Dcf1 Deficiency Attenuates the Role of Activated Microglia During Neuroinflammation

Dcf1 Deficiency Attenuates the Role of Activated Microglia During Neuroinflammation

Microglia serve as the principal immune cells and play crucial roles in the central nervous system, responding to neuroinflammation via migration and the execution of phagocytosis. Dendritic cell-derived factor 1 (Dcf1) is known to play an important role in neural stem cell differentiation, glioma a...

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Main Authors: Jiao Wang, Jie Li, Qian Wang, Yanyan Kong, Fangfang Zhou, Qian Li, Weihao Li, Yangyang Sun, Yanli Wang, Yihui Guan, Minghong Wu, Tieqiao Wen
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-07-01
Series:Frontiers in Molecular Neuroscience
Subjects:
Dcf1
microglia
neuroinflammation
cytokines
migration
phagocytosis
Online Access:https://www.frontiersin.org/article/10.3389/fnmol.2018.00256/full
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spelling doaj-b87ebb2df76840789bb30f08f135708c2020-11-25T00:40:18ZengFrontiers Media S.A.Frontiers in Molecular Neuroscience1662-50992018-07-011110.3389/fnmol.2018.00256328620Dcf1 Deficiency Attenuates the Role of Activated Microglia During NeuroinflammationJiao Wang0Jie Li1Qian Wang2Yanyan Kong3Fangfang Zhou4Qian Li5Weihao Li6Yangyang Sun7Yanli Wang8Yihui Guan9Minghong Wu10Tieqiao Wen11Laboratory of Molecular Neural Biology, School of Life Sciences, Shanghai University, Shanghai, ChinaLaboratory of Molecular Neural Biology, School of Life Sciences, Shanghai University, Shanghai, ChinaLaboratory of Molecular Neural Biology, School of Life Sciences, Shanghai University, Shanghai, ChinaPositron Emission Computed Tomography Center, Huashan Hospital, Fudan University, Shanghai, ChinaLaboratory of Molecular Neural Biology, School of Life Sciences, Shanghai University, Shanghai, ChinaLaboratory of Molecular Neural Biology, School of Life Sciences, Shanghai University, Shanghai, ChinaLaboratory of Molecular Neural Biology, School of Life Sciences, Shanghai University, Shanghai, ChinaLaboratory of Molecular Neural Biology, School of Life Sciences, Shanghai University, Shanghai, ChinaInstitute of Nanochemistry and Nanobiology, Shanghai University, Shanghai, ChinaPositron Emission Computed Tomography Center, Huashan Hospital, Fudan University, Shanghai, ChinaShanghai Applied Radiation Institute, School of Environmental and Chemical Engineering, Shanghai University, Shanghai, ChinaLaboratory of Molecular Neural Biology, School of Life Sciences, Shanghai University, Shanghai, ChinaMicroglia serve as the principal immune cells and play crucial roles in the central nervous system, responding to neuroinflammation via migration and the execution of phagocytosis. Dendritic cell-derived factor 1 (Dcf1) is known to play an important role in neural stem cell differentiation, glioma apoptosis, dendritic spine formation, and Alzheimer’s disease (AD), nevertheless, the involvement of the Dcf1 gene in the brain immune response has not yet been reported. In the present paper, the RNA-sequencing and function enrichment analysis suggested that the majority of the down-regulated genes in Dcf1-/- (Dcf1-KO) mice are immune-related. In vivo experiments showed that Dcf1 deletion produced profound effects on microglial function, increased the expression of microglial activation markers, such as ionized calcium binding adaptor molecule 1 (Iba1), Cluster of Differentiation 68 (CD68) and translocator protein (TSPO), as well as certain proinflammatory cytokines (Cxcl1, Ccl7, and IL17D), but decreased the migratory and phagocytic abilities of microglial cells, and reduced the expression levels of some other proinflammatory cytokines (Cox-2, IL-1β, IL-6, TNF-α, and Csf1) in the mouse hippocampus. Furthermore, in vitro experiments revealed that in the absence of lipopolysaccharide (LPS), the majority of microglia were ramified and existed in a resting state, with only approximately 10% of cells exhibiting an amoeboid-like morphology, indicative of an activated state. LPS treatment dramatically increased the ratio of activated to resting cells, and Dcf1 downregulation further increased this ratio. These data indicated that Dcf1 deletion mediates neuroinflammation and induces dysfunction of activated microglia, preventing migration and the execution of phagocytosis. These findings support further investigation into the biological mechanisms underlying microglia-related neuroinflammatory diseases, and the role of Dcf1 in the immune response.https://www.frontiersin.org/article/10.3389/fnmol.2018.00256/fullDcf1microglianeuroinflammationcytokinesmigrationphagocytosis
