Novel role of NCoR1 in impairing spatial memory through the mediation of a novel interacting protein DEC2
Kuang-Min Cheng, Wei-Lun Hsu, Yun-Li Ma, Yen-Chen Liu, Eminy H. Y. Lee

TL;DR
The paper shows that NCoR1 and a new protein DEC2 negatively regulate spatial memory formation by suppressing key proteins involved in long-term memory.
Contribution
The study identifies DEC2 as a novel interacting protein of NCoR1 and reveals their roles in spatial memory regulation.
Findings
NCoR1 and DEC2 suppress BDNF, integrin α3, and SGK1 expression through C/EBPα binding.
NCoR1 conditional knockout mice show enhanced spatial memory.
BDNF, integrin α3, and SGK1 are involved in long-term memory formation but not short-term memory.
Abstract
Long-term memory formation requires de novo RNA and protein synthesis. Using differential display PCR, we found that the NCoR1 cDNA fragment is differentially expressed between fast learners and slow learners, with fast learners showing a lower expression level than slow learners in the water maze learning task. Fast learners also show lower NCoR1 mRNA and protein expression levels. In addition, spatial training decreases both NCoR1 mRNA and protein expression, whereas NCoR1 conditional knockout (cKO) mice show enhanced spatial memory. In studying the molecular mechanism, we found that spatial training decreases the association between NCoR1 and DEC2. Both NCoR1 and DEC2 suppress the expression of BDNF, integrin α3 and SGK1 through C/EBPα binding to their DNA promoters, but overexpression of DEC2 in NCoR1 cKO mice rescues the decreased expression of these proteins compared with NCoR1…
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Taxonomy
TopicsSignaling Pathways in Disease · Neuroscience and Neuropharmacology Research · RNA Research and Splicing
