Repositioning of Muscle-specific Genes Relative to the Periphery of SC-35 Domains during Skeletal Myogenesis

Phillip T. Moen, Jr., Carol Villnave Johnson, Meg Byron, Lindsay S. Shopland, Ivana L. de la Serna, Anthony N. Imbalzano, and Jeanne Bentley Lawrence^*

Department of Cell Biology, University of Massachusetts Medical School, Worcester, Massachusetts 01655

Submitted June 11, 2003; Revised September 3, 2003; Accepted September 24, 2003
Monitoring Editor: Joseph Gall

Previous studies have shown that in a given cell type, certainactive genes associate with SC-35 domains, nuclear regions richin RNA metabolic factors and excluded from heterochromatin.This organization is not seen for all active genes; therefore,it is important to determine whether and when this locus-specificorganization arises during development and differentiation ofspecific cell types. Here, we investigate whether gene organizationrelative to SC-35 domains is cell type specific by followingseveral muscle and nonmuscle genes in human fibroblasts, committedbut proliferative myoblasts, and terminally differentiated muscle.Although no change was seen for other loci, two muscle genes(Human ${beta}$ -cardiac myosin heavy chain and myogenin) became localizedto the periphery of an SC-35 domain in terminally differentiatedmuscle nuclei, but not in proliferative myoblasts or in fibroblasts.There was no apparent change in gene localization relative toeither the chromosome territory or the heterochromatic compartment;thus, the gene repositioning seemed to occur specifically withrespect to SC-35 domains. This gene relocation adjacent to aprominent SC-35 domain was recapitulated in mouse 3T3 cellsinduced into myogenesis by introduction of MyoD. Results demonstratea cell type-specific reorganization of specific developmentallyregulated loci relative to large domains of RNA metabolic factors,which may facilitate developmental regulation of genome expression.

Article published online ahead of print. Mol. Biol. Cell 10.1091/mbc.E03–06–0388.Article and publication date are available at www.molbiolcell.org/cgi/doi/10.1091/mbc.E03-06-0388.

^* Corresponding author. jeanne.lawrence{at}umassmed.edu.

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