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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

Retrograde signaling mechanisms of nerve growth factor regulating the survival and apoptosis of sympathetic neurons

Mok, Sue-Ann Unknown Date
No description available.
2

Retrograde signaling mechanisms of nerve growth factor regulating the survival and apoptosis of sympathetic neurons

Mok, Sue-Ann 11 1900 (has links)
The survival of several neuron populations during development, including sympathetic neurons, is strictly regulated by neurotrophins such as nerve growth factor (NGF) released from innervation targets. NGF activates its receptor, TrkA, at axon terminals, to generate signals that are transmitted retrogradely to cell bodies to induce signaling cascades regulating survival. A general view of this process is that NGF generates retrograde survival signals that, when delivered to cell bodies, induce downstream survival signaling that prevents apoptosis. A retrograde survival signal proposed to be necessary for sympathetic neuron survival consists of endosomes containing NGF and phosphorylated TrkA. For this signal, phosphorylated TrkA arriving at cell bodies is required to initiate survival signaling. Studies have tested the necessity of TrkA phosphorylation in the cell bodies for survival: results from different studies contradict each other. Moreover, the Trk inhibitor, K252a, used in these studies, has reported non-specific effects. Using an alternate Trk inhibitor, Gö6976, data presented in this thesis demonstrates that NGF can promote survival by retrograde signaling that does not require TrkA phosphorylation in the cell bodies. These retrograde signals may be composed of signaling molecules activated downstream of TrkA in axons since pro-survival molecules downstream of TrkA, Akt and CREB, were found activated in the cell bodies/proximal axons. Data presented in this thesis also reveals a fundamentally different mechanism for how NGF promotes sympathetic neuron survival: a retrograde apoptotic signal that is suppressed by NGF. NGF withdrawal from axons induced the “axon apoptotic signal” that was retrogradely transmitted to cell bodies to activate a key pro-apoptotic molecule, c-jun. The axon apoptotic signal, which was blocked by the kinase inhibitors rottlerin and chelerythrine, was necessary for apoptosis in response to NGF deprivation. Evidence GSK3 is involved in generation or transmission of the axon apoptotic signal was provided by experiments with GSK3 inhibitors and siRNA. The axon apoptotic signal discovery refutes the previous view that NGF acting on axon terminals supports survival exclusively by generating retrograde survival signals. The axon apoptotic signal has broad implications for understanding nervous system development and other conditions where neuronal apoptosis occurs, such as neurotrauma and neurodegenerative diseases.

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