A low concentration of ethanol impairs learning but not motor and sensory behavior in drosophila larvae

Brooks G. Robinson; Sukant Khurana; Jascha B. Pohl; Wen ke Li; Alfredo Ghezzi; Amanda M. Cady; Kristina Najjar; Michael M. Hatch; Ruchita R. Shah; Amar Bhat; Omar Hariri; Kareem B. Haroun; Melvin C. Young; Kathryn Fife; Jeff Hooten; Tuan Tran; Daniel Goan; Foram Desai; Farhan Husain; Ryan M. Godinez; Jeffrey C. Sun; Jonathan Corpuz; Jacxelyn Moran; Allen C. Zhong; William Y. Chen; Nigel S. Atkinson

doi:10.1371/journal.pone.0037394

A low concentration of ethanol impairs learning but not motor and sensory behavior in drosophila larvae

Brooks G. Robinson, Sukant Khurana, Jascha B. Pohl, Wen ke Li, Alfredo Ghezzi, Amanda M. Cady, Kristina Najjar, Michael M. Hatch, Ruchita R. Shah, Amar Bhat, Omar Hariri, Kareem B. Haroun, Melvin C. Young, Kathryn Fife, Jeff Hooten, Tuan Tran, Daniel Goan, Foram Desai, Farhan Husain, Ryan M. GodinezJeffrey C. Sun, Jonathan Corpuz, Jacxelyn Moran, Allen C. Zhong, William Y. Chen, Nigel S. Atkinson

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Abstract

Drosophila melanogaster has proven to be a useful model system for the genetic analysis of ethanol-associated behaviors. However, past studies have focused on the response of the adult fly to large, and often sedating, doses of ethanol. The pharmacological effects of low and moderate quantities of ethanol have remained understudied. In this study, we tested the acute effects of low doses of ethanol (~7 mM internal concentration) on Drosophila larvae. While ethanol did not affect locomotion or the response to an odorant, we observed that ethanol impaired associative olfactory learning when the heat shock unconditioned stimulus (US) intensity was low but not when the heat shock US intensity was high. We determined that the reduction in learning at low US intensity was not a result of ethanol anesthesia since ethanol-treated larvae responded to the heat shock in the same manner as untreated animals. Instead, low doses of ethanol likely impair the neuronal plasticity that underlies olfactory associative learning. This impairment in learning was reversible indicating that exposure to low doses of ethanol does not leave any long lasting behavioral or physiological effects.

Original language	English (US)
Article number	e37394
Journal	PloS one
Volume	7
Issue number	5
DOIs	https://doi.org/10.1371/journal.pone.0037394
State	Published - May 18 2012
Externally published	Yes

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Robinson, B. G., Khurana, S., Pohl, J. B., Li, W. K., Ghezzi, A., Cady, A. M., Najjar, K., Hatch, M. M., Shah, R. R., Bhat, A., Hariri, O., Haroun, K. B., Young, M. C., Fife, K., Hooten, J., Tran, T., Goan, D., Desai, F., Husain, F., ... Atkinson, N. S. (2012). A low concentration of ethanol impairs learning but not motor and sensory behavior in drosophila larvae. PloS one, 7(5), Article e37394. https://doi.org/10.1371/journal.pone.0037394

Robinson, BG, Khurana, S, Pohl, JB, Li, WK, Ghezzi, A, Cady, AM, Najjar, K, Hatch, MM, Shah, RR, Bhat, A, Hariri, O, Haroun, KB, Young, MC, Fife, K, Hooten, J, Tran, T, Goan, D, Desai, F, Husain, F, Godinez, RM, Sun, JC, Corpuz, J, Moran, J, Zhong, AC, Chen, WY & Atkinson, NS 2012, 'A low concentration of ethanol impairs learning but not motor and sensory behavior in drosophila larvae', PloS one, vol. 7, no. 5, e37394. https://doi.org/10.1371/journal.pone.0037394

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abstract = "Drosophila melanogaster has proven to be a useful model system for the genetic analysis of ethanol-associated behaviors. However, past studies have focused on the response of the adult fly to large, and often sedating, doses of ethanol. The pharmacological effects of low and moderate quantities of ethanol have remained understudied. In this study, we tested the acute effects of low doses of ethanol (~7 mM internal concentration) on Drosophila larvae. While ethanol did not affect locomotion or the response to an odorant, we observed that ethanol impaired associative olfactory learning when the heat shock unconditioned stimulus (US) intensity was low but not when the heat shock US intensity was high. We determined that the reduction in learning at low US intensity was not a result of ethanol anesthesia since ethanol-treated larvae responded to the heat shock in the same manner as untreated animals. Instead, low doses of ethanol likely impair the neuronal plasticity that underlies olfactory associative learning. This impairment in learning was reversible indicating that exposure to low doses of ethanol does not leave any long lasting behavioral or physiological effects.",

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AU - Desai, Foram

AU - Husain, Farhan

AU - Godinez, Ryan M.

AU - Sun, Jeffrey C.

AU - Corpuz, Jonathan

AU - Moran, Jacxelyn

AU - Zhong, Allen C.

AU - Chen, William Y.

AU - Atkinson, Nigel S.

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N2 - Drosophila melanogaster has proven to be a useful model system for the genetic analysis of ethanol-associated behaviors. However, past studies have focused on the response of the adult fly to large, and often sedating, doses of ethanol. The pharmacological effects of low and moderate quantities of ethanol have remained understudied. In this study, we tested the acute effects of low doses of ethanol (~7 mM internal concentration) on Drosophila larvae. While ethanol did not affect locomotion or the response to an odorant, we observed that ethanol impaired associative olfactory learning when the heat shock unconditioned stimulus (US) intensity was low but not when the heat shock US intensity was high. We determined that the reduction in learning at low US intensity was not a result of ethanol anesthesia since ethanol-treated larvae responded to the heat shock in the same manner as untreated animals. Instead, low doses of ethanol likely impair the neuronal plasticity that underlies olfactory associative learning. This impairment in learning was reversible indicating that exposure to low doses of ethanol does not leave any long lasting behavioral or physiological effects.

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A low concentration of ethanol impairs learning but not motor and sensory behavior in drosophila larvae

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