collection DOAJ
language English
format Article
sources DOAJ
author Jiao Wang
Jie Li
Qian Wang
Yanyan Kong
Fangfang Zhou
Qian Li
Weihao Li
Yangyang Sun
Yanli Wang
Yihui Guan
Minghong Wu
Tieqiao Wen
spellingShingle Jiao Wang
Jie Li
Qian Wang
Yanyan Kong
Fangfang Zhou
Qian Li
Weihao Li
Yangyang Sun
Yanli Wang
Yihui Guan
Minghong Wu
Tieqiao Wen
Dcf1 Deficiency Attenuates the Role of Activated Microglia During Neuroinflammation
Frontiers in Molecular Neuroscience
Dcf1
microglia
neuroinflammation
cytokines
migration
phagocytosis
author_facet Jiao Wang
Jie Li
Qian Wang
Yanyan Kong
Fangfang Zhou
Qian Li
Weihao Li
Yangyang Sun
Yanli Wang
Yihui Guan
Minghong Wu
Tieqiao Wen
author_sort Jiao Wang
title Dcf1 Deficiency Attenuates the Role of Activated Microglia During Neuroinflammation
title_short Dcf1 Deficiency Attenuates the Role of Activated Microglia During Neuroinflammation
title_full Dcf1 Deficiency Attenuates the Role of Activated Microglia During Neuroinflammation
title_fullStr Dcf1 Deficiency Attenuates the Role of Activated Microglia During Neuroinflammation
title_full_unstemmed Dcf1 Deficiency Attenuates the Role of Activated Microglia During Neuroinflammation
title_sort dcf1 deficiency attenuates the role of activated microglia during neuroinflammation
publisher Frontiers Media S.A.
series Frontiers in Molecular Neuroscience
issn 1662-5099
publishDate 2018-07-01
description Microglia serve as the principal immune cells and play crucial roles in the central nervous system, responding to neuroinflammation via migration and the execution of phagocytosis. Dendritic cell-derived factor 1 (Dcf1) is known to play an important role in neural stem cell differentiation, glioma apoptosis, dendritic spine formation, and Alzheimer’s disease (AD), nevertheless, the involvement of the Dcf1 gene in the brain immune response has not yet been reported. In the present paper, the RNA-sequencing and function enrichment analysis suggested that the majority of the down-regulated genes in Dcf1-/- (Dcf1-KO) mice are immune-related. In vivo experiments showed that Dcf1 deletion produced profound effects on microglial function, increased the expression of microglial activation markers, such as ionized calcium binding adaptor molecule 1 (Iba1), Cluster of Differentiation 68 (CD68) and translocator protein (TSPO), as well as certain proinflammatory cytokines (Cxcl1, Ccl7, and IL17D), but decreased the migratory and phagocytic abilities of microglial cells, and reduced the expression levels of some other proinflammatory cytokines (Cox-2, IL-1β, IL-6, TNF-α, and Csf1) in the mouse hippocampus. Furthermore, in vitro experiments revealed that in the absence of lipopolysaccharide (LPS), the majority of microglia were ramified and existed in a resting state, with only approximately 10% of cells exhibiting an amoeboid-like morphology, indicative of an activated state. LPS treatment dramatically increased the ratio of activated to resting cells, and Dcf1 downregulation further increased this ratio. These data indicated that Dcf1 deletion mediates neuroinflammation and induces dysfunction of activated microglia, preventing migration and the execution of phagocytosis. These findings support further investigation into the biological mechanisms underlying microglia-related neuroinflammatory diseases, and the role of Dcf1 in the immune response.
topic Dcf1
microglia
neuroinflammation
cytokines
migration
phagocytosis
url https://www.frontiersin.org/article/10.3389/fnmol.2018.00256/full
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