Irradiation-induced injury to the juvenile brain -Roles of sex and inflammation
Abstract
Radiotherapy is commonly used in the treatment of pediatric malignancies, but unfortunately it is associated with negative side effects, both long-term and short-term. Negative side effects following cranial irradiation involve intellectual impairments, where gender and age at treatment are important factors for the outcome. Younger age at diagnosis and female gender are associated with more severe late effects. We investigated sex-dependent differences in the response to cranial irradiation both acutely and long-term, in the presence or absence of lipopolysaccharide-induced inflammation.
Differences in the response to irradiation (IR) between the sexes were detected in the acute phase, for proliferation and cell death, in the hippocampus and in the corpus callosum. Looking at the long-term effects of IR we show that females display a more pronounced lack of growth in both the granule cell layer of the hippocampus as well as in the corpus callosum. We also show that females are more susceptible to IR, as judged by reduced proliferation and neurogenesis in the hippocampus, and reduced oligodendrogenesis in the corpus callosum, compared to males. At the behavior level, we show using the IntelliCage setup that learning and memory are impaired after one single dose of 8 Gy, more so in females. Female mice also display a more anxious behavior in the open field and elevated plus maze compared to their male counterparts.
Pre-treatment with LPS prior to IR reveals a sex-dependent difference, where females display a higher general inflammatory response and caspase-3-dependent cell death compared to males in the acute phase. We further show that LPS prior to IR sensitizes the brain in both male and female mice long-term. LPS-treated animals display a more pronounced lack of growth of the GCL and reduced hippocampal proliferation and neurogenesis. We also show that microglia density is highly up-regulated in the DG four months post-IR in both vehicle- and LPS-treated female mice.
In conclusion, female mice are more susceptible to IR which is consistent with clinical observations. This demonstrates that gender is an important factor to take into consideration in both the rodent and human brain. We also show that an ongoing inflammation at the time of IR aggravates the injury, which may enhance cognitive deficits in pediatric patients undergoing radiotherapy.
Parts of work
I. Karolina Roughton, Marie Kalm, Klas Blomgren
Sex-dependent differences in behavior and hippocampal neurogenesis after irradiation to the young mouse brain
European Journal of Neuroscience (2012) 36, 2763-2772, ::doi::10.1111/j.1460-9568.2012.08197.x II. Karolina Roughton, Martina Boström, Marie Kalm, Klas Blomgren
Irradiation to the young mouse brain impaired white matter growth more in females than in males
Cell Death and Disease (2013), in press ::doi::10.1038/cddis.2013.423 III. Karolina Roughton, Ulf Andreasson, Klas Blomgren, Marie Kalm
Lipopolysaccharide-induced inflammation aggravates irradiation-induced injury to the young mouse brain
Developmental Neuroscience (2013), Epub Aug 20
::doi::10.1159/000353820 IV. Marie Kalm*, Karolina Roughton*, Klas Blomgren
Lipopolysaccharide sensitized male and female juvenile brains to ionizing radiation
Submitted manuscript
*these authors contributed equally
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Neuroscience and Physiology. Department of Clinical Neuroscience and Rehabilitation
Disputation
Torsdagen den 5 december 2013, kl. 13.00, Hörsal Arvid Carlsson, Academicum, Medicinaregatan 3
Date of defence
2013-12-05
karolina.roughton@neuro.gu.se
Date
2013-11-14Author
Roughton, Karolina
Keywords
Cranial radiotherapy
sex
inflammation
neurogenesis
dentate gyrus
corpus callosum
microglia
IntelliCage
LPS
open field
elevated plus maze
Publication type
Doctoral thesis
ISBN
978-91-628-8836-7
Language
eng