loaded with albumin we have identified what we believe to be a novel mechanism of action for SGLT2 inhibitor that directly targets podocytes and relies on the maintenance of actin cytoskeleton architecture. Whether SGLT2 inhibitors represent a possible future therapeutic option for some patients with proteinuric glomerular disease who do not have as yet an effective treatment will require ad hoc clinical studies.

Published

2017

25. Renal accumulation of macrophages in experimental polycystic kidney disease is reduced by bindarit

Author

Carlamaria Zoja and Domenico Cerullo

Subjects

medicine.medical_specialty, Kidney, Monocyte, Renal function, Chemotaxis, Biology, CCL2, musculoskeletal system, medicine.disease, Podocyte, medicine.anatomical_structure, Endocrinology, Internal medicine, cardiovascular system, medicine, Polycystic kidney disease, Cyst

Abstract

Renal interstitial accumulation of monocytes/macrophages driven by chemoattractants such as monocyte chemoattractant protein-1 (MCP-1)/CCL2, is a characteristic feature of polycistic kidney diseases (PKD). It has been suggested that infiltrating inflammatory cells contribute to promoting cyst growth and renal function impairment in PKD. Recently, we reported that in experimental PKD in PCK rats, bindarit, an inhibitor of MCP-1, effectively decreased the excessive renal expression of MCP-1, and limited interstitial infiltrates of monocytes/macrophages. The anti-MCP-1 therapy displayed an important antiproteinuric effect associated with amelioration of podocyte structure. In this highlight we describe bindarit’s effects on the evolution of PKD in PCK rats and on the activity of the drug in cultured podocytes to explain its antiproteinuric effect.

Published

2015