Salvianolic acid B promotes microglial M2-polarization and rescues neurogenesis in stress-exposed mice

•CMS-induced M1 microglia contribute to neuroinflammatory and inhibit neurogenesis.•SalB rebalances the dysregulation of cytokines by regulating microglial phenotype.•M2 microglia reversed the CMS-induced deficits in neurogenesis and behaviors.•Targeting microglial phenotypes may represent a new str...

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Veröffentlicht in:	Brain, behavior, and immunity behavior, and immunity, 2017-11, Vol.66, p.111-124
Hauptverfasser:	Zhang, Jinqiang, Xie, Xiaofang, Tang, Mingming, Zhang, Jing, Zhang, Boyang, Zhao, Qiuying, Han, Yue, Yan, Wan, Peng, Cheng, You, Zili
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Benzofurans - administration & dosage Cerebral Cortex - drug effects Cerebral Cortex - physiopathology Cytokine Depression Depression - complications Depression - physiopathology Depression - prevention & control Depressive Disorder - complications Depressive Disorder - physiopathology Depressive Disorder - prevention & control Hippocampus - drug effects Hippocampus - physiopathology Inflammation - complications Inflammation - metabolism Inflammation Mediators - metabolism Male Mice, Inbred C57BL Microglia Microglia - drug effects Microglia - metabolism Microglia - physiology Neurogenesis Neurogenesis - drug effects Phenotype Salvianolic acid B Stress, Psychological - complications Stress, Psychological - physiopathology
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creator	Zhang, Jinqiang Xie, Xiaofang Tang, Mingming Zhang, Jing Zhang, Boyang Zhao, Qiuying Han, Yue Yan, Wan Peng, Cheng You, Zili
description	•CMS-induced M1 microglia contribute to neuroinflammatory and inhibit neurogenesis.•SalB rebalances the dysregulation of cytokines by regulating microglial phenotype.•M2 microglia reversed the CMS-induced deficits in neurogenesis and behaviors.•Targeting microglial phenotypes may represent a new strategy for depression therapy. Although accumulating evidence suggests that activated microglia are associated with deficits in neurogenesis and contribute to the physiopathology of major depressive disorder, the role of microglia in treating depression remains poorly understood. Our previous study showed that salvianolic acid (SalB) has the regulation of neuroinflammatory responses and antidepressant-like effects. Here, we hypothesized that SalB’s therapeutic effects occur because it modulates microglial phenotypes that are associated with neurogenesis. To test this hypothesis, we treated CMS-exposed C57BL/6 mice with SalB (20mg/kg, intraperitoneally, once daily) for 3weeks and investigated microglial phenotypic profiles and hippocampal neurogenesis. The results showed that the SalB treatment skewed M1 microglial polarization toward M2 activation in the hippocampus and cortex and remedied CMS-induced deficits in hippocampal neurogenesis. SalB (40µM) inhibited LPS-stimulated microglial M1 activation as well as induced M2 activation in vitro, and the cultured microglia with the SalB treatment showed enhanced neural precursor cell proliferation, differentiation, and survival. SalB treatment also ameliorated the depressive-like behaviors of the CMS-treated mice in sucrose preference, forced swimming, and tail suspension tests. These findings suggest a possible antidepressive mechanism for anti-inflammatory agents that is correlated with microglial polarization and hippocampal neurogenesis and which may provide a new microglia-targeted strategy for depression therapy.
