Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.

Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.

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In this research, we investigated how alcohol modulates the simplest form of learning, habituation, in Caenorhabditis elegans. We used our high throughput Multi-Worm Tracker to conduct a large scale study of more than 21,000 wild-type worms to assess the effects of different concentrations of alcoho...

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Main Authors: Nikolas Kokan, Conny Lin, Alvaro Luna, Joani Viliunas, Catharine H Rankin
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2025-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0315069
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author Nikolas Kokan
Conny Lin
Alvaro Luna
Joani Viliunas
Catharine H Rankin
author_facet Nikolas Kokan
Conny Lin
Alvaro Luna
Joani Viliunas
Catharine H Rankin
author_sort Nikolas Kokan
collection DOAJ
description In this research, we investigated how alcohol modulates the simplest form of learning, habituation, in Caenorhabditis elegans. We used our high throughput Multi-Worm Tracker to conduct a large scale study of more than 21,000 wild-type worms to assess the effects of different concentrations of alcohol on habituation of the well-characterized tap withdrawal response. We found that the effect of alcohol on habituation of this reversal response to a repeated mechanosensory stimulus (taps) differed depending on the component of the reversal response assessed. Interestingly, when we examined habituation of response probability on and off alcohol we discovered that alcohol switched the predominant response to tap from a backward reversal to a brief forward movement. Because the large conductance potassium (BK) channel has been shown to be important for the effect of alcohol on behaviour in a variety of organisms, including C. elegans, we investigated whether the C. elegans BK channel ortholog, SLO-1, mediated the effects of alcohol on habituation. We tested several different strains of worms with mutations in slo-1 along with wild-type controls; null mutations in slo-1 made animals resistant to alcohol induced changes in habituation. However, a mutation in the putative ethanol binding site on SLO-1 did not disrupt the impact of ethanol on habituation. Finally, by degrading SLO-1 in different parts of the nervous system we found that the function of SLO-1 in ethanol's impact on habituation is likely distributed throughout the neural circuit that responds to tap. Based on these results, our main conclusions are 1) ethanol is not a general facilitator or inhibitor of habituation but rather a complex modulator, 2) SLO-1 is critical for the effect of ethanol on habituation, 3) ethanol is interacting (directly or indirectly) with SLO-1 through a novel unidentified mechanism to influence how animals respond to repeated taps.
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spelling doaj-art-db652ed2e4b04b27b89c74a037ab11d32025-08-20T02:39:59ZengPublic Library of Science (PLoS)PLoS ONE1932-62032025-01-01206e031506910.1371/journal.pone.0315069Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.Nikolas KokanConny LinAlvaro LunaJoani ViliunasCatharine H RankinIn this research, we investigated how alcohol modulates the simplest form of learning, habituation, in Caenorhabditis elegans. We used our high throughput Multi-Worm Tracker to conduct a large scale study of more than 21,000 wild-type worms to assess the effects of different concentrations of alcohol on habituation of the well-characterized tap withdrawal response. We found that the effect of alcohol on habituation of this reversal response to a repeated mechanosensory stimulus (taps) differed depending on the component of the reversal response assessed. Interestingly, when we examined habituation of response probability on and off alcohol we discovered that alcohol switched the predominant response to tap from a backward reversal to a brief forward movement. Because the large conductance potassium (BK) channel has been shown to be important for the effect of alcohol on behaviour in a variety of organisms, including C. elegans, we investigated whether the C. elegans BK channel ortholog, SLO-1, mediated the effects of alcohol on habituation. We tested several different strains of worms with mutations in slo-1 along with wild-type controls; null mutations in slo-1 made animals resistant to alcohol induced changes in habituation. However, a mutation in the putative ethanol binding site on SLO-1 did not disrupt the impact of ethanol on habituation. Finally, by degrading SLO-1 in different parts of the nervous system we found that the function of SLO-1 in ethanol's impact on habituation is likely distributed throughout the neural circuit that responds to tap. Based on these results, our main conclusions are 1) ethanol is not a general facilitator or inhibitor of habituation but rather a complex modulator, 2) SLO-1 is critical for the effect of ethanol on habituation, 3) ethanol is interacting (directly or indirectly) with SLO-1 through a novel unidentified mechanism to influence how animals respond to repeated taps.https://doi.org/10.1371/journal.pone.0315069
spellingShingle Nikolas Kokan
Conny Lin
Alvaro Luna
Joani Viliunas
Catharine H Rankin
Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.
PLoS ONE
title Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.
title_full Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.
title_fullStr Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.
title_full_unstemmed Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.
title_short Ethanol alters mechanosensory habituation in C. elegans by way of the BK potassium channel through a novel mechanism.
title_sort ethanol alters mechanosensory habituation in c elegans by way of the bk potassium channel through a novel mechanism
url https://doi.org/10.1371/journal.pone.0315069
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AT connylin ethanolaltersmechanosensoryhabituationincelegansbywayofthebkpotassiumchannelthroughanovelmechanism
AT alvaroluna ethanolaltersmechanosensoryhabituationincelegansbywayofthebkpotassiumchannelthroughanovelmechanism
AT joaniviliunas ethanolaltersmechanosensoryhabituationincelegansbywayofthebkpotassiumchannelthroughanovelmechanism
AT catharinehrankin ethanolaltersmechanosensoryhabituationincelegansbywayofthebkpotassiumchannelthroughanovelmechanism

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