小胶质细胞酸感应调节二氧化碳诱发的恐惧。
Microglial Acid Sensing Regulates Carbon Dioxide-Evoked Fear.
作者信息
Vollmer Lauren Larke, Ghosal Sriparna, McGuire Jennifer L, Ahlbrand Rebecca L, Li Ke-Yong, Santin Joseph M, Ratliff-Rang Christine A, Patrone Luis G A, Rush Jennifer, Lewkowich Ian P, Herman James P, Putnam Robert W, Sah Renu
机构信息
Department of Psychiatry and Behavioral Neuroscience, University of Cincinnati, Cincinnati; Neuroscience Graduate Program, University of Cincinnati, Cincinnati.
Department of Psychiatry and Behavioral Neuroscience, University of Cincinnati, Cincinnati.
出版信息
Biol Psychiatry. 2016 Oct 1;80(7):541-51. doi: 10.1016/j.biopsych.2016.04.022. Epub 2016 May 12.
BACKGROUND
Carbon dioxide (CO2) inhalation, a biological challenge and pathologic marker in panic disorder, evokes intense fear and panic attacks in susceptible individuals. The molecular identity and anatomic location of CO2-sensing systems that translate CO2-evoked fear remain unclear. We investigated contributions of microglial acid sensor T cell death-associated gene-8 (TDAG8) and microglial proinflammatory responses in CO2-evoked behavioral and physiological responses.
METHODS
CO2-evoked freezing, autonomic, and respiratory responses were assessed in TDAG8-deficient ((-/-)) and wild-type ((+/+)) mice. Involvement of TDAG8-dependent microglial activation and proinflammatory cytokine interleukin (IL)-1β with CO2-evoked responses was investigated using microglial blocker, minocycline, and IL-1β antagonist IL-1RA. CO2-chemosensitive firing responses using single-cell patch clamping were measured in TDAG8(-/-) and TDAG8(+/+) mice to gain functional insights.
RESULTS
TDAG8 expression was localized in microglia enriched within the sensory circumventricular organs. TDAG8(-/-) mice displayed attenuated CO2-evoked freezing and sympathetic responses. TDAG8 deficiency was associated with reduced microglial activation and proinflammatory cytokine IL-1β within the subfornical organ. Central infusion of microglial activation blocker minocycline and IL-1β antagonist IL-1RA attenuated CO2-evoked freezing. Finally, CO2-evoked neuronal firing in patch-clamped subfornical organ neurons was dependent on acid sensor TDAG8 and IL-1β.
CONCLUSIONS
Our data identify TDAG8-dependent microglial acid sensing as a unique chemosensor for detecting and translating hypercapnia to fear-associated behavioral and physiological responses, providing a novel mechanism for homeostatic threat detection of relevance to psychiatric conditions such as panic disorder.
背景
吸入二氧化碳(CO₂)是惊恐障碍中的一种生物学挑战和病理标志物,可在易感个体中引发强烈恐惧和惊恐发作。将CO₂诱发的恐惧转化为行为反应的CO₂传感系统的分子特性和解剖位置尚不清楚。我们研究了小胶质酸传感器T细胞死亡相关基因8(TDAG8)和小胶质细胞促炎反应在CO₂诱发的行为和生理反应中的作用。
方法
评估TDAG8基因敲除(-/-)和野生型(+/+)小鼠中CO₂诱发的僵住、自主神经和呼吸反应。使用小胶质细胞阻滞剂米诺环素和IL-1β拮抗剂IL-1RA研究依赖TDAG8的小胶质细胞激活和促炎细胞因子白细胞介素(IL)-1β与CO₂诱发反应的关系。采用单细胞膜片钳记录TDAG8(-/-)和TDAG8(+/+)小鼠的CO₂化学敏感放电反应,以获得功能方面的认识。
结果
TDAG8表达定位于富含小胶质细胞的感觉室周器官。TDAG8(-/-)小鼠表现出减弱的CO₂诱发的僵住和交感反应。TDAG8缺陷与穹窿下器官内小胶质细胞激活减少和促炎细胞因子IL-1β水平降低有关。向中枢注射小胶质细胞激活阻滞剂米诺环素和IL-1β拮抗剂IL-1RA可减弱CO₂诱发的僵住反应。最后,膜片钳记录的穹窿下器官神经元中CO₂诱发的神经元放电依赖于酸传感器TDAG8和IL-1β。
结论
我们的数据表明,依赖TDAG8的小胶质细胞酸传感是一种独特的化学传感器,用于检测高碳酸血症并将其转化为与恐惧相关的行为和生理反应,为与惊恐障碍等精神疾病相关的内稳态威胁检测提供了一种新机制。
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