Publication:
Effects of citicoline administration on synaptic proteins in rapid eye movement sleep-deprived rats

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2022-05-01

Authors

Öcalan, Büşra
CANSEV, MEHMET
KAHVECİ, NEVZAT

Authors

Çakır, Ayşen
Öcalan, Büşra
Koç, Cansu
Suyen, Güldal Güleç
Cansev, Mehmet
Kahveci, Nevzat

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Mashhad Univ Med Sciences

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Abstract

Objective(s): Sleep has a pivotal role in learning-memory and sleep deprivation (SD) negatively affects synaptic functioning. Cytidine-5-diphosphocholine (Citicoline) has been known to improve learning and memory functions. Our objective was to explore the effects of Citicoline on hippocampal and cortical synaptic proteins in rapid eye movement (REM) sleep-deprived rats.Materials and Methods: Rats (n=36) were randomly divided into 6 groups. Environmental control or sleep deprivation was done by placing the rat on a 13 cm diameter platform (Large Platform [LP] group) or on a 6.5 cm diameter platform (REMSD group), respectively, for 96 hours. Rats randomized for controls (Home Cage [HC] group) were followed up in home cages. Rats in each of the REMSD, LP or HC group were randomized to receive either saline (0,9%NaCl) or Citicoline (600 mu mol/kg) intraperitoneally twice a day for four days. After the experiments, rats were sacrificed; their cerebral cortices and hippocampi were dissected for analyzing the levels of pre-synaptic proteins synaptophysin and synapsin I, and the post synaptic density protein-95 (PSD-95) by Western-blotting.Results: Hippocampal levels of PSD-95, but not the pre-synaptic proteins, were reduced by REM sleep deprivation. Citicoline treatment ameliorated the reduction in PSD-95 levels in REM sleep deprived rats. On the other hand, REM sleep deprivation was not found to be significantly effective on pre-or post-synaptic proteins in cerebral cortex.Conclusion: REM sleep deprivation reduces hippocampal PSD-95 levels which are enhanced by Citicoline treatment. These data propose that Citicoline may ameliorate the adverse effects of SD on hippocampal synaptic functioning.

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Plus docosahexaenoic acid, Cdp-choline, Functional recovery, Nerve regeneration, Gene-expression, Deprivation, Memory, Involvement, Metabolites, Plasticity, Citicoline, Postsynaptic density, Protein-95, Rem sleep, Sleep deprivation, Synapsin, Synapsin i, Synaptophysin, Research & experimental medicine, Pharmacology & pharmacy

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