MeCP2 expression and function during brain development: implications for Rett syndrome's pathogenesis and clinical evolution.

TitleMeCP2 expression and function during brain development: implications for Rett syndrome's pathogenesis and clinical evolution.
Publication TypeJournal Article
Year of Publication2005
AuthorsKaufmann WE, Johnston MV, Blue ME
JournalBrain & development
Volume27 Suppl 1
PaginationS77-S87
Date Published2005 Nov
Abstract

Most cases of Rett syndrome (RTT) are associated with mutations of the transcriptional regulator MeCP2. On the basis of molecular structure, ontogeny, and subcellular and regional distribution, MeCP2 appears to be a link between synaptic activity and neuronal transcription. Integrating data on MeCP2 neurobiology, RTT neurobiology, MeCP2 mutational patterns in RTT and other disorders, histone profiles of relevance to RTT, and genotype-phenotype correlations in RTT, we update here our synaptic hypothesis of RTT. We postulate that MeCP2 dysfunction leads to abnormal brain development through maladjustment of neuronal gene expression to synaptic and other extra-cellular signals, mainly during the critical period of synaptic maturation. RTT phenotype will develop, only if severe MeCP2 dysfunction is present during early neuronal differentiation. Two models are proposed for explaining general and regional neuronal abnormalities in RTT and the phenotypical outcome of MeCP2 dysfunction, respectively.

Alternate JournalBrain Dev.