Learning to learn : Theta oscillations predict new learning, which enhances related learning and neurogenesis
Nokia, M., Sisti, H. M., Choksi, M. R., & Shors, T. J. (2012). Learning to learn : Theta oscillations predict new learning, which enhances related learning and neurogenesis. PLoS One, 7(2), Article e31375. https://doi.org/10.1371/journal.pone.0031375
Julkaistu sarjassa
PLoS OnePäivämäärä
2012Oppiaine
PsykologiaMonitieteinen aivotutkimuskeskusHyvinvoinnin tutkimuksen yhteisöPsychologyCentre for Interdisciplinary Brain ResearchSchool of WellbeingTekijänoikeudet
© 2012 Nokia et al.
Animals in the natural world continuously encounter learning experiences of varying degrees of novelty. New neurons in the hippocampus are especially responsive to learning associations between novel events and more cells survive if a novel and challenging task is learned. One might wonder whether new neurons would be rescued from death upon each new learning experience or whether there is an internal control system that limits the number of cells that are retained as a function of learning. In this experiment, it was hypothesized that learning a task that was similar in content to one already learned previously would not increase cell survival. We further hypothesized that in situations in which the cells are rescued hippocampal theta oscillations (3–12 Hz) would be involved and perhaps necessary for increasing cell survival. Both hypotheses were disproved. Adult male Sprague-Dawley rats were trained on two similar hippocampus-dependent tasks, trace and very-long delay eyeblink conditioning, while recording hippocampal local-field potentials. Cells that were generated after training on the first task were labeled with bromodeoxyuridine and quantified after training on both tasks had ceased. Spontaneous theta activity predicted performance on the first task and the conditioned stimulus induced a theta-band response early in learning the first task. As expected, performance on the first task correlated with performance on the second task. However, theta activity did not increase during training on the second task, even though more cells were present in animals that had learned. Therefore, as long as learning occurs, relatively small changes in the environment are sufficient to increase the number of surviving neurons in the adult hippocampus and they can do so in the absence of an increase in theta activity. In conclusion, these data argue against an upper limit on the number of neurons that can be rescued from death by learning.
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Public Library of ScienceISSN Hae Julkaisufoorumista
1932-6203Asiasanat
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https://converis.jyu.fi/converis/portal/detail/Publication/21422414
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The role of the hippocampal theta activity in classical eyeblink conditioning in rabbits
Nokia, Miriam (University of Jyväskylä, 2009) -
Hippocampal theta (3-8 Hz) activity during classical eyeblink conditioning in rabbits
Nokia, Miriam; Penttonen, Markku; Korhonen, Tapani; Wikgren, Jan (Elsevier, 2008)In 1978, Berry and Thompson showed that the amount of theta (3–8 Hz) activity in the spontaneous hippocampal EEG predicted learning rate in subsequent eyeblink conditioning in rabbits. More recently, the absence of theta ... -
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Hippocampal theta activity is selectively associated with contingency detection but not discrimination in rabbit discrimination-reversal eyeblink conditioning
Nokia, Miriam; Wikgren, Jan (Wiley, 2010)The relative power of the hippocampal theta-band (∼6 Hz) activity (theta ratio) is thought to reflect a distinct neural state and has been shown to affect learning rate in classical eyeblink conditioning in rabbits. We ... -
Distinct Hippocampal Oscillation Dynamics in Trace Eyeblink Conditioning Task for Retrieval and Consolidation of Associations
Kim, Kayeon; Nokia, Miriam S.; Palva, Satu (Society for Neuroscience, 2024)Trace eyeblink conditioning (TEBC) has been widely used to study associative learning in both animals and humans. In this paradigm, conditioned responses (CRs) to conditioned stimuli (CS) serve as a measure for retrieving ...
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