Progenitor cell injury after irradiation to the developing brain can be modulated by mild hypothermia or hyperthermia |
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| Authors: | Fukuda Aya Fukuda Hirotsugu Jönsson Marie Swanpalmer Janos Hertzman Sven Lannering Birgitta Björk-Eriksson Thomas Màrky Ildikó Blomgren Klas |
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| Affiliation: | The Arvid Carlsson Institute of Neuroscience at the Institute of Clinical Neuroscience, Sahlgrenska Academy, G?teborg University, G?teborg, Sweden. |
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| Abstract: | Ionizing radiation induced acute cell death in the dentate gyrus subgranular zone (SGZ) and the subventricular zone (SVZ). Hypomyelination was also observed. The effects of mild hypothermia and hyperthermia for 4 h after irradiation (IR) were studied in postnatal day 9 rats. One hemisphere was irradiated with a single dose of 8 Gy and animals were randomized to normothermia (rectal temperature 36 degrees C for 4 h), hypothermia (32 degrees C for 4 h) or hyperthermia (39 degrees C for 4 h). Cellular injury, e.g. chromatin condensation and nitrotyrosine formation, appeared to proceed faster when the body temperature was higher. Caspase-3 activation was more pronounced in the hyperthermia group and nuclear translocation of p53 was less pronounced in the hypothermia group 6 h after IR. In the SVZ the loss of nestin-positive progenitors was more pronounced (48%) and the size was smaller (45%) in the hyperthermia group 7 days post-IR. Myelination was not different after hypo- or hyperthermia. This is the first report to demonstrate that hypothermia may be beneficial and that hyperthermia may aggravate the adverse side-effects after radiation therapy to the developing brain. |
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| Keywords: | apoptosis developing brain hyperthermia hypothermia neurogenesis radiation therapy |
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