Expression of alpha7beta1 integrin splicing variants during skeletal muscle regeneration.

Integrin alpha7beta1 is a laminin receptor, both subunits of which have alternatively spliced, developmentally regulated variants. In skeletal muscle beta1 has two major splice variants of the intracellular domain (beta1A and beta1D). alpha7X1 and alpha7X2 represent variants of the alpha7 ectodomain, whereas alpha7A and alpha7B are variants of the intracellular domain. Previously we showed that during early regeneration after transection injury of muscle alpha7 integrin mediates dynamic adhesion of myofibers along their lateral aspects to the extracellular matrix. Stable attachment of myofibers to the extracellular matrix occurs during the third week after injury, when new myotendinous junctions develop at the ends of the regenerating myofibers. Now we have analyzed the relative expression of beta1A/beta1D and alpha7A/alpha7B and alpha7X1/alpha7X2 isoforms during regeneration for 2 to 56 days after transection of rat soleus muscle using reverse transcriptase-polymerase chain reaction and immunohistochemistry. During early regeneration beta1A was the predominant isoform in both the muscle and scar tissue. Expression of muscle-specific beta1D was detected in regenerating myofibers from day 4 onwards, ie, when myogenic mitotic activity began to decrease, and it became more abundant with the progression of regeneration. alpha7B isoform predominated on day 2. Thereafter, the relative expression of alpha7A transcripts increased until day 7 with the concomitant appearance of alpha7A immunoreactivity on regenerating myofibers. Finally, alpha7B again became the predominant variant in highly regenerated myofibers. Similarly as in the controls, alpha7X1 and alpha7X2 isoforms were both expressed throughout the regeneration with a peak in alpha7X1 expression on day 4 coinciding with the dynamic adhesion stage. The results suggest that during regeneration of skeletal muscle the splicing of beta1 and alpha7 integrin subunits is regulated according to functional requirements. alpha7A and alpha7X1 appear to have a specific role during the dynamic phase of adhesion, whereas alpha7B, alpha7X2, and beta1D predominate during stable adhesion.