In C2 myoblasts, retinoic acid (RA) is an efficient inducer of both gr
owth arrest and differentiation. These RA effects are mediated through
at least two classes of retinoic acid receptors (RARs and RXRs), whic
h belong to the nuclear receptor superfamily. To determine the role pl
ayed by each RAR or RXR family in this model system, we have analysed
the effects of RA in C2 myoblasts expressing a dominant negative RAR (
dnRAR) or a dominant negative RXR (dnRXR), The stable expression of dn
RAR or dnRXR in C2 cells delays the RA-induced growth arrest and diffe
rentiation, an effect which is more pronounced in C2-dnRXR myoblasts,
Furthermore, the RA-inducible expression of MyoD gene is lost in C2-dn
RXR but not in C2-dnRAR cells, indicating that each family of retinoid
receptors RAR and RXR may regulate distinct subsets of RA-responsive
genes. Finally, using C2 cell lines with different retinoid responsive
ness, we provided evidence for a link between the RXR and MyoD familie
s in the process of myogenic differentiation, These results illustrate
a critical role for RA-receptors in RA-control of C2 myogenesis and p
rovide tools for studying the function of RA and its receptors during
vertebrate development.