Amniotic Fluid Stem Cells Restore the Muscle Cell Niche in a HSA-Cre, SmnF7/F7 Mouse Model

被引:55
作者
Piccoli, Martina [1 ,2 ]
Franzin, Chiara [2 ]
Bertin, Enrica [2 ]
Urbani, Luca [2 ]
Blaauw, Bert [3 ,6 ]
Repele, Andrea [2 ]
Taschin, Elisa [2 ]
Cenedese, Angelo [4 ]
Zanon, Giovanni Franco [2 ]
Andre-Schmutz, Isabelle [7 ]
Rosato, Antonio [5 ,8 ]
Melki, Judith [9 ]
Cavazzana-Calvo, Marina [7 ,10 ,11 ]
Pozzobon, Michela [1 ,2 ]
De Coppi, Paolo [2 ,12 ,13 ]
机构
[1] Citta Speranza Fdn, I-35127 Padua, Italy
[2] Univ Padua, Dept Pediat & Pediat Surg, Padua, Italy
[3] Univ Padua, Dept Physiol, Padua, Italy
[4] Univ Padua, Dept Informat Engn, Padua, Italy
[5] Univ Padua, Dept Oncol & Surg Sci, Padua, Italy
[6] VIMM, Padua, Italy
[7] INSERM, U768, Paris, France
[8] IRCCS, Ist Oncol Veneto, Padua, Italy
[9] Univ Paris 11, INSERM, U788, Hop Bicetre, Paris, France
[10] Hop Necker Enfants Malad, AP HP, Dept Biotherapie, Paris, France
[11] Univ Paris 05, Fac Med, Paris, France
[12] UCL, Surg Unit, Great Ormond St Hosp, London, England
[13] UCL, Inst Child Hlth, London, England
来源
STEM CELLS | 2012年 / 30卷 / 08期
关键词
Amniotic fluid stem cells; Muscle dystrophy; Muscle stem cell niche; Spinal muscular atrophy; FUNCTIONAL SKELETAL-MUSCLE; SATELLITE CELLS; SMOOTH-MUSCLE; IN-VIVO; DIFFERENTIATION; REGENERATION; REPAIR; MESOANGIOBLASTS; TRANSPLANTATION; HETEROGENEITY;
D O I
10.1002/stem.1134
中图分类号
Q813 [细胞工程];
学科分类号
摘要
Mutations in the survival of motor neuron gene (SMN1) are responsible for spinal muscular atrophy, a fatal neuromuscular disorder. Mice carrying a homozygous deletion of Smn exon 7 directed to skeletal muscle (HSA-Cre, Smn(F7/F7) mice) present clinical features of human muscular dystrophies for which new therapeutic approaches are highly warranted. Herein we demonstrate that tail vein transplantation of mouse amniotic fluid stem (AFS) cells enhances the muscle strength and improves the survival rate of the affected animals. Second, after cardiotoxin injury of the Tibialis Anterior, only AFS-transplanted mice efficiently regenerate. Most importantly, secondary transplants of satellite cells (SCs) derived from treated mice show that AFS cells integrate into the muscle stem cell compartment and have long-term muscle regeneration capacity indistinguishable from that of wild-type-derived SC. This is the first study demonstrating the functional and stable integration of AFS cells into the skeletal muscle, highlighting their value as cell source for the treatment of muscular dystrophies. STEM CELLS 2012;30:1675-1684
引用
收藏
页码:1675 / 1684
页数:10
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