Wntless interacts with Notch signaling to balance the generation of neurons and gliocytes in vertebrate dorsal diencephalon

Wnt chaperon Wntless (Wls) mediates the intracellular transport of Wnts and plays important roles in early vertebrate brain development. Spatially restricted induction of Wls denotes the earliest differentiation of non-telencephalic cells in human brain organoids. In zebrafish developing diencephalon, loss-of-Wls reduces the formation of habenula (HA) neurons but how Wls influences HA neurogenesis is unclear and whether Wls regulates gliocyte development is unknown. Here we report that the formations of cholinergic, substance P-ergic or glutamatergic neurons in HA are reduced differentially but the generation of gliocyte-derived choroid plexus (ChP) epithelia is increased in wls null mutants. At earlier stage, three-dimensional gene expression analyses revealed that while neurog1 expressions in HA progenitor zones are reduced, the expressions of Notch downstream effector her6 are increased and expanded into HA progenitor zones in wls mutants. Over-expressing Her6 in neurog1 -positive cells reduced neurog1 expressions in HA progenitor zones. These results indicate that Wls restricts the expressions of Notch effector her6 to promote the specification of neurog1 proneurons and demotes the generation of ChP epithelia in zebrafish embryonic dorsal diencephalon.