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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Novel in vivo imaging approaches to study embryonic and adult neurogenesis in the mouse

Attardo, Alessio 15 February 2007 (has links) (PDF)
Neurogenesis is the process of generation of neurons during embryonic development and adulthood. The focus of this doctoral work is the study of the cell biological aspects of neurogenesis and the mechanisms regulating the switch of neural stem cells from proliferation to differentiation. During embryonic development neurogenic divisions occur at the apical or basal side of the pseudostratified epithelium that forms the wall of the neural tube, the neuroepithelium. Apical asymmetric neurogenic divisions (AP) give rise to a neuron and a progenitor cell, while basal symmetric neurogenic divisions (BP) give rise to two neurons. The first part of this thesis is focused on the study of some cell biological aspects of BPs. We first validated the use of the Tis21-GFP knock in mouse line, previously generated in our laboratory. We found that the totality of neurogenic progenitors is marked by the expression of a nuclear GFP. We calculated the abundance of BPs overtime since the onset of neurogenesis showing that BPs overcome APs over development. We studied the loss of apical contact of the basal dividing cells. We found that both neurogenic and non-neurogenic basally dividing progenitors miss the apical contact; which is lost prior mitosis. We generated and characterized a second mouse line, the Tubb3-GFP line expressing a plasma membrane-localized GFP in neurons. These two lines were crossed to obtain a new line (TisTubb-GFP) allowing detection of neurogenic divisions and tracking daughter cells. Using this model: (i) we imaged symmetric neurogenic divisions of BPs, identifying daughter cells as neurons, during imaging; (ii) we compared the kinetics of betaIII-tubulin-GFP appearance after apical or basal mitosis, showing that daughters of BPs express betaIII-tubulin-GFP faster than daughters coming from apical divisions; (iii) we imaged neuronal migration and localization of the Golgi apparatus. Neurogenesis in the adult is confined to two specific regions in the telencephalon: the sub ependymal zone, lining the ventricle, and dentate gyrus of the hippocampus. The second part of this thesis focuses on the adult neurogenic progenitors lineage. Tis21-GFP expression was found and characterized in the two adult neurogenic regions from early postnatal to adulthood. Using a panel of markers for the adult neurogenic cell lineage and confocal imaging, we characterized Tis21-GFP expression, in the dentate gyrus. Tis21-GFP is first expressed in the neurogenic subpopulation of doublecortin positive cells. Tis21-GFP is inherited by the neurons and eventually degraded. Moreover, our data suggest that mitotic Tis21-GFP cells are an indicator of the levels of neurogenesis more accurate than doublecortin positive cells, in the early postnatal mouse. (Anlage Quick time movies 77,88 MB)
2

Novel in vivo imaging approaches to study embryonic and adult neurogenesis in the mouse

Attardo, Alessio 20 December 2006 (has links)
Neurogenesis is the process of generation of neurons during embryonic development and adulthood. The focus of this doctoral work is the study of the cell biological aspects of neurogenesis and the mechanisms regulating the switch of neural stem cells from proliferation to differentiation. During embryonic development neurogenic divisions occur at the apical or basal side of the pseudostratified epithelium that forms the wall of the neural tube, the neuroepithelium. Apical asymmetric neurogenic divisions (AP) give rise to a neuron and a progenitor cell, while basal symmetric neurogenic divisions (BP) give rise to two neurons. The first part of this thesis is focused on the study of some cell biological aspects of BPs. We first validated the use of the Tis21-GFP knock in mouse line, previously generated in our laboratory. We found that the totality of neurogenic progenitors is marked by the expression of a nuclear GFP. We calculated the abundance of BPs overtime since the onset of neurogenesis showing that BPs overcome APs over development. We studied the loss of apical contact of the basal dividing cells. We found that both neurogenic and non-neurogenic basally dividing progenitors miss the apical contact; which is lost prior mitosis. We generated and characterized a second mouse line, the Tubb3-GFP line expressing a plasma membrane-localized GFP in neurons. These two lines were crossed to obtain a new line (TisTubb-GFP) allowing detection of neurogenic divisions and tracking daughter cells. Using this model: (i) we imaged symmetric neurogenic divisions of BPs, identifying daughter cells as neurons, during imaging; (ii) we compared the kinetics of betaIII-tubulin-GFP appearance after apical or basal mitosis, showing that daughters of BPs express betaIII-tubulin-GFP faster than daughters coming from apical divisions; (iii) we imaged neuronal migration and localization of the Golgi apparatus. Neurogenesis in the adult is confined to two specific regions in the telencephalon: the sub ependymal zone, lining the ventricle, and dentate gyrus of the hippocampus. The second part of this thesis focuses on the adult neurogenic progenitors lineage. Tis21-GFP expression was found and characterized in the two adult neurogenic regions from early postnatal to adulthood. Using a panel of markers for the adult neurogenic cell lineage and confocal imaging, we characterized Tis21-GFP expression, in the dentate gyrus. Tis21-GFP is first expressed in the neurogenic subpopulation of doublecortin positive cells. Tis21-GFP is inherited by the neurons and eventually degraded. Moreover, our data suggest that mitotic Tis21-GFP cells are an indicator of the levels of neurogenesis more accurate than doublecortin positive cells, in the early postnatal mouse. (Anlage Quick time movies 77,88 MB)

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