3D hydrogel environment rejuvenates aged pericytes for skeletal muscle tissue engineering

Claudia Fuoco; Elena Sangalli; Rosa Vono; Stefano Testa; Benedetto Sacchetti; Michael V. G. Latronico; Sergio Bernardini; Paolo Madeddu; Gianni Cesareni; Gianni Cesareni; Dror Seliktar; Dror Seliktar; Roberto Rizzi; Roberto Rizzi; Claudia Bearzi; Claudia Bearzi; Stefano M. Cannata; Gaia Spinetti; Cesare Gargioli

doi:10.3389/fphys.2014.00203

Frontiers in Physiology (May 2014)

3D hydrogel environment rejuvenates aged pericytes for skeletal muscle tissue engineering

Claudia Fuoco,
Elena Sangalli,
Rosa Vono,
Stefano Testa,
Benedetto Sacchetti,
Michael V. G. Latronico,
Sergio Bernardini,
Paolo Madeddu,
Gianni Cesareni,
Gianni Cesareni,
Dror Seliktar,
Dror Seliktar,
Roberto Rizzi,
Roberto Rizzi,
Claudia Bearzi,
Claudia Bearzi,
Stefano M. Cannata,
Gaia Spinetti,
Cesare Gargioli

Affiliations

Claudia Fuoco: Department of Biology, University of Rome Tor VergataRome, Italy
Elena Sangalli: IRCCS MultiMedicaMilan, Italy
Rosa Vono: IRCCS MultiMedicaMilan, Italy
Stefano Testa: IRCCS MultiMedicaMilan, Italy
Benedetto Sacchetti: Stem Cell Lab, Department of Molecular Medicine, Sapienza University of RomeRome, Italy
Michael V. G. Latronico: Humanitas Clinical Research CenterMilan, Italy
Sergio Bernardini: Department of Biology, University of Rome Tor VergataRome, Italy
Paolo Madeddu: Experimental Cardiovascular Medicine, University of BristolBristol, UK
Gianni Cesareni: Department of Biology, University of Rome Tor VergataRome, Italy
Gianni Cesareni: IRCCS Fondazione Santa LuciaRome, Italy
Dror Seliktar: Experimental Cardiovascular Medicine, University of BristolBristol, UK
Dror Seliktar: Faculty of Biomedical Engineering, Technion-Israel Institute of TechnologyHaifa, Israel
Roberto Rizzi: IRCCS MultiMedicaMilan, Italy
Roberto Rizzi: Cell Biology and Neurobiology Institute, National Research Council of Italy (CNR)Rome, Italy
Claudia Bearzi: IRCCS MultiMedicaMilan, Italy
Claudia Bearzi: Cell Biology and Neurobiology Institute, National Research Council of Italy (CNR)Rome, Italy
Stefano M. Cannata: Department of Biology, University of Rome Tor VergataRome, Italy
Gaia Spinetti: IRCCS MultiMedicaMilan, Italy
Cesare Gargioli: IRCCS MultiMedicaMilan, Italy

DOI: https://doi.org/10.3389/fphys.2014.00203
Journal volume & issue: Vol. 5

Abstract

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Skeletal muscle tissue engineering is a promising approach for the treatment of muscular disorders. However, the complex organization of muscle, combined with the difficulty in finding an appropriate source of regenerative cells and in providing an adequate blood supply to the engineered tissue, makes this a hard task to face. In the present work, we describe an innovative approach to rejuvenate adult skeletal muscle-derived pericytes (MP) based on the use of a PEG-based hydrogel scaffold. MP were isolated from young (piglet) and adult (boar) pigs to assess whether aging affects tissue regeneration efficiency. In vitro, MP from boars had similar morphology and colony forming capacity to piglet MP, but an impaired ability to form myotubes and capillary-like structures. However, the use of a PEG-based hydrogel to support adult MP significantly improved their myogenic differentiation and angiogenic potentials in vitro and in vivo. Thus, PEG-based hydrogel scaffolds may provide a progenitor cell “niche” that promotes skeletal muscle regeneration and blood vessel growth, and together with pericytes may be developed for use in regenerative applications.

Published in Frontiers in Physiology

ISSN: 1664-042X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Physiology
Website: https://www.frontiersin.org/journals/physiology

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