Neonatal Exposure to Sevoflurane Expands the Window of Vulnerability to Adverse Effects of Subsequent Exposure to Sevoflurane and Alters Hippocampal Morphology Via Decitabine-sensitive Mechanisms

Overview

Journal Neurosci Lett

Specialty Neurology

Date 2020 Jul 11

PMID 32650051

Citations 4

Authors

Yunan Lin

Lei Lei

Ling-Sha Ju

Ning Xu

Timothy E Morey

Nikolaus Gravenstein

Jianjun Yang

Anatoly E Martynyuk

Affiliations

Soon will be listed here.

Abstract

Background: Deficiencies in neurocognitive function have been found in late childhood or adolescence in patients who had prolonged and/or repeated early-life general anesthesia. Animal studies suggest that anesthetic-induced impairment in the neuron-specific K-2Cl (Kcc2) Cl exporter expression, which regulates developmental maturation of GABA type A receptor (GABAR) signaling from excitatory to inhibitory, may play a mediating role. We tested whether the DNA methyltransferase (DNMT) inhibitor decitabine ameliorates the anesthetic's adverse effects.

Methods: Sprague-Dawley male rats were injected with vehicle or decitabine 30 min before 2.1 % sevoflurane exposure for 5 h on postnatal day 5 (P5). On P19, P20, or P21, electroencephalography-detectable seizures were measured during 1 h of sevoflurane exposure, followed by collection of the trunk blood and brain tissue samples. Other rats were evaluated for changes in hippocampal CA1 dendrite morphology and gene expressions on ≥ P120.

Results: Rats in the vehicle plus sevoflurane group responded to sevoflurane exposure on P19, P20 or P21 with electroencephalography-detectable seizures and stress-like corticosterone secretion and had altered hippocampal dendrite morphology in adulthood. These rats had expressions of Kcc2 and Dnmt genes downregulated and upregulated, respectively, in the P19 - P21 cortex and hypothalamus and the ≥ P120 hippocampus. All measured parameters in the sevoflurane-exposed rats that were pretreated with decitabine were not different from those in the control group.

Conclusions: Neonatal exposure to sevoflurane sensitizes rats to adverse effects of repeated exposure to the anesthetic. The anesthetic-caused changes in the decitabine-sensitive mechanisms may play a mediating role in the developmental effects of early-life anesthesia.

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