Literature DB >> 27618218

Adventitial MSC-like Cells Are Progenitors of Vascular Smooth Muscle Cells and Drive Vascular Calcification in Chronic Kidney Disease.

Rafael Kramann1, Claudia Goettsch2, Janewit Wongboonsin3, Hiroshi Iwata2, Rebekka K Schneider4, Christoph Kuppe5, Nadine Kaesler5, Monica Chang-Panesso3, Flavia G Machado3, Susannah Gratwohl6, Kaushal Madhurima3, Joshua D Hutcheson2, Sanjay Jain3, Elena Aikawa7, Benjamin D Humphreys3.   

Abstract

Mesenchymal stem cell (MSC)-like cells reside in the vascular wall, but their role in vascular regeneration and disease is poorly understood. Here, we show that Gli1+ cells located in the arterial adventitia are progenitors of vascular smooth muscle cells and contribute to neointima formation and repair after acute injury to the femoral artery. Genetic fate tracing indicates that adventitial Gli1+ MSC-like cells migrate into the media and neointima during athero- and arteriosclerosis in ApoE-/- mice with chronic kidney disease. Our data indicate that Gli1+ cells are a major source of osteoblast-like cells during calcification in the media and intima. Genetic ablation of Gli1+ cells before induction of kidney injury dramatically reduced the severity of vascular calcification. These findings implicate Gli1+ cells as critical adventitial progenitors in vascular remodeling after acute and during chronic injury and suggest that they may be relevant therapeutic targets for mitigation of vascular calcification.
Copyright © 2016 Elsevier Inc. All rights reserved.

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Year:  2016        PMID: 27618218      PMCID: PMC5097006          DOI: 10.1016/j.stem.2016.08.001

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   24.633


  52 in total

Review 1.  Vascular calcification: pathobiology of a multifaceted disease.

Authors:  Linda L Demer; Yin Tintut
Journal:  Circulation       Date:  2008-06-03       Impact factor: 29.690

2.  Sources of cells that contribute to atherosclerotic intimal calcification: an in vivo genetic fate mapping study.

Authors:  Veena Naik; Elizabeth M Leaf; Jie Hong Hu; Hsueh-Ying Yang; Ngoc B Nguyen; Cecilia M Giachelli; Mei Y Speer
Journal:  Cardiovasc Res       Date:  2012-03-21       Impact factor: 10.787

3.  Time-course analysis on the differentiation of bone marrow-derived progenitor cells into smooth muscle cells during neointima formation.

Authors:  Jan-Marcus Daniel; Wiebke Bielenberg; Philipp Stieger; Soenke Weinert; Harald Tillmanns; Daniel G Sedding
Journal:  Arterioscler Thromb Vasc Biol       Date:  2010-06-24       Impact factor: 8.311

Review 4.  Vascular smooth muscle progenitor cells: building and repairing blood vessels.

Authors:  Mark W Majesky; Xiu Rong Dong; Jenna N Regan; Virginia J Hoglund
Journal:  Circ Res       Date:  2011-02-04       Impact factor: 17.367

5.  Sphingosylphosphorylcholine induces differentiation of human mesenchymal stem cells into smooth-muscle-like cells through a TGF-beta-dependent mechanism.

Authors:  Eun Su Jeon; Hyun Jung Moon; Mi Jeong Lee; Hae Young Song; Young Mi Kim; Yong Chan Bae; Jin Sup Jung; Jae Ho Kim
Journal:  J Cell Sci       Date:  2006-11-14       Impact factor: 5.285

6.  Smooth muscle cell plasticity: fact or fiction?

Authors:  Anh T Nguyen; Delphine Gomez; Robert D Bell; Julie H Campbell; Alexander W Clowes; Giulio Gabbiani; Cecilia M Giachelli; Michael S Parmacek; Elaine W Raines; Nancy J Rusch; Mei Y Speer; Michael Sturek; Johan Thyberg; Dwight A Towler; Mary C Weiser-Evans; Chen Yan; Joseph M Miano; Gary K Owens
Journal:  Circ Res       Date:  2012-10-23       Impact factor: 17.367

7.  Dialysis accelerates medial vascular calcification in part by triggering smooth muscle cell apoptosis.

Authors:  Rukshana C Shroff; Rosamund McNair; Nichola Figg; Jeremy N Skepper; Leon Schurgers; Ashmeet Gupta; Melanie Hiorns; Ann E Donald; John Deanfield; Lesley Rees; Catherine M Shanahan
Journal:  Circulation       Date:  2008-10-06       Impact factor: 29.690

8.  MSX2 promotes osteogenesis and suppresses adipogenic differentiation of multipotent mesenchymal progenitors.

Authors:  Su-Li Cheng; Jian-Su Shao; Nichole Charlton-Kachigian; Arleen P Loewy; Dwight A Towler
Journal:  J Biol Chem       Date:  2003-08-18       Impact factor: 5.157

