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Title: Investigating the mechanism by which thalamocortical projections reach the cerebral cortex
Author: Chen, Yijing
ISNI:       0000 0004 2726 8701
Awarding Body: University of Edinburgh
Current Institution: University of Edinburgh
Date of Award: 2012
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This thesis provides insights into the mechanism by which thalamocortical axons (TCAs) approach the cortex from their origin in the thalamus. Previous studies suggested that the reciprocal projections from the prethalamus and the ventral telencephalon guide TCAs to descend through the prethalamus and cross the diencephalic-telencephalic boundary (DTB), after which TCAs navigate through permissive corridor cells in the ventral telencephalon and cross the pallial-subpallial boundary (PSPB) before reaching their final targets in the cortex. The ‘Handshake Hypothesis’ proposed that pioneer axons from cortical preplate neurons guide TCAs into corresponding cortical areas. However, there is a lack of convincing evidence on whether TCAs need any guidance to cross the PSPB. In the current study, Adenomatous polyposis (Apc) gene is conditionally deleted from the cortex, by using Emx1Cre-APCloxP recombination technology. Apc is widely expressed in the nervous system including the cortical plate of the cortex and regulates axonal growth and neuronal differentiation. Deleting Apc may block neurite extension and/or affect the formation of attractive or repulsive cues in the cortex. By using DiI tracing as well as L1 immunohistochemistry techniques, I showed that in the Apc mutants cortical axons are absent and that TCAs initially navigate into the ventral telencephalon normally but fail to complete their journey into the cortex. They stop as they approach the PSPB, although the PSPB doesn’t seem to be directly affected by the mutation of Apc in the cortex. Additionally, Ig-Nrg1 (Neuregulin-1), the secreted protein that was suggested to play long-range roles in attracting TCAs towards the cortex, is present in the Apc mutant. This implies that Ig-Nrg1 is not sufficient for guiding TCAs into the cortex, and that additional guidance factors are needed. Moreover, my in vitro explant culture experiments show that the mutant cortex neither repel nor inhibit thalamic axonal outgrowth, indicating that the failure of TCAs in reaching the cortex is not due to the change of repulsive cues secreted by the mutant cortex. It rather indicates that the guidance factors for TCAs are likely to function through cell-cell contact mediated mechanisms. The Apc mutant cortex lacks these guidance factors, which might be the cortical axons. In conclusion, my data reveal a choice point for TCAs at the PSPB. Guidance factors from the cortex are needed for TCAs to cross the PSPB, which are absent in the Apc mutant. TCAs may need the direct contact with cortical axons and use them as an axonal scaffold to navigate into the cerebral cortex.
Supervisor: Mason, John. ; Price, Allan. ; Pratt, Tom. Sponsor: Medical Research Council (MRC) ; Overseas Research Students Awards Scheme (ORSAS)
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available
Keywords: thalamocortical axons ; cerebral cortex ; thalamus