Iracheta-Vellve Arvin, Petrasek Jan, Satishchandran Abhishek, Gyongyosi Benedek, Saha Banishree, Kodys Karen, Fitzgerald Katherine A, Kurt-Jones Evelyn A, Szabo Gyongyi
University of Massachusetts Medical School, Worcester, MA, USA.
University of Massachusetts Medical School, Worcester, MA, USA.
J Hepatol. 2015 Nov;63(5):1147-55. doi: 10.1016/j.jhep.2015.06.013. Epub 2015 Jun 20.
BACKGROUND & AIMS: The inflammasome is a well-characterized inducer of inflammation in alcoholic steatohepatitis (ASH). Inflammasome activation requires two signals for mature interleukin (IL)-1β production. Here we asked whether metabolic danger signals trigger inflammasome activation in ASH.
Wild-type mice, ATP receptor 2x7 (P2rx7)-KO mice, or mice overexpressing uricase were fed Lieber-DeCarli ethanol or control diet. We also implemented a pharmacological approach in which mice were treated with probenecid or allopurinol.
The sterile danger signals, ATP and uric acid, were increased in the serum and liver of alcohol-fed mice. Depletion of uric acid or ATP, or lack of ATP signaling attenuated ASH and prevented inflammasome activation and its major downstream cytokine, IL-1β. Pharmacological depletion of uric acid with allopurinol provided significant protection from alcohol-induced inflammatory response, steatosis and liver damage, and additional protection was achieved in mice treated with probenecid, which depletes uric acid and blocks ATP-induced P2rx7 signaling. We found that alcohol-damaged hepatocytes released uric acid and ATP in vivo and in vitro and that these sterile danger signals activated the inflammasome in LPS-exposed liver mononuclear cells.
Our data indicate that the second signal in inflammasome activation and IL-1β production in ASH results from the endogenous danger signals, uric acid and ATP. Inhibition of signaling triggered by uric acid and ATP may have therapeutic implications in ASH.
炎性小体是酒精性脂肪性肝炎(ASH)中炎症的一个特征明确的诱导因子。炎性小体激活需要两个信号来产生成熟的白细胞介素(IL)-1β。在此,我们探讨代谢危险信号是否会触发ASH中的炎性小体激活。
给野生型小鼠、ATP受体2x7(P2rx7)基因敲除小鼠或过表达尿酸酶的小鼠喂食Lieber-DeCarli乙醇或对照饮食。我们还采用了一种药理学方法,即给小鼠用丙磺舒或别嘌醇进行治疗。
酒精喂养小鼠的血清和肝脏中无菌危险信号ATP和尿酸增加。尿酸或ATP的消耗,或ATP信号的缺失可减轻ASH,并防止炎性小体激活及其主要下游细胞因子IL-1β的产生。用别嘌醇对尿酸进行药理学消耗可显著保护小鼠免受酒精诱导的炎症反应、脂肪变性和肝损伤,在用丙磺舒治疗的小鼠中获得了额外的保护,丙磺舒可消耗尿酸并阻断ATP诱导的P2rx7信号。我们发现酒精损伤的肝细胞在体内和体外都会释放尿酸和ATP,并且这些无菌危险信号会激活暴露于LPS的肝脏单核细胞中的炎性小体。
我们的数据表明,ASH中炎性小体激活和IL-1β产生的第二个信号来自内源性危险信号尿酸和ATP。抑制由尿酸和ATP触发的信号传导可能对ASH具有治疗意义。