Abstract
BackgroundIsoflurane can lead to neuron damage to the developing brain, resulting in learning and memory disability. The aim of this study was to investigate the role of miR-142-5p on isoflurane-induced neurological impairment.MethodsThe Morris water maze (MWM) test was performed to evaluate spatial learning and memory of rats. The expression level of miR-142-5p was measured using qRT-PCR. MTT assay was used to calculate the viability of hippocampal neuronal cells. The cell apoptosis was analyzed using Flow cytometric assay.ResultsIsoflurane treatment led to the increase of neurological function score and escape latency, and the reduction of time spent in the original quadrant in rats. The expression level of miR-142-5p was increased significantly in isoflurane-treated rats. MiR-142-5p downregulation protected against isoflurane-induced neurological impairment, which was reflected by the decrease of neurological function score and escape latency, and the increase of time spent in the original quadrant. In vitro, downregulation of miR-142-5p alleviated isoflurane-induced neuron cell viability inhibition, and relieved isoflurane-induced cell apoptosis.ConclusionsMiR-142-5p downregulation plays a neuroprotective role in protecting against isoflurane-induced neurological impairment through regulating neuron cell viability and apoptosis. It provides a theoretical basis for the investigation of the mechanism underlying the effect on isoflurane-induced neurological impairment.
Highlights
Isoflurane is a common inhaled anesthetic during surgical procedure [1]
It was found that the escape latency was significantly enhanced in isoflurane group compared with the control group, whereas the time in the original quadrant was significantly reduced by isoflurane treatment (P < 0.001, Fig. 1d-e)
These results indicated that isoflurane treatment can lead to impaired learning and memory, and the isoflurane-induced neuron injury model in rats was successfully established
Summary
It is reported that the use of isoflurane can lead to neuron damage on the developing brain, resulting in learning, writing and reading disability [2, 3]. Animal studies have shown that isoflurane application contributes to neuron cell apoptosis, which in turn leads to cognitive impairment of rats [4, 5]. MiRNAs have shown potential effect for the management of neurological diseases, including neuron injury induced by anesthesia [10,11,12]. Wu et al have suggested that downregulation of miR-448 plays an important role in improving. Isoflurane can lead to neuron damage to the developing brain, resulting in learning and memory disability. The aim of this study was to investigate the role of miR-142-5p on isoflurane-induced neurological impairment
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