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Early development of the olfactory placode and early rostrocaudal patterning of the caudal neural tube

The development of the nervous system is a complex process. Cell divisions, cell differentiation and signalling interactions must be tightly regulated. To comprehend the mature nervous system, we have to understand its assembly during development. Two main questions were addressed in this thesis: (1) how is the caudal part of the central nervous system specified and (2) how is the early development of the olfactory placode regulated? By using tissue and whole embryo assays in the chick, we identified signalling molecules involved in these processes and propose possible mechanisms for their function. The central nervous system is regionalized along its rostrocaudal axis during development. However, the mechanisms by which cells in the caudal part of the neuraxis acquire rostrocaudal regional identity have been unresolved. We provide evidence that at gastrula stages cells in the caudal neural plate are specified as cells of caudal spinal cord character in response to Wnt and FGF signals and that cells of rostral spinal cord and caudal hindbrain character only emerge later at neurulation stages in response to retinoic acid signalling acting on previously caudalized cells. In the hindbrain and spinal cord distinct motor neuron subtypes differentiate at precise rostrocaudal positions from progenitor cells. We provide evidence that cells in the caudal neural plate have acquired sufficient positional information to differentiate into motor neurons of the correct rostrocaudal subtype. The olfactory placode gives rise to all the structures of the peripheral olfactory system, which, in the chick consists of the olfactory nerve, the sensory epithelium, where the olfactory sensory neurons (OSN) are located and the respiratory epithelium, that produces the mucus. Several studies have addressed the role of signalling cues in the specification of OSNs but much less is known about the regulation of sensory versus respiratory patterning and the events controlling early neurogenesis in the developing olfactory placode. We show that by stage 14 the olfactory placode is specified to give rise to both cells of sensory and respiratory epithelial character. Moreover, cells of respiratory epithelial character require BMP signalling, whereas cells of sensory epithelial character require FGF signalling. We suggest a mechanism in which FGF and BMP signals act in an opposing manner to regulate olfactory versus respiratory epithelial cell fate decision. BMP signalling has also been implicated in the regulation of neurogenesis in the sensory epithelium, and we show that BMP signals are required for the generation of OSNs, because in the absence of BMP signalling cells in the sensory epithelium do not mature. Independently, we also analyzed the role of Notch signalling during early olfactory development both in vitro and in vivo and provide evidence that active Notch signalling is required to prevent cells in the olfactory placode from premature differentiation.

Identiferoai:union.ndltd.org:UPSALLA1/oai:DiVA.org:umu-22622
Date January 2009
CreatorsMaier, Esther
PublisherUmeå universitet, Umeå centrum för molekylär medicin (UCMM), Umeå : Umeå centre for molecular medicine (UCMM)
Source SetsDiVA Archive at Upsalla University
LanguageEnglish
Detected LanguageEnglish
TypeDoctoral thesis, comprehensive summary, info:eu-repo/semantics/doctoralThesis, text
Formatapplication/pdf
Rightsinfo:eu-repo/semantics/openAccess
RelationUmeå University medical dissertations, 0346-6612 ; 1274

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