Transcriptional Changes following Long-Term Sensitization Training and In Vivo Serotonin Exposure in Aplysia californica

We used Aplysia californica to compare the transcriptional changes evoked by long-term sensitization training and by a treatment meant to mimic this training, in vivo exposure to serotonin. We focused on 5 candidate plasticity genes which are rapidly up-regulated in the Aplysia genus by in vivo sero...

Descripción completa

Detalles Bibliográficos
Autores principales: Bonnick, Kristine, Bayas, Karla, Belchenko, Dmitry, Cyriac, Ashly, Dove, Michael, Lass, Jamie, McBride, Benora, Calin-Jageman, Irina E., Calin-Jageman, Robert J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3467254/
https://www.ncbi.nlm.nih.gov/pubmed/23056638
http://dx.doi.org/10.1371/journal.pone.0047378
_version_ 1782245773768916992
author Bonnick, Kristine
Bayas, Karla
Belchenko, Dmitry
Cyriac, Ashly
Dove, Michael
Lass, Jamie
McBride, Benora
Calin-Jageman, Irina E.
Calin-Jageman, Robert J.
author_facet Bonnick, Kristine
Bayas, Karla
Belchenko, Dmitry
Cyriac, Ashly
Dove, Michael
Lass, Jamie
McBride, Benora
Calin-Jageman, Irina E.
Calin-Jageman, Robert J.
author_sort Bonnick, Kristine
collection PubMed
description We used Aplysia californica to compare the transcriptional changes evoked by long-term sensitization training and by a treatment meant to mimic this training, in vivo exposure to serotonin. We focused on 5 candidate plasticity genes which are rapidly up-regulated in the Aplysia genus by in vivo serotonin treatment, but which have not yet been tested for regulation during sensitization: CREB1, matrilin, antistasin, eIF3e, and BAT1 homolog. CREB1 was rapidly up-regulated by both treatments, but the regulation following training was transient, falling back to control levels 24 hours after training. This suggests some caution in interpreting the proposed role of CREB1 in consolidating long-term sensitization memory. Both matrilin and eIF3e were up-regulated by in vivo serotonin but not by long-term sensitization training. This suggests that in vivo serotonin may produce generalized transcriptional effects that are not specific to long-term sensitization learning. Finally, neither treatment produced regulation of antistasin or BAT1 homolog, transcripts regulated by in vivo serotonin in the closely related Aplysia kurodai. This suggests either that these transcripts are not regulated by experience, or that transcriptional mechanisms of memory may vary within the Aplysia genus.
format Online
Article
Text
id pubmed-3467254
institution National Center for Biotechnology Information
language English
publishDate 2012
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-34672542012-10-10 Transcriptional Changes following Long-Term Sensitization Training and In Vivo Serotonin Exposure in Aplysia californica Bonnick, Kristine Bayas, Karla Belchenko, Dmitry Cyriac, Ashly Dove, Michael Lass, Jamie McBride, Benora Calin-Jageman, Irina E. Calin-Jageman, Robert J. PLoS One Research Article We used Aplysia californica to compare the transcriptional changes evoked by long-term sensitization training and by a treatment meant to mimic this training, in vivo exposure to serotonin. We focused on 5 candidate plasticity genes which are rapidly up-regulated in the Aplysia genus by in vivo serotonin treatment, but which have not yet been tested for regulation during sensitization: CREB1, matrilin, antistasin, eIF3e, and BAT1 homolog. CREB1 was rapidly up-regulated by both treatments, but the regulation following training was transient, falling back to control levels 24 hours after training. This suggests some caution in interpreting the proposed role of CREB1 in consolidating long-term sensitization memory. Both matrilin and eIF3e were up-regulated by in vivo serotonin but not by long-term sensitization training. This suggests that in vivo serotonin may produce generalized transcriptional effects that are not specific to long-term sensitization learning. Finally, neither treatment produced regulation of antistasin or BAT1 homolog, transcripts regulated by in vivo serotonin in the closely related Aplysia kurodai. This suggests either that these transcripts are not regulated by experience, or that transcriptional mechanisms of memory may vary within the Aplysia genus. Public Library of Science 2012-10-09 /pmc/articles/PMC3467254/ /pubmed/23056638 http://dx.doi.org/10.1371/journal.pone.0047378 Text en © 2012 Bonnick et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Bonnick, Kristine
Bayas, Karla
Belchenko, Dmitry
Cyriac, Ashly
Dove, Michael
Lass, Jamie
McBride, Benora
Calin-Jageman, Irina E.
Calin-Jageman, Robert J.
Transcriptional Changes following Long-Term Sensitization Training and In Vivo Serotonin Exposure in Aplysia californica
title Transcriptional Changes following Long-Term Sensitization Training and In Vivo Serotonin Exposure in Aplysia californica
title_full Transcriptional Changes following Long-Term Sensitization Training and In Vivo Serotonin Exposure in Aplysia californica
title_fullStr Transcriptional Changes following Long-Term Sensitization Training and In Vivo Serotonin Exposure in Aplysia californica
title_full_unstemmed Transcriptional Changes following Long-Term Sensitization Training and In Vivo Serotonin Exposure in Aplysia californica
title_short Transcriptional Changes following Long-Term Sensitization Training and In Vivo Serotonin Exposure in Aplysia californica
title_sort transcriptional changes following long-term sensitization training and in vivo serotonin exposure in aplysia californica
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3467254/
https://www.ncbi.nlm.nih.gov/pubmed/23056638
http://dx.doi.org/10.1371/journal.pone.0047378
work_keys_str_mv AT bonnickkristine transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica
AT bayaskarla transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica
AT belchenkodmitry transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica
AT cyriacashly transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica
AT dovemichael transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica
AT lassjamie transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica
AT mcbridebenora transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica
AT calinjagemanirinae transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica
AT calinjagemanrobertj transcriptionalchangesfollowinglongtermsensitizationtrainingandinvivoserotoninexposureinaplysiacalifornica

Ejemplares similares