9.  Transdifferentiation of vascular smooth muscle cells to macrophage-like cells during atherogenesis.

Authors:  Susanne Feil; Birgit Fehrenbacher; Robert Lukowski; Frank Essmann; Klaus Schulze-Osthoff; Martin Schaller; Robert Feil
Journal:  Circ Res       Date:  2014-07-28       Impact factor: 17.367

10.  The suture provides a niche for mesenchymal stem cells of craniofacial bones.

Authors:  Hu Zhao; Jifan Feng; Thach-Vu Ho; Weston Grimes; Mark Urata; Yang Chai
Journal:  Nat Cell Biol       Date:  2015-03-23       Impact factor: 28.824
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  117 in total

1.  Fas ligand and nitric oxide combination to control smooth muscle growth while sparing endothelium.

Authors:  Mehmet H Kural; Juan Wang; Liqiong Gui; Yifan Yuan; Guangxin Li; Katherine L Leiby; Elias Quijano; George Tellides; W Mark Saltzman; Laura E Niklason
Journal:  Biomaterials       Date:  2019-05-07       Impact factor: 12.479

2.  Comparison of skeletal and soft tissue pericytes identifies CXCR4+ bone forming mural cells in human tissues.

Authors:  Jiajia Xu; Dongqing Li; Ching-Yun Hsu; Ye Tian; Leititia Zhang; Yiyun Wang; Robert J Tower; Leslie Chang; Carolyn A Meyers; Yongxing Gao; Kristen Broderick; Carol Morris; Jody E Hooper; Sridhar Nimmagadda; Bruno Péault; Aaron W James
Journal:  Bone Res       Date:  2020-05-22       Impact factor: 13.567

3.  Role of adventitial MSC-like cells in chronic kidney disease.

Authors:  Benedetta Bussolati; Maria Chiara Deregibus; Giovanni Camussi
Journal:  Stem Cell Investig       Date:  2017-01-18

Review 4.  Endocrine functions of the renal interstitium.

Authors:  Armin Kurtz
Journal:  Pflugers Arch       Date:  2017-06-17       Impact factor: 3.657

5.  Mature Vascular Smooth Muscle Cells, but Not Endothelial Cells, Serve as the Major Cellular Source of Intimal Hyperplasia in Vein Grafts.

Authors:  Weiwei Wu; Chunyan Wang; Huimei Zang; Lei Qi; Mohamad Azhar; Mitzi Nagarkatti; Prakash Nagarkatti; Guoshuai Cai; Mary C M Weiser-Evans; Taixing Cui
Journal:  Arterioscler Thromb Vasc Biol       Date:  2020-06-04       Impact factor: 8.311

6.  Platelet-derived growth factor receptor-β (PDGFRβ) lineage tracing highlights perivascular cell to myofibroblast transdifferentiation during post-traumatic osteoarthritis.

Authors:  Takashi Sono; Ching-Yun Hsu; Stefano Negri; Sarah Miller; Yiyun Wang; Jiajia Xu; Carolyn A Meyers; Bruno Peault; Aaron W James
Journal:  J Orthop Res       Date:  2020-03-09       Impact factor: 3.494

Review 7.  Alkaline phosphatase: a novel treatment target for cardiovascular disease in CKD.

Authors:  Mathias Haarhaus; Vincent Brandenburg; Kamyar Kalantar-Zadeh; Peter Stenvinkel; Per Magnusson
Journal:  Nat Rev Nephrol       Date:  2017-05-15       Impact factor: 28.314

8.  Chronic kidney disease: Gli1+ adventitial cells have a critical role in vascular calcification in CKD.

Authors:  Andrea Aguilar
Journal:  Nat Rev Nephrol       Date:  2016-09-26       Impact factor: 28.314

9.  The activin receptor is stimulated in the skeleton, vasculature, heart, and kidney during chronic kidney disease.

Authors:  Matthew J Williams; Toshifumi Sugatani; Olga A Agapova; Yifu Fang; Joseph P Gaut; Marie-Claude Faugere; Hartmut H Malluche; Keith A Hruska
Journal:  Kidney Int       Date:  2017-08-23       Impact factor: 10.612

10.  Smooth Muscle Cell Reprogramming in Aortic Aneurysms.

Authors:  Pei-Yu Chen; Lingfeng Qin; Guangxin Li; Jose Malagon-Lopez; Zheng Wang; Sonia Bergaya; Sharvari Gujja; Alexander W Caulk; Sae-Il Murtada; Xinbo Zhang; Zhen W Zhuang; Deepak A Rao; Guilin Wang; Zuzana Tobiasova; Bo Jiang; Ruth R Montgomery; Lele Sun; Hongye Sun; Edward A Fisher; Jeffrey R Gulcher; Carlos Fernandez-Hernando; Jay D Humphrey; George Tellides; Thomas W Chittenden; Michael Simons
Journal:  Cell Stem Cell       Date:  2020-04-02       Impact factor: 24.633
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