Differential regulation of lineage commitment in human and mouse primed pluripotent stem cells by NuRD

Abstract: Differentiation of mammalian pluripotent cells involves large-scale changes in transcription and, among the molecules that orchestrate these changes, chromatin remodellers are essential to initiate, establish and maintain a new gene regulatory network. The NuRD complex is a highly conserved chromatin remodeller which fine-tunes gene expression in embryonic stem cells. While the function of NuRD in mouse pluripotent cells has been well defined, no study yet has defined NuRD function in human pluripotent cells. … Show more

“…The opposing phenotypes found for brain volume between rodent models and patients might be explained by a gene dosage effect, as for some variants in CHD4 altered ATPase activity levels were found, suggesting a possible gain-of-function phenotype in certain patients [ 212 , 213 ]. Another possibility might be that the NuRD complex function is differentially regulated in humans and mice, as was recently suggested in a study comparing mouse and human pluripotent stem cells [ 214 ].…”

The emerging role of chromatin remodelers in neurodevelopmental disorders: a developmental perspective

“…The opposing phenotypes found for brain volume between rodent models and patients might be explained by a gene dosage effect, as for some variants in CHD4 altered ATPase activity levels were found, suggesting a possible gain-of-function phenotype in certain patients [ 212 , 213 ]. Another possibility might be that the NuRD complex function is differentially regulated in humans and mice, as was recently suggested in a study comparing mouse and human pluripotent stem cells [ 214 ].…”

The emerging role of chromatin remodelers in neurodevelopmental disorders: a developmental perspective