TLR4型
多巴胺
普拉克索
败血症
兴奋剂
神经递质
脂多糖
药理学
CD14型
先天免疫系统
多巴胺能
生物
炎症
医学
免疫学
免疫系统
神经科学
受体
内科学
帕金森病
疾病
作者
Nian Wang,Jiao Liu,Runliu Wu,Feng Chen,Ruoxi Zhang,Chunhua Yu,Herbert J. Zeh,Xianzhong Xiao,Haichao Wang,Timothy R. Billiar,Ling Zeng,Jianxin Jiang,Daolin Tang,Rui Kang
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2025-05-02
卷期号:11 (18)
被引量:2
标识
DOI:10.1126/sciadv.adr2226
摘要
Pathogen-induced septic death presents a substantial public health challenge, with its neuroimmune mechanisms largely unexplored. Our study investigates neurotransmitter modulation of ACOD1 expression, a regulator of immunometabolism activated by bacterial lipopolysaccharide (LPS). Screening neurotransmitters identifies dopamine as a potent inhibitor of LPS-induced ACOD1 expression in innate immune cells. Mechanistically, DRD2 forms a complex with TLR4, initiating MAPK3-dependent CREB1 phosphorylation and subsequent ACOD1 transcription. Conversely, dopamine disrupts TLR4-MYD88 interaction via DRD2 without affecting the formation of the LPS-induced TLR4-MD2-CD14 complex. Enhanced ACOD1 expression induces CD274/PD-L1 production independently of itaconate, precipitating inflammation-associated immunosuppression in sepsis. Delayed administration of pramipexole, a dopamine agonist, mitigates lethality in bacterial sepsis mouse models. Conversely, the dopamine antagonist aripiprazole exacerbates sepsis mortality. Dysregulation of the dopamine-ACOD1 axis correlates with sepsis severity in patients, indicating a potential therapeutic target for modulating this neuroimmune pathway.
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