The International Journal of Developmental Biology

Int. J. Dev. Biol. 49: 961 - 967 (2005)

https://doi.org/10.1387/ijdb.052009sg

Vol 49, Issue 8

The homeobox gene Msx in development and transdifferentiation of jellyfish striated muscle

Open Access | Original Article | Published: 1 November 2005

Sabina Galle, Nathalie Yanze and Katja Seipel*

Institute of Zoology, Biocenter / Pharmacenter, Basel, Switzerland

Abstract

Bilaterian Msx homeobox genes are generally expressed in areas of cell proliferation and in association with multipotent progenitor cells. Likewise, jellyfish Msx is expressed in progenitor cells of the developing entocodon, a cell layer giving rise to the striated and smooth muscles of the medusa. However, in contrast to the bilaterian homologs, Msx gene expression is maintained at high levels in the differentiated striated muscle of the medusa in vivo and in vitro. This tissue exhibits reprogramming competence. Upon induction, the Msx gene is immediately switched off in the isolated striated muscle undergoing transdifferentiation, to be upregulated again in the emerging smooth muscle cells which, in a stem cell like manner, undergo quantal cell divisions producing two cell types, a proliferating smooth muscle cell and a differentiating nerve cell. This study indicates that the Msx protein may be a key component of the reprogramming machinery responsible for the extraordinary transdifferentation and regeneration potential of striated muscle in the hydrozoan jellyfish.

Keywords

jellyfish, muscle specific homeo box, Msx, regeneration, transdifferentiation

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