The International Journal of Developmental Biology

Int. J. Dev. Biol. 44: 699 - 706 (2000)

Vol 44, Issue 6

Special Issue: Developmental Biology in Italy

Determination, diversification and multipotency of mammalian myogenic cells

Published: 1 September 2000

G Cossu, L De Angelis, U Borello, B Berarducci, V Buffa, C Sonnino, M Coletta, E Vivarelli, M Bouche, L Lattanzi, D Tosoni, S Di Donna, L Berghella, G Salvatori, P Murphy, M G Cusella-De Angelis and M Molinaro

Fondazione Istituto Pasteur-Cenci Bolognetti, Dipartimento di Istologia ed Embriologia Medica, Università di Roma La Sapienza, Italy. giulio.cossu@mail1.uniroma1.it

Abstract

In amniotes, myogenic commitment appears to be dependent upon signaling from neural tube and dorsal ectoderm, that can be replaced by members of the Wnt family and by Sonic hedgehog. Once committed, myoblasts undergo different fates, in that they can differentiate immediately to form the myotome, or later to give rise to primary and secondary muscle fibers. With fiber maturation, satellite cells are first detected; these cells contribute to fiber growth and regeneration during post-natal life. We will describe recent data, mainly from our laboratory, that suggest a different origin for some of the cells that are incorporated into the muscle fibers during late development. We propose the possibility that these myogenic cells are derived from the vasculature, are multi-potent and become committed to myogenesis by local signaling, when ingressing a differentiating muscle tissue. The implications for fetal and perinatal development of the whole mesoderm will also be discussed.

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