CRIM1 is localized to the podocyte filtration slit diaphragm of the adult human kidney

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Abstract

Background. CRIM1 is a plasma membrane bound protein containing six cysteine-rich repeats (CRR). Through these, CRIM1 has been shown to interact with a subgroup of the TGF-β superfamily, the bone morphogenic proteins (BMP) isoforms 2, 4 and 7. The probable action is to modulate the signalling properties of these factors. CRIM1 has also been shown to regulate the release of VEGFA by podocytes during renal organogenesis. Knock-out studies in mice have shown that CRIM1 is critically involved in the development of the central nervous system, eye and kidney. Replacement of CRIM1 with a defective version leads to renal dysgenesis and perinatal death. We have analysed the distribution of CRIM1 in adult human renal tissue.

Methods. To this end, we have used immunofluorescence, immunohistochemistry and immunoelectron microscopy. We performed western blotting for the CRIM1 protein, using lysates from isolated glomerular podocytes and human renal tissue homogenate. By using quantitative PCR, we compared the CRIM1 mRNA levels in podocytes, human renal tissue homogenate, primary human renal proximal tubular epithelial cells and primary human pulmonary artery smooth muscle cells.

Results. The results show that in the human adult kidney, CRIM1 is mainly expressed in the glomerular podocytes and is associated with the insertional region of the filtration slit diaphragm (SD) of the podocyte pedicles.

Conclusions. CRIM1 is a protein that should be added to the list of proteins associated with the podocyte filtration SD and with the probable action of modulating BMP and VEGFA signalling.

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Most cited references 36

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BMP-7 counteracts TGF-beta1-induced epithelial-to-mesenchymal transition and reverses chronic renal injury.

Michael Zeisberg, Jun-ichi Hanai, Hikaru Sugimoto … (2003)

Bone morphogenic protein (BMP)-7 is a 35-kDa homodimeric protein and a member of the transforming growth factor (TGF)-beta superfamily. BMP-7 expression is highest in the kidney, and its genetic deletion in mice leads to severe impairment of eye, skeletal and kidney development. Here we report that BMP-7 reverses TGF-beta1-induced epithelial-to-mesenchymal transition (EMT) by reinduction of E-cadherin, a key epithelial cell adhesion molecule. Additionally, we provide molecular evidence for Smad-dependent reversal of TGF-beta1-induced EMT by BMP-7 in renal tubular epithelial cells and mammary ductal epithelial cells. In the kidney, EMT-induced accumulation of myofibroblasts and subsequent tubular atrophy are considered key determinants of renal fibrosis during chronic renal injury. We therefore tested the potential of BMP-7 to reverse TGF-beta1-induced de novo EMT in a mouse model of chronic renal injury. Our results show that systemic administration of recombinant human BMP-7 leads to repair of severely damaged renal tubular epithelial cells, in association with reversal of chronic renal injury. Collectively, these results provide evidence of cross talk between BMP-7 and TGF-beta1 in the regulation of EMT in health and disease.

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Bone morphogenetic protein-4 is required for mesoderm formation and patterning in the mouse.

G Winnier, M Blessing, P A LABOSKY … (1995)

Bone morphogenetic protein-4 (BMP-4) is a member of the TGF-beta superfamily of polypeptide signaling molecules, closely related to BMP-2 and to Drosophila decapentaplegic (DPP). To elucidate the role of BMP-4 in mouse development the gene has been inactivated by homologous recombination in ES cells. Homozygous mutant Bmp-4tm1blh embryos die between 6.5 and 9.5 days p.c., with a variable phenotype. Most Bmp-4tm1blh embryos do not proceed beyond the egg cylinder stage, do not express the mesodermal marker T(Brachyury), and show little or no mesodermal differentiation. Some homozygous mutants develop to the head fold or beating heart/early somite stage or beyond. However, they are developmentally retarded and have truncated or disorganized posterior structures and a reduction in extraembryonic mesoderm, including blood islands. These results provide direct genetic evidence that BMP-4 is essential for several different processes in early mouse development, beginning with gastrulation and mesoderm formation. Moreover, in the presumed absence of zygotic ligand, it appears that homozygous mutants can be rescued partially by related proteins or by maternal BMP-4.

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Podocyte biology and response to injury.

Stuart Shankland, Peter Mundel (2002)

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Author and article information

Journal

Journal ID (nlm-ta): Nephrol Dial Transplant

Journal ID (publisher-id): ndt

Journal ID (hwp): ndt

Title: Nephrology Dialysis Transplantation

Publisher: Oxford University Press

ISSN (Print): 0931-0509

ISSN (Electronic): 1460-2385

Publication date (Print): July 2009

Publication date (Electronic): 21 January 2009

Publication date PMC-release: 21 January 2009

Volume: 24

Issue: 7

Pages: 2038-2044

Affiliations

[1 ]Department of Nephrology, simpleGöteborg University , Gothenburg

[2 ]Division of Electron Microscopy, simpleKarolinska University Hospital , Huddinge, Karolinska Institutet, Stockholm

[3 ]simpleLund University , Department of Immunotechnology, CREATE Health, BioMedical Center

[4 ]Department of Laboratory Medicine, Center for Molecular Pathology, simpleLund University, University Hospital MAS , Malmö, Sweden

[5 ]Academic Renal Unit, simpleUniversity of Bristol , Bristol, UK

Author notes

Correspondence and offprint requests to: Martin E. Johansson; E-mail: martin.johansson@ 123456med.lu.se

Article

Publisher ID: gfn743

DOI: 10.1093/ndt/gfn743

PMC ID: 2698089

PubMed ID: 19158190

SO-VID: da9fd384-192a-4a73-ac9a-11c1cec8ccd7

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CRIM1 is localized to the podocyte filtration slit diaphragm of the adult human kidney

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Abstract

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Karger: Nephrology

Most cited references 36

BMP-7 counteracts TGF-beta1-induced epithelial-to-mesenchymal transition and reverses chronic renal injury.

Bone morphogenetic protein-4 is required for mesoderm formation and patterning in the mouse.

Podocyte biology and response to injury.

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