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Susceptibility of consolidated procedural memory to interference is independent of its active task-based retrieval

Author

Listed:
  • Ella Gabitov
  • Arnaud Boutin
  • Basile Pinsard
  • Nitzan Censor
  • Stuart M Fogel
  • Geneviève Albouy
  • Bradley R King
  • Julie Carrier
  • Leonardo G Cohen
  • Avi Karni
  • Julien Doyon

Abstract

Reconsolidation theory posits that upon retrieval, consolidated memories are destabilized and need to be restabilized in order to persist. It has been suggested that experience with a competitive task immediately after memory retrieval may interrupt these restabilization processes leading to memory loss. Indeed, using a motor sequence learning paradigm, we have recently shown that, in humans, interference training immediately after active task-based retrieval of the consolidated motor sequence knowledge may negatively affect its performance levels. Assessing changes in tapping pattern before and after interference training, we also demonstrated that this performance deficit more likely indicates a genuine memory loss rather than an initial failure of memory retrieval. Here, applying a similar approach, we tested the necessity of the hypothetical retrieval-induced destabilization of motor memory to allow its impairment. The impact of memory retrieval on performance of a new motor sequence knowledge acquired during the interference training was also evaluated. Similar to the immediate post-retrieval interference, interference training alone without the preceding active task-based memory retrieval was also associated with impairment of the pre-established motor sequence memory. Performance levels of the sequence trained during the interference training, on the other hand, were impaired only if this training was given immediately after memory retrieval. Noteworthy, an 8-hour interval between memory retrieval and interference allowed to express intact performance levels for both sequences. The current results suggest that susceptibility of the consolidated motor memory to behavioral interference is independent of its active task-based retrieval. Differential effects of memory retrieval on performance levels of the new motor sequence encoded during the interference training further suggests that memory retrieval may influence the way new information is stored by facilitating its integration within the retrieved memory trace. Thus, impairment of the pre-established motor memory may reflect interference from a competing memory trace rather than involve interruption of reconsolidation.

Suggested Citation

  • Ella Gabitov & Arnaud Boutin & Basile Pinsard & Nitzan Censor & Stuart M Fogel & Geneviève Albouy & Bradley R King & Julie Carrier & Leonardo G Cohen & Avi Karni & Julien Doyon, 2019. "Susceptibility of consolidated procedural memory to interference is independent of its active task-based retrieval," PLOS ONE, Public Library of Science, vol. 14(1), pages 1-19, January.
    • Handle: RePEc:plo:pone00:0210876
    DOI: 10.1371/journal.pone.0210876
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    References listed on IDEAS

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    1. Matthew P. Walker & Tiffany Brakefield & J. Allan Hobson & Robert Stickgold, 2003. "Dissociable stages of human memory consolidation and reconsolidation," Nature, Nature, vol. 425(6958), pages 616-620, October.
    2. Daniela Schiller & Marie-H. Monfils & Candace M. Raio & David C. Johnson & Joseph E. LeDoux & Elizabeth A. Phelps, 2010. "Preventing the return of fear in humans using reconsolidation update mechanisms," Nature, Nature, vol. 463(7277), pages 49-53, January.
    3. Simon Trent & Philip Barnes & Jeremy Hall & Kerrie L. Thomas, 2015. "Rescue of long-term memory after reconsolidation blockade," Nature Communications, Nature, vol. 6(1), pages 1-7, November.
    4. Denise J. Cai & Daniel Aharoni & Tristan Shuman & Justin Shobe & Jeremy Biane & Weilin Song & Brandon Wei & Michael Veshkini & Mimi La-Vu & Jerry Lou & Sergio E. Flores & Isaac Kim & Yoshitake Sano & , 2016. "A shared neural ensemble links distinct contextual memories encoded close in time," Nature, Nature, vol. 534(7605), pages 115-118, June.
    5. Karim Nader & Glenn E. Schafe & Joseph E. Le Doux, 2000. "Fear memories require protein synthesis in the amygdala for reconsolidation after retrieval," Nature, Nature, vol. 406(6797), pages 722-726, August.
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