嘌呤能信号转导:中性粒细胞激活的基本机制。
Purinergic signaling: a fundamental mechanism in neutrophil activation.
机构信息
Department of Surgery, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA 02215, USA.
出版信息
Sci Signal. 2010 Jun 8;3(125):ra45. doi: 10.1126/scisignal.2000549.
Abstract
Efficient activation of neutrophils is a key requirement for effective immune responses. We found that neutrophils released cellular adenosine triphosphate (ATP) in response to exogenous stimuli such as formylated bacterial peptides and inflammatory mediators that activated Fcgamma, interleukin-8, C5a complement, and leukotriene B(4) receptors. Stimulation of the formyl peptide receptor (FPR) led to ATP release through pannexin-1 (panx1) hemichannels, and FPRs colocalized with P2Y2 nucleotide receptors on the cell surface to form a purinergic signaling system that facilitated neutrophil activation. Disruption of this purinergic signaling system by inhibiting or silencing panx1 hemichannels or P2Y2 receptors blocked neutrophil activation and impaired innate host responses to bacterial infection. Thus, purinergic signaling is a fundamental mechanism required for neutrophil activation and immune defense.
摘要
有效的中性粒细胞激活是有效免疫反应的关键要求。我们发现,中性粒细胞会在受到外源刺激(如甲酰化细菌肽和激活 Fcγ、白细胞介素-8、C5a 补体和白三烯 B4 受体的炎症介质)时释放细胞三磷酸腺苷 (ATP)。 甲酰肽受体 (FPR) 的刺激会通过连接蛋白-1 (panx1) 半通道导致 ATP 释放,并且 FPR 与细胞表面的 P2Y2 核苷酸受体共定位,形成嘌呤能信号系统,促进中性粒细胞的激活。通过抑制或沉默 panx1 半通道或 P2Y2 受体破坏该嘌呤能信号系统会阻断中性粒细胞的激活并损害宿主对细菌感染的先天反应。因此,嘌呤能信号是中性粒细胞激活和免疫防御所必需的基本机制。
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