Medical Research Center, Southwestern Hospital, The Third Military Medical University, Chongqing 400038, PR China.
Int Immunopharmacol. 2011 Jan;11(1):110-20. doi: 10.1016/j.intimp.2010.10.015. Epub 2010 Nov 10.
Treating sepsis remains challenging at present. Bacterial lipopolysaccharide (LPS) and bacterial DNA/CpG DNA are important pathogenic molecules and drug targets for sepsis. It is thus a promising strategy to treat sepsis by discovering agents that neutralize LPS and CpG DNA simultaneously. In this study, we present evidences of the biosensor based screening and isolation of active anti-sepsis fractions and monomers from traditional Chinese herbs using dual targets (LPS and CpG DNA) guided drug discovery strategy. Firstly, LPS or CpG DNA was immobilized on surfaces of cuvettes in the biosensor to establish a screening platform. Then, Cortex lycii with both highest affinities was selected out from one hundred and fourteen traditional Chinese herbs. In subsequent experiments, chromatography was utilized and coupled with the biosensor to purify fractions with a higher affinity for LPS and CpG DNA. In line with affinity assay, these fractions were shown to neutralize LPS and CpG DNA and inhibit their activity in vitro and in vivo. Lastly, the contributing monomer Kukoamine B (KB) was purified. KB neutralized LPS and CpG DNA in vitro. It inhibited TLR4, TLR9 and MyD88 mRNA expressions up-regulated by LPS and CpG DNA, and also attenuated the LPS and CpG DNA elicited nuclear translocation of NF-κB p65 protein in RAW264.7 cells. It also protected mice from lethal challenge of heat-killed E. coli, a mixture of LPS and CpG DNA. In conclusion, we presented a dual target guided discovery of a novel anti-sepsis agent KB from traditional Chinese herbs via combination of biosensor technology and chromatography methods.
目前,脓毒症的治疗仍然具有挑战性。细菌脂多糖(LPS)和细菌 DNA/CpG DNA 是脓毒症的重要致病分子和药物靶点。因此,通过发现同时中和 LPS 和 CpG DNA 的药物来治疗脓毒症是一种很有前途的策略。在这项研究中,我们提出了基于生物传感器的筛选和分离方法的证据,该方法使用双重靶点(LPS 和 CpG DNA)指导药物发现策略,从传统中药中分离出具有活性的抗脓毒症的成分和单体。首先,将 LPS 或 CpG DNA 固定在生物传感器的比色皿表面上,建立筛选平台。然后,从 114 种中草药中筛选出具有最高亲和力的地黄。在随后的实验中,利用色谱法结合生物传感器来纯化对 LPS 和 CpG DNA 具有更高亲和力的馏分。与亲和力测定一致,这些馏分显示出中和 LPS 和 CpG DNA 的能力,并在体外和体内抑制其活性。最后,分离出的单体 Kukoamine B(KB)。KB 能中和 LPS 和 CpG DNA。它抑制 LPS 和 CpG DNA 上调的 TLR4、TLR9 和 MyD88 mRNA 表达,并减弱 LPS 和 CpG DNA 诱发的 RAW264.7 细胞中 NF-κB p65 蛋白的核转位。它还能保护小鼠免受热灭活大肠杆菌、LPS 和 CpG DNA 混合物的致命攻击。总之,我们通过将生物传感器技术和色谱方法相结合,从传统中药中发现了一种新型抗脓毒症药物 KB。
