The Role of Ion Channels in Coordinating Neural Circuit Activity in Caenorhabditis elegans: A Dissertation
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Authors
Pirri, Jennifer K.Faculty Advisor
Mark J. AlkemaAcademic Program
NeuroscienceDocument Type
Doctoral DissertationPublication Date
2013-03-28Keywords
Dissertations, UMMSCaenorhabditis elegans
Ion Channels
Neurotransmitter Agents
Tyramine
Escape Reaction
Caenorhabditis elegans
ion channels
transmitters
escape behavior
Behavioral Neurobiology
Molecular and Cellular Neuroscience
Metadata
Show full item recordAbstract
Despite the current understanding that sensorimotor circuits function through the action of transmitters and modulators, we have a limited understanding of how the nervous system directs the flow of information necessary to orchestrate complex behaviors. In this dissertation, I aimed to uncover how the nervous system coordinates these behaviors using the escape response of the soil nematode, Caenorhabditis elegans, as a paradigm. C. elegans exhibits a robust escape behavior in response to touch. The worm typically moves forward in a sinusoidal pattern, which is accompanied by exploratory head movements. During escape, the worm quickly retreats by moving backward from the point of stimulus while suppressing its head movements. It was previously shown that the biogenic amine tyramine played an important role in modulating the suppression of these head movmemetns in response to touch. We identified a novel tyramine-gated chloride channel, LGC-55, whose activation by tyramine coordinates motor programs essential for escape. Furthermore, we found that changing the electrical nature of a synapse within the neural circuit for escape behavior can reverse its behavioral output, indicating that the C. elegans connectome is established independent of the nature of synaptic activity or behavioral output. Finally, we characterized a unique mutant, zf35 , which is hyperactive in reversal behavior. This mutant was identified as a gain of function allele of the C. elegans P/Q/N-type voltage-gated calcium channel, UNC-2. Taken together, this work defines tyramine as a genuine neurotransmitter and completes the neural circuit that controls the initial phases of the C. elegans escape response. Additionally, this research further advances the understanding of how the interactions between transmitters and ion channels can precisely regulate neural circuit activity in the execution of a complex behavior.DOI
10.13028/M2GP58Permanent Link to this Item
http://hdl.handle.net/20.500.14038/32015Notes
This dissertation includes 16 videos that are referenced in Chapters II, III, and IV.
Rights
Copyright is held by the author, with all rights reserved.ae974a485f413a2113503eed53cd6c53
10.13028/M2GP58