Maurilio Sampaolesi
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Tie2 identifies a hematopoietic lineage of proangiogenic monocytes required for tumor vessel formation and a mesenchymal population of pericyte progenitors
M De Palma, MA Venneri, R Galli, LS Sergi, LS Politi, M Sampaolesi, ...
Cancer cell 8 (3), 211-226, 2005
Pericytes of human skeletal muscle are myogenic precursors distinct from satellite cells
A Dellavalle, M Sampaolesi, R Tonlorenzi, E Tagliafico, B Sacchetti, ...
Nature cell biology 9 (3), 255-267, 2007
Mesoangioblast stem cells ameliorate muscle function in dystrophic dogs
M Sampaolesi, S Blot, G D’Antona, N Granger, R Tonlorenzi, A Innocenzi, ...
Nature 444 (7119), 574-579, 2006
Cell therapy of α-sarcoglycan null dystrophic mice through intra-arterial delivery of mesoangioblasts
M Sampaolesi, Y Torrente, A Innocenzi, R Tonlorenzi, G D'Antona, ...
Science 301 (5632), 487-492, 2003
Human postnatal dental pulp cells co-differentiate into osteoblasts and endotheliocytes: a pivotal synergy leading to adult bone tissue formation
R d'Aquino, A Graziano, M Sampaolesi, G Laino, G Pirozzi, A De Rosa, ...
Cell Death & Differentiation 14 (6), 1162-1171, 2007
Extracellular HMGB1, a signal of tissue damage, induces mesoangioblast migration and proliferation
R Palumbo, M Sampaolesi, F De Marchis, R Tonlorenzi, S Colombetti, ...
The Journal of cell biology 164 (3), 441-449, 2004
Electrospun degradable polyesterurethane membranes: potential scaffolds for skeletal muscle tissue engineering
SA Riboldi, M Sampaolesi, P Neuenschwander, G Cossu, S Mantero
Biomaterials 26 (22), 4606-4615, 2005
Human circulating AC133+ stem cells restore dystrophin expression and ameliorate function in dystrophic skeletal muscle
Y Torrente, M Belicchi, M Sampaolesi, F Pisati, M Meregalli, G D’Antona, ...
The Journal of clinical investigation 114 (2), 182-195, 2004
No identical “mesenchymal stem cells” at different times and sites: human committed progenitors of distinct origin and differentiation potential are incorporated as adventitial …
B Sacchetti, A Funari, C Remoli, G Giannicola, G Kogler, S Liedtke, ...
Stem cell reports 6 (6), 897-913, 2016
Functional and morphological recovery of dystrophic muscles in mice treated with deacetylase inhibitors
GC Minetti, C Colussi, R Adami, C Serra, C Mozzetta, V Parente, S Fortuni, ...
Nature medicine 12 (10), 1147-1150, 2006
Transplantation of genetically corrected human iPSC-derived progenitors in mice with limb-girdle muscular dystrophy
FS Tedesco, MFM Gerli, L Perani, S Benedetti, F Ungaro, M Cassano, ...
Science translational medicine 4 (140), 140ra89-140ra89, 2012
Autologous transplantation of muscle-derived CD133+ stem cells in Duchenne muscle patients
Y Torrente, M Belicchi, C Marchesi, G D'antona, F Cogiamanian, F Pisati, ...
Cell transplantation 16 (6), 563-577, 2007
Role of inflammation in muscle homeostasis and myogenesis
D Costamagna, P Costelli, M Sampaolesi, F Penna
Mediators of inflammation 2015, 2015
Complete repair of dystrophic skeletal muscle by mesoangioblasts with enhanced migration ability
BG Galvez, M Sampaolesi, S Brunelli, D Covarello, M Gavina, B Rossi, ...
The Journal of cell biology 174 (2), 231-243, 2006
New therapies for Duchenne muscular dystrophy: challenges, prospects and clinical trials
G Cossu, M Sampaolesi
Trends in molecular medicine 13 (12), 520-526, 2007
Canine adipose-derived-mesenchymal stem cells do not lose stem features after a long-term cryopreservation
T Martinello, I Bronzini, L Maccatrozzo, A Mollo, M Sampaolesi, ...
Research in veterinary science 91 (1), 18-24, 2011
Differentiation potential of human postnatal mesenchymal stem cells, mesoangioblasts, and multipotent adult progenitor cells reflected in their transcriptome and partially …
VD Roobrouck, C Clavel, SA Jacobs, F Ulloa-Montoya, S Crippa, A Sohni, ...
Stem cells 29 (5), 871-882, 2011
Isolation and characterization of mesoangioblasts from mouse, dog, and human tissues
R Tonlorenzi, A Dellavalle, E Schnapp, G Cossu, M Sampaolesi
Current protocols in stem cell biology 3 (1), 2B. 1.1-2B. 1.29, 2007
Mesoangioblasts, vessel-associated multipotent stem cells, repair the infarcted heart by multiple cellular mechanisms: a comparison with bone marrow progenitors, fibroblasts …
D Galli, A Innocenzi, L Staszewsky, L Zanetta, M Sampaolesi, A Bai, ...
Arteriosclerosis, Thrombosis, and Vascular Biology 25 (4), 692-697, 2005
Cardiac mesoangioblasts are committed, self-renewable progenitors, associated with small vessels of juvenile mouse ventricle
BG Galvez, M Sampaolesi, A Barbuti, A Crespi, D Covarello, S Brunelli, ...
Cell Death & Differentiation 15 (9), 1417-1428, 2008
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