Research Institute for Protein Science, Nakayama-cho 2-18, Mizuho-ku, Nagoya 467-0803, Japan.
Anticancer Res. 2011 Jul;31(7):2511-6.
We generated an evolutionary computer program that generates complementary peptide (C-pep) sequences, with the potential to interact with a target peptide, by comparing several physico-chemical parameters of each pair of the complementary peptides being analyzed. We generated C-peps to target several molecules. About 30% of synthesized C-peps interfered with the function of their targets. C5a stimulates generation of TNFα and other inflammatory cytokines. Inhibition of C5a should be effective against sepsis, which impairs the status of cancer-bearing patients. One of the inhibitory C-peps of C5a, termed AcPepA, was effective in Cynomolgus monkeys intravenously infused with a lethal dose of bacterial LPS (4 mg/kg) destined to die. The monkeys were rescued by intravenous administration of 2 mg/kg/h of AcPepA. The excellent therapeutic effect of AcPepA is likely to be due to restriction of high mobility group box 1 (HMGB1) surge induced by the effect of C5a on C5L2, which is the second C5a receptor, since the released HMGB1 has the capacity to stimulate TLR4 as an endogeneous ligand resulting in further activation of inflammatory cells to release inflammatory cytokines forming a positive feedback circuit of inflammation.
我们生成了一个进化计算机程序,通过比较正在分析的每对互补肽的几个物理化学参数,生成与靶肽相互作用的互补肽(C-肽)序列。我们生成了针对多种分子的 C 肽。大约 30%的合成 C 肽干扰了其靶标的功能。C5a 刺激 TNFα 和其他炎症细胞因子的产生。抑制 C5a 应该对败血症有效,败血症会损害癌症患者的身体状况。一种称为 AcPepA 的 C5a 抑制性 C 肽在静脉注射致死剂量细菌 LPS(4mg/kg)的食蟹猴中有效(4mg/kg)注定死亡。猴子通过静脉内给予 2mg/kg/h AcPepA 获救。AcPepA 的优异治疗效果可能归因于限制由 C5a 对 C5L2 的作用引起的高迁移率族蛋白 B1(HMGB1)激增,因为释放的 HMGB1 具有作为内源性配体刺激 TLR4 的能力,从而导致炎症细胞的进一步激活以释放炎症细胞因子,形成炎症的正反馈回路。
