University of Notre Dame
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Cellular and Molecular Regulation of Neural Populations in the Developing Peripheral Nervous System

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posted on 2021-10-13, 00:00 authored by Nina Kikel-Coury

The nervous system is an expansive network of neurons and glia that is essential for health. Although vast, the system can be segregated into two main parts: the central nervous system (CNS) and the peripheral nervous system (PNS). The PNS is then further divided into the somatic nervous system and the autonomic nervous system. Together, these peripheral systems control responses to external stimuli and organ function, respectively. In order to enact their control, neurons provide signaling throughout the body while glia serve in several necessary modulatory capacities. Given the extensive roles of the PNS in daily health and activities, it is thus prudent to understand the cellular and molecular regulators that guide its development. In this dissertation, we use super-resolution confocal time-lapse imaging, pharmacological manipulation, and mutant genesis in a zebrafish model to address this need twofold. First, we study the somatosensory system by elucidating the molecular mechanisms that guide sensory axon growth cone navigation and entry into the spinal cord. This work establishes a connection between molecules and actin stabilization in the growth cone to complete circuit development. Second, we investigate the autonomic nervous system and identify a novel glial population in the heart, which ultimately regulates cardiac function. Taken together, these findings expand upon our understanding of neuronal and glial development in the periphery.

History

Date Modified

2021-11-24

Defense Date

2021-09-02

CIP Code

  • 26.0101

Research Director(s)

Cody Smith

Degree

  • Doctor of Philosophy

Degree Level

  • Doctoral Dissertation

Alternate Identifier

1286066873

Library Record

6152137

OCLC Number

1286066873

Program Name

  • Biological Sciences

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