The Hippo effector TEAD1 regulates postnatal murine cerebellar development.

The Hippo signalling cascade is an evolutionarily conserved pathway critical for the development of numerous organ systems and is required for the development of many parts of the mammalian nervous system, including the cerebellum. The Hippo pathway converges, via the nuclear YAP/TAZ co-transcription factors, on transcription factors of the TEA Domain (TEAD) family (TEAD1-4) and promotes the expression of pro-proliferative genes. Despite the importance of TEAD function, our understanding of spatial and temporal expression of this family is limited, as is our understanding of which TEAD family members regulate Hippo-dependent organ development.

Expression of the Hippo pathway effector, TEAD1, within the developing murine forebrain.

The Hippo pathway is a critical regulator of animal development. Activation of the Hippo pathway causes a cascade of phosphorylation events that culminate in the phosphorylation of the transcriptional co-factors YAP and TAZ, which limits their entry into the nucleus. When the Hippo pathway is 'off', however, YAP and TAZ can enter the nucleus, where they interact with the transcription factors of the TEA Domain (TEAD) family to regulate transcriptional activity.