In vivo generation of a mature and functional artificial skeletal muscle

Claudia Fuoco; Roberto Rizzi; Antonella Biondo; Emanuela Longa; Anna Mascaro; Keren Shapira‐Schweitzer; Olga Kossovar; Sara Benedetti; Maria L Salvatori; Sabrina Santoleri; Stefano Testa; Sergio Bernardini; Roberto Bottinelli; Claudia Bearzi; Stefano M Cannata; Dror Seliktar; Giulio Cossu; Cesare Gargioli

doi:10.15252/emmm.201404062

EMBO Molecular Medicine (Feb 2015)

In vivo generation of a mature and functional artificial skeletal muscle

Claudia Fuoco,
Roberto Rizzi,
Antonella Biondo,
Emanuela Longa,
Anna Mascaro,
Keren Shapira‐Schweitzer,
Olga Kossovar,
Sara Benedetti,
Maria L Salvatori,
Sabrina Santoleri,
Stefano Testa,
Sergio Bernardini,
Roberto Bottinelli,
Claudia Bearzi,
Stefano M Cannata,
Dror Seliktar,
Giulio Cossu,
Cesare Gargioli

Affiliations

Claudia Fuoco: Department of Biology, Tor Vergata Rome University
Roberto Rizzi: IRCCS MultiMedica
Antonella Biondo: Department of Biology, Tor Vergata Rome University
Emanuela Longa: Department of Molecular Medicine and Interdepartmental Centre for Research in Sport Biology and Medicine, University of Pavia
Anna Mascaro: Department of Molecular Medicine and Interdepartmental Centre for Research in Sport Biology and Medicine, University of Pavia
Keren Shapira‐Schweitzer: Faculty of Biomedical Engineering, Technion—Israel Institute of Technology
Olga Kossovar: Faculty of Biomedical Engineering, Technion—Israel Institute of Technology
Sara Benedetti: Department of Cell and Developmental Biology, University College London
Maria L Salvatori: Department of Biology, Tor Vergata Rome University
Sabrina Santoleri: Department of Biology, Tor Vergata Rome University
Stefano Testa: Department of Biology, Tor Vergata Rome University
Sergio Bernardini: Department of Biology, Tor Vergata Rome University
Roberto Bottinelli: Department of Molecular Medicine and Interdepartmental Centre for Research in Sport Biology and Medicine, University of Pavia
Claudia Bearzi: IRCCS MultiMedica
Stefano M Cannata: Department of Biology, Tor Vergata Rome University
Dror Seliktar: Faculty of Biomedical Engineering, Technion—Israel Institute of Technology
Giulio Cossu: Department of Cell and Developmental Biology, University College London
Cesare Gargioli: Department of Biology, Tor Vergata Rome University

DOI: https://doi.org/10.15252/emmm.201404062
Journal volume & issue: Vol. 7, no. 4
pp. 411 – 422

Abstract

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Abstract Extensive loss of skeletal muscle tissue results in mutilations and severe loss of function. In vitro‐generated artificial muscles undergo necrosis when transplanted in vivo before host angiogenesis may provide oxygen for fibre survival. Here, we report a novel strategy based upon the use of mouse or human mesoangioblasts encapsulated inside PEG‐fibrinogen hydrogel. Once engineered to express placental‐derived growth factor, mesoangioblasts attract host vessels and nerves, contributing to in vivo survival and maturation of newly formed myofibres. When the graft was implanted underneath the skin on the surface of the tibialis anterior, mature and aligned myofibres formed within several weeks as a complete and functional extra muscle. Moreover, replacing the ablated tibialis anterior with PEG‐fibrinogen‐embedded mesoangioblasts also resulted in an artificial muscle very similar to a normal tibialis anterior. This strategy opens the possibility for patient‐specific muscle creation for a large number of pathological conditions involving muscle tissue wasting.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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Abstract

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