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Literature DB >> 28234229

A saturation hypothesis to explain both enhanced and impaired learning with enhanced plasticity.

Td Barbara Nguyen-Vu^1,2, Grace Q Zhao¹, Subhaneil Lahiri³, Rhea R Kimpo¹, Hanmi Lee¹, Surya Ganguli^1,3, Carla J Shatz^1,4, Jennifer L Raymond¹.

Abstract

Across many studies, animals with enhanced synaptic plasticity exhibit either enhanced or impaired learning, raising a conceptual puzzle: how enhanced plasticity can yield opposite learning outcomes? Here, we show that the recent history of experience can determine whether mice with enhanced plasticity exhibit enhanced or impaired learning in response to the same training. Mice with enhanced cerebellar LTD, due to double knockout (DKO) of MHCI H2-Kb/H2-Db (KbDb-/-), exhibited oculomotor learning deficits. However, the same mice exhibited enhanced learning after appropriate pre-training. Theoretical analysis revealed that synapses with history-dependent learning rules could recapitulate the data, and suggested that saturation may be a key factor limiting the ability of enhanced plasticity to enhance learning. Optogenetic stimulation designed to saturate LTD produced the same impairment in WT as observed in DKO mice. Overall, our results suggest that the recent history of activity and the threshold for synaptic plasticity conspire to effect divergent learning outcomes.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: cerebellum; learning & memory; mouse; neuroscience; synaptic plasticity

Mesh：

Year: 2017 PMID： 28234229 PMCID： PMC5386593 DOI： 10.7554/eLife.20147

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.140

68 in total

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