doi_str_mv	10.1016/j.bbi.2017.07.012
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Although accumulating evidence suggests that activated microglia are associated with deficits in neurogenesis and contribute to the physiopathology of major depressive disorder, the role of microglia in treating depression remains poorly understood. Our previous study showed that salvianolic acid (SalB) has the regulation of neuroinflammatory responses and antidepressant-like effects. Here, we hypothesized that SalB’s therapeutic effects occur because it modulates microglial phenotypes that are associated with neurogenesis. To test this hypothesis, we treated CMS-exposed C57BL/6 mice with SalB (20mg/kg, intraperitoneally, once daily) for 3weeks and investigated microglial phenotypic profiles and hippocampal neurogenesis. The results showed that the SalB treatment skewed M1 microglial polarization toward M2 activation in the hippocampus and cortex and remedied CMS-induced deficits in hippocampal neurogenesis. SalB (40µM) inhibited LPS-stimulated microglial M1 activation as well as induced M2 activation in vitro, and the cultured microglia with the SalB treatment showed enhanced neural precursor cell proliferation, differentiation, and survival. SalB treatment also ameliorated the depressive-like behaviors of the CMS-treated mice in sucrose preference, forced swimming, and tail suspension tests. 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Although accumulating evidence suggests that activated microglia are associated with deficits in neurogenesis and contribute to the physiopathology of major depressive disorder, the role of microglia in treating depression remains poorly understood. Our previous study showed that salvianolic acid (SalB) has the regulation of neuroinflammatory responses and antidepressant-like effects. Here, we hypothesized that SalB’s therapeutic effects occur because it modulates microglial phenotypes that are associated with neurogenesis. To test this hypothesis, we treated CMS-exposed C57BL/6 mice with SalB (20mg/kg, intraperitoneally, once daily) for 3weeks and investigated microglial phenotypic profiles and hippocampal neurogenesis. The results showed that the SalB treatment skewed M1 microglial polarization toward M2 activation in the hippocampus and cortex and remedied CMS-induced deficits in hippocampal neurogenesis. SalB (40µM) inhibited LPS-stimulated microglial M1 activation as well as induced M2 activation in vitro, and the cultured microglia with the SalB treatment showed enhanced neural precursor cell proliferation, differentiation, and survival. SalB treatment also ameliorated the depressive-like behaviors of the CMS-treated mice in sucrose preference, forced swimming, and tail suspension tests. 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Although accumulating evidence suggests that activated microglia are associated with deficits in neurogenesis and contribute to the physiopathology of major depressive disorder, the role of microglia in treating depression remains poorly understood. Our previous study showed that salvianolic acid (SalB) has the regulation of neuroinflammatory responses and antidepressant-like effects. Here, we hypothesized that SalB’s therapeutic effects occur because it modulates microglial phenotypes that are associated with neurogenesis. To test this hypothesis, we treated CMS-exposed C57BL/6 mice with SalB (20mg/kg, intraperitoneally, once daily) for 3weeks and investigated microglial phenotypic profiles and hippocampal neurogenesis. The results showed that the SalB treatment skewed M1 microglial polarization toward M2 activation in the hippocampus and cortex and remedied CMS-induced deficits in hippocampal neurogenesis. SalB (40µM) inhibited LPS-stimulated microglial M1 activation as well as induced M2 activation in vitro, and the cultured microglia with the SalB treatment showed enhanced neural precursor cell proliferation, differentiation, and survival. SalB treatment also ameliorated the depressive-like behaviors of the CMS-treated mice in sucrose preference, forced swimming, and tail suspension tests. These findings suggest a possible antidepressive mechanism for anti-inflammatory agents that is correlated with microglial polarization and hippocampal neurogenesis and which may provide a new microglia-targeted strategy for depression therapy.</abstract><cop>Netherlands</cop><pub>Elsevier Inc</pub><pmid>28736034</pmid><doi>10.1016/j.bbi.2017.07.012</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-7776-6229</orcidid><orcidid>https://orcid.org/0000-0001-8916-2302</orcidid></addata></record>
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subjects	Animals Benzofurans - administration & dosage Cerebral Cortex - drug effects Cerebral Cortex - physiopathology Cytokine Depression Depression - complications Depression - physiopathology Depression - prevention & control Depressive Disorder - complications Depressive Disorder - physiopathology Depressive Disorder - prevention & control Hippocampus - drug effects Hippocampus - physiopathology Inflammation - complications Inflammation - metabolism Inflammation Mediators - metabolism Male Mice, Inbred C57BL Microglia Microglia - drug effects Microglia - metabolism Microglia - physiology Neurogenesis Neurogenesis - drug effects Phenotype Salvianolic acid B Stress, Psychological - complications Stress, Psychological - physiopathology
title	Salvianolic acid B promotes microglial M2-polarization and rescues neurogenesis in stress-exposed mice
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