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  2. Brain volume and microglial density changes are correlated in a juvenile mouse model of cranial radiation and CSF1R inhibitor treatment

Brain volume and microglial density changes are correlated in a juvenile mouse model of cranial radiation and CSF1R inhibitor treatment

  • NMR Biomed. 2024 Aug 20:e5222. doi: 10.1002/nbm.5222.
Ramy Ayoub 1 2 3 Sabrina Yang 2 Helen Ji 2 Lloyd Fan 2 Steven De Michino 1 4 Donald J Mabbott 5 6 Brian J Nieman 1 2 3 7
Affiliations

Affiliations

  • 1 Department of Medical Biophysics, University of Toronto, Toronto, Ontario, Canada.
  • 2 Mouse Imaging Centre, The Hospital for Sick Children, Toronto, Ontario, Canada.
  • 3 Translational Medicine, The Hospital for Sick Children, Toronto, Ontario, Canada.
  • 4 Princess Margaret Cancer Centre, University Health Network, Toronto, Ontario, Canada.
  • 5 Department of Psychology, University of Toronto, Toronto, Ontario, Canada.
  • 6 Neurosciences and Mental Health Program, The Hospital for Sick Children, Toronto, Ontario, Canada.
  • 7 Ontario Institute for Cancer Research, Toronto, Ontario, Canada.
Abstract

Microglia have been shown to proliferate and become activated following cranial radiotherapy (CRT), resulting in a chronic inflammatory response. We investigated the role of microglia in contributing to widespread volume losses observed in the brain following CRT in juvenile mice. To manipulate microglia, we used low-dose treatment with a highly selective CSF1R inhibitor called PLX5622 (PLX). We hypothesized that alteration of the post-CRT microglia population would lead to changes in brain development outcomes, as evaluated by structural MRI. Wild-type C57BL/6J mice were provided with daily intraperitoneal injections of PLX (25 mg/kg) or vehicle from postnatal day (P)14 to P19. Mice also received whole-brain irradiation (7 Gy) or sham irradiation (0 Gy) at 16 days of age. In one cohort of mice, immunohistochemical assessment in tissue sections was conducted to assess the impact of the selected PLX and CRT doses as well as their combination. In a separate cohort, mice were imaged using MRI at P14 (pretreatment), P19, P23, P42 and P63 in order to assess induced volume changes, which were measured based on structures from a predefined atlas. We observed that PLX and radiation treatments led to sex-specific changes in the microglial cell population. Across treatment groups, MRI-detected anatomical volumes at P19 and P63 were associated with microglia and proliferating microglia densities, respectively. Overall, our study demonstrates that low-dose PLX treatment produces a sex-dependent response in juvenile mice, that manipulation of microglia alters CRT-induced volume changes and that microglia density and MRI-derived volume changes are correlated in this model.

Keywords

CSF1R inhibitor; cranial radiotherapy; microglia; pediatric brain tumors; sex effects.

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