Cellular signalling pathways involved in thermoprotection of neural ciruit function in the locust.
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Authors
Armstrong, Gary
Date
2009-08-27T21:51:54Z
Type
thesis
Language
eng
Keyword
Neurobiology , Neurophysiology
Alternative Title
Abstract
Environmental temperature is arguably one of the most important abiotic physical factors
affecting insect behaviour. Temperature affects virtually all physiological processes
including those that regulate nervous system function. It is therefore not surprising that
animals have evolved adaptations that confer tolerance to heat stress and allow for
continued behaviour as ambient temperature fluctuates. Most animals have central
nervous system (CNS) responses to heat shock (HS) preconditioning which extend the
thermal operating range of neural circuits during exposure to extreme heat. It is unclear how HS preconditioning confers CNS thermotolerance. I used the migratory locust
(Locusta migratoria), an animal that inhabits environments that can have large
fluctuations in ambient temperature daily, to examine how neuronal circuits cope with
temperatures stress. Using the ventilatory central pattern generator (vCPG) as a model
circuit I was able to address how the CNS switches on adaptations which provide
protection against heat stress. vCPG thermotolerance was manifested as an increase in the thermal operating range and a decrease in the length of time required to recover vCPG activity when temperature stress was removed. I investigated the octopaminergic (OA/cAMP/PKA) and nitrergic (NO/cGMP/PKG) signalling pathways and tested their involvement in conferring thermotolerance to the vCPG during heat stress. I found that long applications of octopamine, or increased adenylate cyclase activity generated vCPG thermotolerance and was dependent upon transcription and translation. In addition I found that HS-treated locust had significantly reduced nitric oxide (NO) production during heat stress, and when I pharmacologically reduced PKG activity vCPG thermotolerance was generated. However, unlike octopamine treatment thermotolerance could be observed within minutes following PKG inhibition. Thus I conclude that the octopaminergic and nitrergic pathways coordinate long- and short-term protective modulation of the locust CNS.
Description
Thesis (Ph.D, Biology) -- Queen's University, 2009-08-27 16:11:09.581
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