Focal adhesion kinase (FAK), a major cell adhesion-activated tyrosine kinase, has an important function in cell adhesion and migration. Here, we report a new signalling of FAK in regulating chromatin remodelling by its interaction with MBD2 (methyl CpG-binding protein 2), underlying FAK regulation of myogenin expression and muscle differentiation. FAK interacts with MBD2 in vitro, in myotubes, and in isolated muscle fibres. Such an interaction, increased in myotubes exposed to oxidative stress, enhances FAK nuclear localization. The nuclear FAK-MBD2 complexes alter heterochromatin reorganization and decrease MBD2 association with HDAC1 (histone deacetylase complex 1) and methyl CpG site in the myogenin promoter, thus, inducing myogenin expression. In line with this view are observations that blocking FAK nuclear localization by expressing dominant negative MBD2 or suppression of FAK expression by its miRNA in C2C12 cells attenuates myogenin induction and/or impairs muscle-terminal differentiation. Together, these results suggest an earlier unrecognized role of FAK in regulating chromatin remodelling that is important for myogenin expression and muscle-terminal differentiation, reveal a new mechanism of MBD2 regulation by FAK family tyrosine kinases, and provide a link between cell adhesion and chromatin remodelling.