The Hao-Fountain syndrome protein USP7 regulates neuronal connectivity in the brain via a novel p53-independent ubiquitin signaling pathway

Abstract: The development of the brain relies on precise control of protein ubiquitination and degradation, and hence, deregulation of ubiquitination signaling networks is thought to play an important role in neurological disorders. Mutation or deletion of the deubiquitinase USP7 causes the Hao-Fountain syndrome, characterized by developmental delay, intellectual disability, autism, and aggressive behavior. Although USP7 function has been studied in proliferating cells in the context of cancer biology, the roles and mec… Show more

“…Studies in mice indicated that loss of USP7 also affects (neuro)development via p53-directed control of cell proliferation and survival. 14,15,54 Another function of USP7 that has been linked to Hao-Fountain syndrome is the regulation of endosomal recycling through stabilization of a MAGEL2-TRIM27 complex. 1 However, our results do not support a role for TRIM27 in neuronal differentiation (Figure 6).…”

“…Recently, USP7 was implicated in regulation of neuronal connectivity in the mouse brain via splicing factor PPIL4. 54 Suggestively, in addition to BCOR-ncPRC1.1, USP7 has other targets that have been associated…”

Hao-Fountain syndrome protein USP7 controls neuronal differentiation via BCOR-ncPRC1.1

“…Studies in mice indicated that loss of USP7 also affects (neuro)development via p53-directed control of cell proliferation and survival. 14,15,54 Another function of USP7 that has been linked to Hao-Fountain syndrome is the regulation of endosomal recycling through stabilization of a MAGEL2-TRIM27 complex. 1 However, our results do not support a role for TRIM27 in neuronal differentiation (Figure 6).…”

“…Recently, USP7 was implicated in regulation of neuronal connectivity in the mouse brain via splicing factor PPIL4. 54 Suggestively, in addition to BCOR-ncPRC1.1, USP7 has other targets that have been associated…”

Hao-Fountain syndrome protein USP7 controls neuronal differentiation via BCOR-ncPRC1.1