Abstract
The commonly used inhaled anesthetic isoflurane has been shown to induce caspase-3 activation. However, the underlying mechanism(s) and targeted intervention(s) remain largely to be determined. Isoflurane may induce caspase-3 activation via causing accumulation of reactive oxygen species (ROS), mitochondrial dysfunction, and reduction in adenosine triphosphate (ATP) levels. Therefore, we performed a hypothesis-generation study to determine whether glucose could attenuate isoflurane-induced caspase-3 activation, ROS accumulation, mitochondrial dysfunction, and ATP reduction in cultured cells. H4 human neuroglioma cells (H4 cells) were treated with 2% isoflurane or the control condition plus saline or 50 mM glucose for 6 or 3 hours. Caspase-3 activation, cell viability, levels of ROS and ATP, and mitochondrial membrane potential were determined at the end of the experiments by Western blot analysis and fluorescence assay. We found that the glucose treatment might attenuate isoflurane-induced caspase-3 activation and reduction of cell viability in H4 cells. Moreover, the glucose treatment mitigated the isoflurane-induced increase in ROS levels and reduction in ATP levels in H4 cells. Unexpectedly, we observed that the glucose treatment might not inhibit the isoflurane-induced decrease in mitochondrial membrane potential in H4 cells. Pending further studies, these results suggested that glucose might attenuate isoflurane-induced caspase-3 activation through a mitochondria-independent reduction in ROS levels and enhancement in ATP levels. These findings have established a system and suggest that it is worth performing more research to further investigate whether glucose can attenuate anesthesia neurotoxicity.
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