新生儿缺乏先天免疫介导的 NFκB/AP1 信号在小鼠肝脏中的意义。
Implications of neonatal absence of innate immune mediated NFκB/AP1 signaling in the murine liver.
机构信息
Section of Neonatology, Department of Pediatrics, University of Colorado School of Medicine, Aurora, CO, USA.
Dept of Pathology, University of Colorado Anschutz School of Medicine, Aurora, CO, USA.
出版信息
Pediatr Res. 2024 Jun;95(7):1791-1802. doi: 10.1038/s41390-024-03071-0. Epub 2024 Feb 23.
BACKGROUND
The developmental immaturity of the innate immune system helps explains the increased risk of infection in the neonatal period. Importantly, innate immune signaling pathways such as p65/NFκB and c-Jun/AP1 are responsible for the prevention of hepatocyte apoptosis in adult animals, yet whether developmental immaturity of these pathways increases the risk of hepatic injury in the neonatal period is unknown.
METHODS
Using a murine model of endotoxemia (LPS 5 mg/kg IP x 1) in neonatal (P3) and adult mice, we evaluated histologic evidence of hepatic injury and apoptosis, presence of p65/NFκB and c-Jun/AP1 activation and associated transcriptional regulation of apoptotic genes.
RESULTS
We demonstrate that in contrast to adults, endotoxemic neonatal (P3) mice exhibit a significant increase in hepatic apoptosis. This is associated with absent hepatic p65/NFκB signaling and impaired expression of anti-apoptotic target genes. Hepatic c-Jun/AP1 activity was attenuated in endotoxemic P3 mice, with resulting upregulation of pro-apoptotic factors.
CONCLUSIONS
These results demonstrate that developmental absence of innate immune p65/NFκB and c-Jun/AP1 signaling, and target gene expression is associated with apoptotic injury in neonatal mice. More work is needed to determine if this contributes to long-term hepatic dysfunction, and whether immunomodulatory approaches can prevent this injury.
IMPACT
Various aspects of developmental immaturity of the innate immune system may help explain the increased risk of infection in the neonatal period. In adult models of inflammation and infection, innate immune signaling pathways such as p65/NFκB and c-Jun/AP1 are responsible for a protective, pro-inflammatory transcriptome and regulation of apoptosis. We demonstrate that in contrast to adults, endotoxemic neonatal (P3) mice exhibit a significant increase in hepatic apoptosis associated with absent hepatic p65/NFκB signaling and c-Jun/AP1 activity. We believe that these results may explain in part hepatic dysfunction with neonatal sepsis, and that there may be unrecognized developmental and long-term hepatic implications of early life exposure to systemic inflammatory stress.
背景
先天免疫系统的发育不成熟有助于解释新生儿期感染风险增加的原因。重要的是,先天免疫信号通路,如 p65/NFκB 和 c-Jun/AP1,负责防止成年动物的肝细胞凋亡,但这些通路的发育不成熟是否会增加新生儿期肝损伤的风险尚不清楚。
方法
我们使用内毒素血症(LPS 5mg/kg IP x 1)的新生(P3)和成年小鼠模型,评估肝损伤和凋亡的组织学证据、p65/NFκB 和 c-Jun/AP1 激活的存在以及凋亡基因的相关转录调节。
结果
我们证明,与成年人相比,内毒素血症的新生(P3)小鼠表现出明显增加的肝凋亡。这与肝 p65/NFκB 信号缺失和抗凋亡靶基因表达受损有关。内毒素血症 P3 小鼠的肝 c-Jun/AP1 活性减弱,导致促凋亡因子上调。
结论
这些结果表明,先天免疫 p65/NFκB 和 c-Jun/AP1 信号和靶基因表达的发育缺失与新生小鼠的凋亡损伤有关。需要进一步研究以确定这是否导致长期肝功能障碍,以及免疫调节方法是否可以预防这种损伤。
影响
先天免疫系统发育不成熟的各个方面可能有助于解释新生儿期感染风险增加的原因。在炎症和感染的成年模型中,先天免疫信号通路,如 p65/NFκB 和 c-Jun/AP1,负责保护性的促炎转录组和凋亡的调节。我们证明,与成年人相比,内毒素血症的新生(P3)小鼠表现出明显增加的肝凋亡,与肝 p65/NFκB 信号缺失和 c-Jun/AP1 活性有关。我们认为,这些结果部分解释了新生儿败血症的肝功能障碍,并且早期生活中暴露于全身炎症应激可能存在未被认识的发育和长期肝脏影响。
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