Citation:
bioRxiv. 2022;[preprint] doi:10.1101/2022.05.16.492129
Abstract:
Neurons on left and right sides of the nervous system frequently show asymmetric properties but how these differences arise is poorly understood. Through a forward genetic screen in zebrafish, we find that loss of function of the transmembrane protein Cachd1 results in right-sided habenular neurons adopting left-sided character. Cachd1 is expressed in habenular neuron progenitors, functions symmetrically downstream of asymmetric environmental signals that determine laterality and influences timing of the normally left-right asymmetric patterns of neurogenesis. Unbiased screening for Cachd1 partners identified the Wnt co-receptor Frizzled7 and further biochemical and structural analysis revealed Cachd1 can bind simultaneously to Fzd proteins and Lrp6, bridging between these two Wnt co-receptors. Consistent with these structural studies, lrp6 mutant zebrafish show symmetric habenulae with left-sided character and epistasis experiments with other Wnt pathway genes support an in vivo role for Cachd1 in modulating Wnt pathway activity in the brain. Together, these studies identify Cachd1 as a novel Wnt-receptor interacting protein with roles in regulating neurogenesis and neuronal identity.
Epub:
Not Epub
Link to Publication:
https://www.biorxiv.org/content/10.1101/2022.05.16.492129v1.full
Organism or Cell Type:
zebrafish
Delivery Method:
microinjection