Sex Differences in Acute Neuroinflammation after Experimental Traumatic Brain Injury Are Mediated by Infiltrating Myeloid Cells

The inflammatory response to moderate-severe controlled cortical impact (CCI) in adult male mice has been shown to exhibit greater glial activation compared with age-matched female mice. However, the relative contributions of resident microglia and infiltrating peripheral myeloid cells to this sexua...

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Veröffentlicht in:	Journal of neurotrauma 2019-04, Vol.36 (7), p.1040-1053
Hauptverfasser:	Doran, Sarah J, Ritzel, Rodney M, Glaser, Ethan P, Henry, Rebecca J, Faden, Alan I, Loane, David J
Format:	Artikel
Sprache:	eng
Schlagworte:	Anesthesiology Brain research Cell proliferation Cognitive ability Cortex CYBB protein Flow cytometry Gender differences IL-1β Inflammation Laboratory animals Males Metastases Microglia Myeloid cells Neutrophils Original Phagocytes Phagocytosis Reactive oxygen species Rodents Sex differences Sexual dimorphism Transforming growth factor Transforming growth factor-b Traumatic brain injury Tumor necrosis factor-α
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container_issue	7
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container_title	Journal of neurotrauma
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creator	Doran, Sarah J Ritzel, Rodney M Glaser, Ethan P Henry, Rebecca J Faden, Alan I Loane, David J
description	The inflammatory response to moderate-severe controlled cortical impact (CCI) in adult male mice has been shown to exhibit greater glial activation compared with age-matched female mice. However, the relative contributions of resident microglia and infiltrating peripheral myeloid cells to this sexually dimorphic neuroinflammatory responses remains unclear. Here, 12-week-old male and female C57Bl/6 mice were subjected to sham or CCI, and brain samples were collected at 1, 3, or 7 days post-injury for flow cytometry analysis of cytokines, reactive oxygen species (ROS), and phagocytosis in resident microglia (CD45 CD11b+) versus infiltrating myeloid cells (CD45 CD11b+). Motor (rotarod, cylinder test), affect (open field), and cognitive (Y-maze) function tests also were performed. We demonstrate that male microglia had increased phagocytic activity and higher ROS levels in the non-injured brain, whereas female microglia had increased production of tumor necrosis factor (TNF) α and interleukin (IL)-1β. Following CCI, males showed a significant influx of peripheral myeloid cells by 1 day post-injury followed by proliferation of resident microglia at 3 days. In contrast, myeloid infiltration and microglial activation responses in female CCI mice were significantly reduced. No sex differences were observed for TNFα, IL-1β, transforming growth factor β, NOX2, ROS production, or phagocytic activity in resident microglia or infiltrating cells at any time. However, across these functions, infiltrating myeloid cells were significantly more reactive than resident microglia. Female CCI mice also had improved motor function at 1 day post-injury compared with male mice. Thus, we conclude that sexually dimorphic responses to moderate-severe CCI result from the rapid activation and infiltration of pro-inflammatory myeloid cells to brain in male, but not female, mice.
doi_str_mv	10.1089/neu.2018.6019
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However, the relative contributions of resident microglia and infiltrating peripheral myeloid cells to this sexually dimorphic neuroinflammatory responses remains unclear. Here, 12-week-old male and female C57Bl/6 mice were subjected to sham or CCI, and brain samples were collected at 1, 3, or 7 days post-injury for flow cytometry analysis of cytokines, reactive oxygen species (ROS), and phagocytosis in resident microglia (CD45 CD11b+) versus infiltrating myeloid cells (CD45 CD11b+). Motor (rotarod, cylinder test), affect (open field), and cognitive (Y-maze) function tests also were performed. We demonstrate that male microglia had increased phagocytic activity and higher ROS levels in the non-injured brain, whereas female microglia had increased production of tumor necrosis factor (TNF) α and interleukin (IL)-1β. Following CCI, males showed a significant influx of peripheral myeloid cells by 1 day post-injury followed by proliferation of resident microglia at 3 days. In contrast, myeloid infiltration and microglial activation responses in female CCI mice were significantly reduced. No sex differences were observed for TNFα, IL-1β, transforming growth factor β, NOX2, ROS production, or phagocytic activity in resident microglia or infiltrating cells at any time. However, across these functions, infiltrating myeloid cells were significantly more reactive than resident microglia. Female CCI mice also had improved motor function at 1 day post-injury compared with male mice. 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In contrast, myeloid infiltration and microglial activation responses in female CCI mice were significantly reduced. No sex differences were observed for TNFα, IL-1β, transforming growth factor β, NOX2, ROS production, or phagocytic activity in resident microglia or infiltrating cells at any time. However, across these functions, infiltrating myeloid cells were significantly more reactive than resident microglia. Female CCI mice also had improved motor function at 1 day post-injury compared with male mice. Thus, we conclude that sexually dimorphic responses to moderate-severe CCI result from the rapid activation and infiltration of pro-inflammatory myeloid cells to brain in male, but not female, mice.</abstract><cop>United States</cop><pub>Mary Ann Liebert, Inc</pub><pmid>30259790</pmid><doi>10.1089/neu.2018.6019</doi><tpages>14</tpages><oa>free_for_read</oa></addata></record>
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subjects	Anesthesiology Brain research Cell proliferation Cognitive ability Cortex CYBB protein Flow cytometry Gender differences IL-1β Inflammation Laboratory animals Males Metastases Microglia Myeloid cells Neutrophils Original Phagocytes Phagocytosis Reactive oxygen species Rodents Sex differences Sexual dimorphism Transforming growth factor Transforming growth factor-b Traumatic brain injury Tumor necrosis factor-α
title	Sex Differences in Acute Neuroinflammation after Experimental Traumatic Brain Injury Are Mediated by Infiltrating Myeloid Cells
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