Suppression of MeCP2β Expression Inhibits Neurite Extension in PC12 Cells
Regulation of gene expression is critical to the proper development of neuronal cells. The methyl-CpG binding protein 2 (MeCP2) operates as a transcriptional repressor by facilitating histone deacetylation and DNA methylation-dependent transcriptional silencing. This study examined the importance of MeCP2 in the regulation of neurite formation in PC12 cells. Expression of MeCP2 increased in a time-dependent manner after induction of neuronal differentiation. Expression was assessed at both the transcriptional and translation levels, and reached a maximum at 24 h post-induction. In addition, a marked inhibition of neurite extension and proper localization of a marker for synapse formation, synapsin I, were observed when MeCP2 expression was decreased by the addition of an antisense morpholino oligomer directed to the translational initiation site for MeCP2β. The removal of the antisense oligomer allowed neurite extension to progress. However, the addition of antisense oligomer to previously differentiated PC12 cells did not affect established neurite processes. Taken collectively, our results indicate a role for MeCP2β early in the events of neurite formation and that the relative levels of MeCP2α and MeCP2β may be different in early differentiating neurons than is found in the adult brain. In addition, unique functions may exist for the two isoforms of MeCP2. Our results indicate that the inhibition of neurite elaboration caused by a reduction in MeCP2 may be reversible.
Sorcha M. Cusack, Troy T. Rohn, Ryan J. Medeck, Katey M. Irwin, Raquel J. Brown, Linda M. Mercer, and Julia Thom Oxford. "Suppression of MeCP2β Expression Inhibits Neurite Extension in PC12 Cells" Experimental Cell Research 299.2 (2004): 442-453.
Available at: http://works.bepress.com/julia_oxford/17