M
Mara Riminucci
Researcher at Sapienza University of Rome
Publications - 169
Citations - 11908
Mara Riminucci is an academic researcher from Sapienza University of Rome. The author has contributed to research in topics: Bone marrow & Stromal cell. The author has an hindex of 45, co-authored 143 publications receiving 10940 citations. Previous affiliations of Mara Riminucci include University of L'Aquila & National Institutes of Health.
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Journal ArticleDOI
Self-Renewing Osteoprogenitors in Bone Marrow Sinusoids Can Organize a Hematopoietic Microenvironment
Benedetto Sacchetti,Alessia Funari,Stefano Michienzi,Silvia Di Cesare,Stefania Piersanti,Isabella Saggio,Isabella Saggio,Enrico Tagliafico,Stefano Ferrari,Pamela Gehron Robey,Mara Riminucci,Paolo Bianco +11 more
TL;DR: It is shown that MCAM/CD146-expressing, subendothelial cells in human BM stroma are capable of transferring, upon transplantation, the HME to heterotopic sites, coincident with the establishment of identical subendOThelial cells within a miniature bone organ.
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Bone Marrow Stromal Stem Cells: Nature, Biology, and Potential Applications
TL;DR: Bone marrow stromal cells are progenitors of skeletal tissue components such as bone, cartilage, the hematopoiesis‐supporting stroma, and adipocytes and represent an important paradigm of post‐natal nonhematopoietic stem cells, and an easy source for potential therapeutic use.
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Single‐Colony Derived Strains of Human Marrow Stromal Fibroblasts Form Bone After Transplantation In Vivo
Sergei A. Kuznetsov,Paul H. Krebsbach,Kazuhito Satomura,Janet M. Kerr,Mara Riminucci,Dafna Benayahu,Pamela Gehron Robey +6 more
TL;DR: Analysis of bone formation in vivo by single‐colony derived strains of human marrow stromal fibroblasts provides evidence that individual human CFU‐Fs have osteogenic potential and yet differ from each other with respect to their osteogenic capacity.
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FGF-23 in fibrous dysplasia of bone and its relationship to renal phosphate wasting
Mara Riminucci,Michael T. Collins,Neal S. Fedarko,Natasha Cherman,Alessandro Corsi,Alessandro Corsi,Kenneth E. White,Steven G. Waguespack,Anurag Gupta,Tamara S. Hannon,Michael J. Econs,Paolo Bianco,Paolo Bianco,Pamela Gehron Robey +13 more
TL;DR: It is found that FGF-23 is produced by normal and FD osteoprogenitors and bone-forming cells in vivo and in vitro and may play an important role in the renal phosphate-wasting syndrome associated with FD/MAS.
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The meso-angioblast: A multipotent, self-renewing cell that originates from the dorsal aorta and differentiates into most mesodermal tissues
Maria G. Minasi,Mara Riminucci,Luciana De Angelis,Ugo Borello,Barbara Berarducci,Anna Innocenzi,Arianna Caprioli,Dario Sirabella,Marta Baiocchi,Ruggero De Maria,Renata Boratto,Thierry Jaffredo,Vania Broccoli,Paolo Bianco,Giulio Cossu +14 more
TL;DR: It is concluded that these newly identified vessel-associated stem cells, the meso-angioblasts, participate in postembryonic development of the mesoderm, and it is speculated that postnatal mesodermal stem cells may be derived from a vascular developmental origin.