Patterning of proneuronal
and inter-proneuronal domains by hairy- and enhancer of split-related
genes in zebrafish neuroectoderm
Bae Y K, Shimizu T and Hibi M
Development (2005)
SUMMARY
In teleosts and amphibians, the proneuronal domains, which give rise to
primary-motor, primary-inter and Rohon-Beard (RB) neurons, are established
at the beginning of neurogenesis as three longitudinal stripes along the
anteroposterior axis in the dorsal ectoderm. The proneuronal domains are
prefigured by the expression of basic helix-loop-helix (bHLH) proneural
genes, and separated by domains (inter-proneuronal domains) that do not
express the proneural genes. Little is known about how the formation of
these domains is spatially regulated. We have found that the zebrafish
hairy- and enhancer of split-related (Her) genes her3 and her9 are expressed
in the inter-proneuronal domains, and are required for their formation.
her3 and her9 expression was not regulated by Notch signaling, but rather
controlled by positional cues, in which Bmp signaling is involved. Inhibition
of Her3 or Her9 by antisense morpholino oligonucleotides led to ectopic
expression of the proneural genes in part of the inter-proneuronal domains.
Combined inhibition of Her3 and Her9 induced ubiquitous expression of
proneural and neuronal genes in the neural plate, and abolished the formation
of the inter-proneuronal domains. Furthermore, inhibition of Her3/Her9
and Notch signaling led to ubiquitous and homogeneous expression of proneural
and neuronal genes in the neural plate, revealing that Her3/Her9 and Notch
signaling have distinct roles in neurogenesis. These data indicate that
her3 and her9 function as prepattern genes that link the positional dorsoventral
polarity information in the posterior neuroectoderm to the spatial regulation
of neurogenesis.
LINK
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=15716337
