Sevoflurane induces cognitive impairment in young mice via autophagy

Sevoflurane induces cognitive impairment in young mice via autophagy

Anesthesia may induce neurotoxicity and neurocognitive impairment in young mice. However, the underlying mechanism remains largely to be determined. Meanwhile, autophagy is involved in brain development and contributes to neurodegenerative diseases. We, therefore, set out to determine the effects of...

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Bibliographic Details
Published in:PloS one Vol. 14; no. 5; p. e0216372
Main Authors: Wang, Xiaoning, Dong, Yuanlin, Zhang, Yiying, Li, Tianzuo, Xie, Zhongcong
Format: Journal Article
Language:English
Published: United States Public Library of Science 20-05-2019
Public Library of Science (PLoS)
Subjects:
Activation
Anesthesia
Anesthesia, Inhalation - adverse effects
Anesthesiology
Anesthetic gases
Animal cognition
Animals
Apoptosis
Autophagic Cell Death - drug effects
Autophagy
Biology and Life Sciences
Brain
Brain research
Cell death
Central nervous system agents
Cognition
Cognitive ability
Cognitive Dysfunction - chemically induced
Cognitive Dysfunction - metabolism
Cognitive Dysfunction - pathology
Cognitive Dysfunction - physiopathology
Complications and side effects
Critical care
Dosage and administration
Gender differences
Hippocampus
Hippocampus - metabolism
Hippocampus - pathology
Hippocampus - physiopathology
Hospitals
Impairment
Laboratory rats
Maze Learning - drug effects
Medical research
Medical schools
Medicine
Medicine and Health Sciences
Mice
Microtubule-Associated Proteins - metabolism
Nervous system diseases
Neurodegenerative diseases
Neurological diseases
Neurotoxicity
Neurotoxicity syndromes
Pain
Phagocytosis
Physical Sciences
Proteins
Research and Analysis Methods
Risk factors
Rodents
Sequestosome-1 Protein - metabolism
Sevoflurane
Sevoflurane - adverse effects
Sevoflurane - pharmacology
Studies
Western blotting
United States
Beijing China
United States > US
Massachusetts
China
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Summary:Anesthesia may induce neurotoxicity and neurocognitive impairment in young mice. However, the underlying mechanism remains largely to be determined. Meanwhile, autophagy is involved in brain development and contributes to neurodegenerative diseases. We, therefore, set out to determine the effects of sevoflurane on autophagy in the hippocampus of young mice and on cognitive function in the mice. Six day-old mice received 3% sevoflurane, for two hours daily, on postnatal days (P) 6, 7 and 8. We then decapitated the mice and harvested the hippocampus of the young mice at P8. The level of LC3, the ratio of LC3-II to LC3-I, and SQSTM1/p62 level associated with the autophagy in the hippocampus of the mice were assessed by using Western blotting. We used different groups of mice for behavioral testing via the Morris Water Maze from P31 to P37. The anesthetic sevoflurane increased the level of LC3-II and ratio of LC3-II/LC3-I, decreased the p62 level in the hippocampus of the young mice, and induced cognitive impairment in the mice. 3-Methyladenine, the inhibitor of autophagy, attenuated the activation of autophagy and ameliorated the cognitive impairment induced by sevoflurane in the young mice. These data showed that sevoflurane anesthesia might induce cognitive impairment in the young mice via activation of autophagy in the hippocampus of the young mice. These findings from the proof of concept studies have established a system and suggest the role of autophagy in anesthesia neurotoxicity and cognitive impairment in the young mice, pending further investigation.
Bibliography:Competing Interests: The authors have declared that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0216372