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Anaesthesia generates neuronal insulin resistance by inducing hypothermia.

Holscher, Christian, van Aalten, Lidy and Sutherland, Calum (2008) Anaesthesia generates neuronal insulin resistance by inducing hypothermia. BMC neuroscience, 9 . p. 100. [Journal article]

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BACKGROUND: Anaesthesia is commonly employed prior to surgical investigations and to permit icv injections in rodents. Indeed it is standard practise in many studies examining the subsequent actions of hormones and growth factors on the brain. Recent evidence that the basal activity of specific intracellular signalling proteins can be affected by anaesthesia prompted us to examine the effect of anaesthesia not only on the basal activity but also the insulin sensitivity of the major insulin signalling pathways. RESULTS: We find that urethane- and ketamine-induced anaesthesia results in rapid activation of the phosphatidylinositol (PI) 3-kinase-protein kinase B (PKB) signalling pathway in the brain, increases tau phosphorylation while at the same time reducing basal activity of the Ras-ERK pathway. Subsequent injection of insulin does not alter the activity of either the PI 3-kinase or ERK signalling pathways, indicating a degree of neuronal molecular insulin resistance. However, if body temperature is maintained during anaesthesia then there is no alteration in the basal activity of these signalling molecules. Subsequent response of both pathways to insulin injection is restored. CONCLUSION: The data is consistent with a hypothermia related alteration in neuronal signalling following anaesthesia, and emphasises the importance of maintaining the body temperature of rodents when monitoring insulin (or growth factor/neurotrophic agent) action in the brain of anesthetised rodents.

Item Type:Journal article
Faculties and Schools:Faculty of Life and Health Sciences
Faculty of Life and Health Sciences > School of Biomedical Sciences
Research Institutes and Groups:Biomedical Sciences Research Institute
Biomedical Sciences Research Institute > Genomic Medicine
ID Code:11233
Deposited By: Dr Christian Holscher
Deposited On:04 Feb 2010 09:35
Last Modified:10 May 2017 09:16

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