SOX9-COL9A3-dependent regulation of choroid plexus epithelial polarity governs blood-cerebrospinal fluid barrier integrity.

The choroid plexus (CP) is an extensively vascularized neuroepithelial tissue that projects into the brain ventricles. The restriction of transepithelial transport across the CP establishes the blood-cerebrospinal fluid (CSF) barrier that is fundamental to the homeostatic regulation of the central nervous system microenvironment. However, the molecular mechanisms that control this process remain elusive.

Spatiotemporal Decline of BMP Signaling Activity in Neural Progenitors Mediates Fate Transition and Safeguards Neurogenesis.

Neural progenitors undergo temporal fate transition to generate diversified neurons in stereotyped sequence during development. However, the molecular machineries driving progenitor fate change remain unclear. Here, using the cerebellum as a platform, we demonstrate that the temporal dynamics of a dorsoventral bone morphogenetic protein (BMP)/SMAD signaling gradient orchestrates the transition from early to late phase of neurogenesis.

BMP/Smad signaling and embryonic cerebellum development: stem cell specification and heterogeneity of anterior rhombic lip.

The canonical bone morphogenetic proteins (BMPs) signaling have been shown to mediate many embryonic developmental processes. Due to its complexity, there are still many unknowns about this signal pathway including the Smad usage and requirement. Cerebellum, one of the most studied neural organs in development biology, requires canonical BMP signaling for stem cell specification.