ZFIN ID: ZDB-PUB-980601-11
Initial anteroposterior pattern of the zebrafish central nervous system is determined by differential competence of the epiblast
Koshida, S., Shinya, M., Mizuno, T., Kuroiwa, A., and Takeda, H.
Date: 1998
Source: Development (Cambridge, England)   125: 1957-1966 (Journal)
Registered Authors: Koshida, Sumito, Mizuno, Toshiro, Shinya, Minori, Takeda, Hiroyuki
Keywords: neural induction; otx2; hoxa-1; Spemann's organizer; embryonic shield; mesoderm inductin; induction; zebrafish
MeSH Terms:
  • Animals
  • Biomarkers
  • Body Patterning/physiology*
  • COS Cells
  • Cell Transplantation
  • Central Nervous System/embryology*
  • Ectoderm/cytology
  • Ectoderm/physiology*
  • Egg Yolk
  • Embryonic Induction/physiology
  • Gastrula/transplantation
  • Gene Expression Regulation, Developmental/physiology
  • Homeodomain Proteins/analysis
  • Mesoderm/physiology
  • Mutation
  • Nerve Tissue Proteins/analysis
  • Otx Transcription Factors
  • RNA, Messenger/analysis
  • Receptors, Fibroblast Growth Factor/physiology
  • Trans-Activators/analysis
  • Transcription Factors/analysis
  • Zebrafish
  • Zebrafish Proteins
PubMed: 9550728
Analyses using amphibian embryos proposed that induction and anteroposterior patterning of the central nervous system is initiated by signals that are produced by the organizer and organizer-derived axial mesoderm. However, we show here that the initial anteroposterior pattern of the zebrafish central nervous system depends on the differential competence of the epiblast and is not imposed by organizer-derived signals. This anteroposterior information is present throughout the epiblast in ectodermal cells that normally give rise both to neural and non-neural derivatives. Because of this information, organizer tissues transplanted to the ventral side of the embryo induce neural tissue but the anteroposterior identity of the induced neural tissue is dependent upon the position of the induced tissue within the epiblast. Thus, otx2, an anterior neural marker, was only ever induced in anterior regions of the embryo, irrespective of the position of the grafts. Similarly, hoxa-1, a posterior neural marker was induced only in the posterior regions. Furthermore, the boundary of each ectopic expression domain on the ventral side was always at an equivalent latitude to that of the endogenous expression of the dorsal side of the embryo. The anteroposterior specification of the epiblast is independent of the dorsoventral specification of the embryo because neural tissues induced in the ventralized embryos also showed anteroposterior polarity. Cell transplantation and RNA injection experiments showed that non-axial marginal mesoderm and FGF signalling is required for anteroposterior specification of the epiblast. However, the requirement for FGF signalling is indirect in that cells with compromised ability to respond to FGF can still respond to anteroposterior positional information.