Expression and localization of RAP1 proteins during myogenic differentiation.

The RAP1 subfamily of small GTPases has been involved in various differentiation programs. In skeletal muscle, several lines of evidence suggest that various small GTPases could be implicated in muscle development. This raised the question of whether the RAP1 proteins (RAP1A and/or RAP1B) could be involved in myogenesis. In the present study, we report on the regulation of RAP1 transcripts and proteins during myogenic differentiation. Northern blot analysis performed with differentiated and undifferentiated C2 myogenic cells pointed out that both genes undergo specific regulation during myogenesis in vitro since differentiation of C2 cells was accompanied by a down-regulation of RAP1B gene transcription and continuous expression of the RAP1A mRNA. In addition, immunofluorescence experiments revealed the accumulation of the RAP1 proteins in differentiated C2 cells and in primary culture of mouse myotubes. Investigation of the intracellular location of RAP1 proteins in undifferentiated and differentiated C2 cells showed that the proteins were associated with the late endocytic compartments. To verify that the build-up of RAP1 proteins had a relevance for developmental mechanisms in vivo, we studied their expression and localization at different stages of skeletal muscle development. We found that RAP1 proteins accumulated in specialized muscle cell domains undergoing important modifications during early and late myogenesis: these were the neuromuscular and myotendinous junctions, respectively. Altogether, our data indicate that RAP1 proteins are regulated during myogenic differentiation.