Bone-marrow-derived stem cells repair basement membrane collagen defects and reverse genetic kidney disease. - Wikidata - awgldk - TriplyDB

Bone-marrow-derived stem cells repair basement membrane collagen defects and reverse genetic kidney disease.

Bone-marrow-derived stem cells repair basement membrane collagen defects and reverse genetic kidney disease.

http://www.wikidata.org/entity/Q34624477

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Regeneration of glomerular podocytes by human renal progenitors Mesenchymal stem cells as a therapeutic approach to glomerular diseases: benefits and risks Regenerative medicine for the kidney: renotropic factors, renal stem/progenitor cells, and stem cell therapy De novo glomerular diseases after renal transplantation Stem cells: potential and challenges for kidney repair Progenitor-like cells derived from mouse kidney protect against renal fibrosis in a remnant kidney model via decreased endothelial mesenchymal transition.Biodistribution, migration and homing of systemically applied mesenchymal stem/stromal cells Stem cell therapies benefit Alport syndrome.Loss of the BMP antagonist USAG-1 ameliorates disease in a mouse model of the progressive hereditary kidney disease Alport syndrome.Kidney injury and cell therapy: Preclinical study.Identification of the NC1 domain of {alpha}3 chain as critical for {alpha}3{alpha}4{alpha}5 type IV collagen network assembly.Searching for a treatment for Alport syndrome using mouse models Models of chronic kidney disease Peptide nanofibers preconditioned with stem cell secretome are renoprotective.Bone marrow-derived progenitor cells do not contribute to podocyte turnover in the puromycin aminoglycoside and renal ablation models in rats.Autologous and allogeneic marrow stromal cells are safe and effective for the treatment of acute kidney injury Injection of amniotic fluid stem cells delays progression of renal fibrosis.Imaging of podocyte foot processes by fluorescence microscopy.Decellularized scaffold of cryopreserved rat kidney retains its recellularization potential.Glomerular pathology in Alport syndrome: a molecular perspective.Clinical practice recommendations for the treatment of Alport syndrome: a statement of the Alport Syndrome Research Collaborative.Essential but differential role for CXCR4 and CXCR7 in the therapeutic homing of human renal progenitor cells.Diabetic nephropathy: the role of inflammation in fibroblast activation and kidney fibrosis.Hematopoietic stem cells are pluripotent and not just "hematopoietic".Irradiation prolongs survival of Alport mice Fibroblasts in kidney fibrosis emerge via endothelial-to-mesenchymal transition.Epithelial cell alpha3beta1 integrin links beta-catenin and Smad signaling to promote myofibroblast formation and pulmonary fibrosis.Recruitment of podocytes from glomerular parietal epithelial cells.Diabetes mellitus: an opportunity for therapy with stem cells?Cellular origins of type IV collagen networks in developing glomeruli.Possible mechanisms of kidney repair.Chimeric maternal cells with tissue-specific antigen expression and morphology are common in infant tissues.Stem cell therapy for Alport syndrome: the hope beyond the hype.Renal studies provide an insight into cardiac extracellular matrix remodeling during health and disease.Alport syndrome: facts and opinions.Feasibility of repairing glomerular basement membrane defects in Alport syndrome.Role of stem cells in kidney repair.Selecting the optimal cell for kidney regeneration: fetal, adult or reprogrammed stem cells.The role of multipotent marrow stromal cells (MSCs) in tissue regeneration.Renal differentiation of amniotic fluid stem cells: perspectives for clinical application and for studies on specific human genetic diseases.

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Bone-marrow-derived stem cells repair basement membrane collagen defects and reverse genetic kidney disease.

http://www.wikidata.org/entity/Q34624477

description

2006 nî lūn-bûn

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2006 թուականի Ապրիլին հրատարակուած գիտական յօդուած

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2006 թվականի ապրիլին հրատարակված գիտական հոդված

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2006年の論文

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年学术文章

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2006年學術文章

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name

Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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type

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Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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prefLabel

Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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Proceedings of the National Academy of Sciences of the United States of America

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Bone-marrow-derived stem cells ...... everse genetic kidney disease.

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Dominic Cosgrove

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Hikaru Sugimoto

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Liang Xie

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Thomas M Mundel

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P2860

Identification of mutations in the COL4A5 collagen gene in Alport syndrome

Multi-organ, multi-lineage engraftment by a single bone marrow-derived stem cell

Bone marrow cells regenerate infarcted myocardium

Ganglioside GM2-activator protein and vesicular transport in collecting duct intercalated cells

Basement membranes: structure, assembly and role in tumour angiogenesis

Alport syndrome. An inherited disorder of renal, ocular, and cochlear basement membranes.

Contribution of marrow-derived progenitors to vascular and cardiac regeneration.

Alport's syndrome, Goodpasture's syndrome, and type IV collagen.

Glomerular expression of type IV collagen chains in normal and X-linked Alport syndrome kidneys

Integrin alpha1beta1 and transforming growth factor-beta1 play distinct roles in alport glomerular pathogenesis and serve as dual targets for metabolic therapy.

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