Journal article
Enhanced lithium-induced brain recovery following cranial irradiation is not impeded by inflammation
J Malaterre, CS McPherson, D Denoyer, E Lai, J Hagekyriakou, S Lightowler, K Shudo, M Ernst, DM Ashley, JL Short, G Wheeler, RG Ramsay
Stem Cells Translational Medicine | ALPHAMED PRESS | Published : 2012
Abstract
Radiation-induced brain injury occurs in many patients receiving cranial radiation therapy, and these deleterious effects are most profound in younger patients. Impaired neurocognitive functions in both humans and rodents are associated with inflammation, demyelination, and neural stem cell dysfunction. Here we evaluated the utility of lithium and a synthetic retinoid receptor agonist in reducing damage in a model of brain-focused irradiation in juvenile mice. We found that lithium stimulated brain progenitor cell proliferation and differentiation following cranial irradiation while also preventing oligodendrocyte loss in the dentate gyrus of juvenile mice. In response to inflammation induce..
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Funding Acknowledgements
We thank Dr. A. Peace for performing serum lithium testing in mice. This work was funded in part by the National Health and Medical Research Council of Australia and Cure Cancer Australia. R.G.R., J.M., and M.E. were supported by the National Health and Medical Research Council funding. J.M. was supported in part by Cancer Australia/Cure Cancer Australia, and D.D. was supported by the Cooperative Research Centre for Biomedical Imaging Development.