Nurit Ballas scite author profile

Regulation of neuronal gene expression is critical to central nervous system development. Here, we show that REST regulates the transitions from pluripotent to neural stem/progenitor cell and from progenitor to mature neuron. In the transition to progenitor cell, REST is degraded to levels just sufficient to maintain neuronal gene chromatin in an inactive state that is nonetheless poised for expression. As progenitors differentiate into neurons, REST and its co-repressors dissociate from the RE1 site, triggering activation of neuronal genes. In some genes, the level of expression is adjusted further in neurons by CoREST/MeCP2 repressor complexes that remain bound to a site of methylated DNA distinct from the RE1 site. Expression profiling based on this mechanism indicates that REST defines a gene set subject to plasticity in mature neurons. Thus, a multistage repressor mechanism controls the orderly expression of genes during development while still permitting fine tuning in response to specific stimuli.

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Non–cell autonomous influence of MeCP2-deficient glia on neuronal dendritic morphology

Ballas

2009

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The neurodevelopmental disorder Rett Syndrome (RTT) is caused by sporadic mutations in the transcriptional factor methyl-CpG binding protein 2 (MeCP2). Although it is thought that the primary cause of RTT is cell autonomous due to lack of functional MeCP2 in neurons, whether non-cell autonomous factors contribute to the disease, is unknown. Here, we show that loss of MeCP2 occurs not only in neurons but also in glial cells of RTT brain. Using an in vitro co-culture system, we find that mutant astrocytes from a RTT mouse model, and their conditioned medium, fail to support normal dendritic morphology of either wild-type or mutant hippocampal neurons. Our studies suggest that in RTT brain, astrocytes carrying MeCP2 mutations have a non-cell autonomous effect on neuronal properties, likely due to aberrant secretion of soluble factor(s).

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A role for glia in the progression of Rett’s syndrome

Lioy

Garg

Monaghan

et al. 2011

Nature

448

383

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Rett syndrome (RTT) is an X-chromosome-linked autism spectrum disorder caused by loss of function of the transcription factor methyl CpG-binding protein 2 (MeCP2)1. Although MeCP2 is expressed in most tissues2, loss of MeCP2 results primarily in neurological symptoms1,3,4. Earlier studies propelled the idea that RTT is due exclusively to loss of MeCP2 function in neurons2,4-10. While defective neurons clearly underlie the aberrant behaviors, we and others showed recently that the loss of MeCP2 from glia negatively influences neurons in a non-cell autonomous fashion11-13. Here, we show that in globally MeCP2-deficient mice, re-expression of MeCP2 preferentially in astrocytes significantly improved locomotion and anxiety levels, restored respiratory abnormalities to a normal pattern, and greatly prolonged lifespan compared to globally null mice. Furthermore, restoration of MeCP2 in the mutant astrocytes exerted a non-cell-autonomous positive effect on mutant neurons in vivo, restoring normal dendritic morphology and increasing levels of the excitatory glutamate transporter (VGlut1). Our study shows that glia, like neurons, are integral components of the neuropathology of RTT, and supports targeting glia as a strategy for improving the associated symptoms.

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Nurit Ballas

REST and Its Corepressors Mediate Plasticity of Neuronal Gene Chromatin throughout Neurogenesis

Non–cell autonomous influence of MeCP2-deficient glia on neuronal dendritic morphology

A role for glia in the progression of Rett’s syndrome

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