A differential role for neuropeptides in acute and chronic adaptive responses to alcohol: behavioural and genetic analysis in caenorhabditis elegans
A differential role for neuropeptides in acute and chronic adaptive responses to alcohol: behavioural and genetic analysis in caenorhabditis elegans
Prolonged alcohol consumption in humans followed by abstinence precipitates a withdrawal syndrome consisting of anxiety, agitation and in severe cases, seizures. Withdrawal is relieved by a low dose of alcohol, a negative reinforcement that contributes to alcohol dependency. This phenomenon of ‘withdrawal relief’ provides evidence of an ethanol-induced adaptation which resets the balance of signalling in neural circuits.
We have used this as a criterion to distinguish between direct and indirect ethanol-induced adaptive behavioural responses in C. elegans with the goal of investigating the genetic basis of ethanol-induced neural plasticity. The paradigm employs a ‘food race assay’ which tests sensorimotor performance of animals acutely and chronically treated with ethanol. We describe a multifaceted C. elegans ‘withdrawal syndrome’.
One feature, decrease reversal frequency is not relieved by a low dose of ethanol and most likely results from an indirect adaptation to ethanol caused by inhibition of feeding and a food-deprived behavioural state. However another aspect, an aberrant behaviour consisting of spontaneous deep body bends, did show withdrawal relief and therefore we suggest this is the expression of ethanol-induced plasticity. The potassium channel, slo-1, which is a candidate ethanol effector in C. elegans, is not required for the responses described here.
However a mutant deficient in neuropeptides, egl-3, is resistant to withdrawal (although it still exhibits acute responses to ethanol). This dependence on neuropeptides does not involve the NPY-like receptor npr-1, previously implicated in C. elegans ethanol withdrawal. Therefore other neuropeptide pathways mediate this effect. These data resonate with mammalian studies which report involvement of a number of neuropeptides in chronic responses to alcohol including corticotrophin-releasing-factor (CRF), opioids, tachykinins as well as NPY. This suggests an evolutionarily conserved role for neuropeptides in ethanol-induced plasticity and opens the way for a genetic analysis of the effects of alcohol on a simple model system.
e10422
Mitchell, Philippa
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Mould, Richard
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Dillon, James
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Glautier, Steven
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Andrianakis, Ioannis
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James, Christopher
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Pugh, Amanda
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Holden-Dye, Lindy
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O'Connor, Vincent
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Hart, Anne C.
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3 May 2010
Mitchell, Philippa
480c854d-5575-4a10-a357-647057173611
Mould, Richard
4f405a64-202d-4e3f-830c-65128e7f3da3
Dillon, James
f406e30a-3ad4-4a53-80db-6694bab5e3ed
Glautier, Steven
964468b2-3ad7-40cc-b4be-e35c7dee518f
Andrianakis, Ioannis
130365dc-7914-4b33-87b2-92eca9da10a5
James, Christopher
c181ef38-6aec-4e52-8c57-48899e3534b5
Pugh, Amanda
f9e06897-4986-457d-b85c-f8a3a0f9f5ba
Holden-Dye, Lindy
8032bf60-5db6-40cb-b71c-ddda9d212c8e
O'Connor, Vincent
8021b06c-01a0-4925-9dde-a61c8fe278ca
Hart, Anne C.
792b50d6-557b-4e4d-a0c4-a65f017ce0e1
Mitchell, Philippa, Mould, Richard, Dillon, James, Glautier, Steven, Andrianakis, Ioannis, James, Christopher, Pugh, Amanda, Holden-Dye, Lindy and O'Connor, Vincent
,
Hart, Anne C.
(ed.)
(2010)
A differential role for neuropeptides in acute and chronic adaptive responses to alcohol: behavioural and genetic analysis in caenorhabditis elegans.
PLoS ONE, 5 (5), .
(doi:10.1371/journal.pone.0010422).
Abstract
Prolonged alcohol consumption in humans followed by abstinence precipitates a withdrawal syndrome consisting of anxiety, agitation and in severe cases, seizures. Withdrawal is relieved by a low dose of alcohol, a negative reinforcement that contributes to alcohol dependency. This phenomenon of ‘withdrawal relief’ provides evidence of an ethanol-induced adaptation which resets the balance of signalling in neural circuits.
We have used this as a criterion to distinguish between direct and indirect ethanol-induced adaptive behavioural responses in C. elegans with the goal of investigating the genetic basis of ethanol-induced neural plasticity. The paradigm employs a ‘food race assay’ which tests sensorimotor performance of animals acutely and chronically treated with ethanol. We describe a multifaceted C. elegans ‘withdrawal syndrome’.
One feature, decrease reversal frequency is not relieved by a low dose of ethanol and most likely results from an indirect adaptation to ethanol caused by inhibition of feeding and a food-deprived behavioural state. However another aspect, an aberrant behaviour consisting of spontaneous deep body bends, did show withdrawal relief and therefore we suggest this is the expression of ethanol-induced plasticity. The potassium channel, slo-1, which is a candidate ethanol effector in C. elegans, is not required for the responses described here.
However a mutant deficient in neuropeptides, egl-3, is resistant to withdrawal (although it still exhibits acute responses to ethanol). This dependence on neuropeptides does not involve the NPY-like receptor npr-1, previously implicated in C. elegans ethanol withdrawal. Therefore other neuropeptide pathways mediate this effect. These data resonate with mammalian studies which report involvement of a number of neuropeptides in chronic responses to alcohol including corticotrophin-releasing-factor (CRF), opioids, tachykinins as well as NPY. This suggests an evolutionarily conserved role for neuropeptides in ethanol-induced plasticity and opens the way for a genetic analysis of the effects of alcohol on a simple model system.
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Published date: 3 May 2010
Organisations:
Biological Sciences
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Local EPrints ID: 152569
URI: http://eprints.soton.ac.uk/id/eprint/152569
ISSN: 1932-6203
PURE UUID: 10748529-997c-40bb-afeb-46eec278bb13
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Date deposited: 26 May 2010 13:32
Last modified: 14 Mar 2024 02:48
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Author:
Philippa Mitchell
Author:
Richard Mould
Author:
Ioannis Andrianakis
Author:
Christopher James
Author:
Amanda Pugh
Editor:
Anne C. Hart
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