Dinarello C A, Ikejima T, Warner S J, Orencole S F, Lonnemann G, Cannon J G, Libby P
J Immunol. 1987 Sep 15;139(6):1902-10.
Interleukin 1 (IL-1) plays an important role in host defense mechanisms by increasing body temperature, inducing the synthesis of a variety of lymphokines and hepatic acute phase proteins and acting as a chemoattractant for lymphocytes. However, in some microenvironments such as injured tissue or joint spaces, elevated IL-1 levels may contribute to pathologic processes, for example, proliferation and fibrosis of tissue involved in pannus formation as well as degradation of matrix and abnormal tissue architecture. To investigate potential mechanisms that may lead to excessive production of IL-1, we have examined the ability of IL-1 to participate in an amplification event by inducing its own gene expression leading to synthesis of biologically active IL-1. When injected into rabbits, recombinant human IL-1-alpha induced biphasic fevers, and during the second temperature elevation 3 hr later, a circulating pyrogenic material was detected by passive transfer of plasma to other rabbits. Induction of the biphasic fever was not caused by endotoxin contamination of the recombinant IL-1. The 3-hr circulating pyrogen was heat-labile and was not residual injected IL-1-alpha. Chromatographic separation of this plasma and biologic assay suggested that it was new IL-1 of rabbit origin. We next incubated human blood mononuclear cells with recombinant IL-1-alpha and measured the intracellular and extracellular levels of IL-1 by bioassay using the D10.G4.1 murine T cell line. In order to control for the carryover of recombinant IL-1-alpha used to stimulate the mononuclear cells (MNC), we used neutralizing antibodies that were specific for IL-1-alpha or IL-1-beta. The results of these neutralizations showed that recombinant human IL-1-alpha induces the synthesis of IL-1-beta in human MNC in vitro. These results were verified with a radioimmunoassay specific for IL-1-beta. At concentrations of 100 ng/ml, IL-1-alpha induced prostaglandin E2 production in the MNC culture, and this was associated with decreased production of immunoreactive IL-1-beta. Adding indomethacin to the cultures prevented the decreased production of IL-1-beta induced by high concentrations of IL-1-alpha. Using nonadherent MNC, we observed an increase in IL-1-beta as well as IL-1-alpha mRNA after 4 hr of exposure to recombinant IL-1-alpha. These results demonstrate that IL-1-alpha induces biologically active and immunoreactive IL-1-beta from MNC in vitro and that the same concentrations of IL-1-alpha induce gene expression for both forms of IL-1.(ABSTRACT TRUNCATED AT 400 WORDS)
白细胞介素1(IL-1)通过升高体温、诱导多种淋巴因子和肝脏急性期蛋白的合成以及作为淋巴细胞的趋化因子,在宿主防御机制中发挥重要作用。然而,在某些微环境中,如受伤组织或关节腔,IL-1水平升高可能会促进病理过程,例如,参与血管翳形成的组织的增殖和纤维化,以及基质降解和组织结构异常。为了研究可能导致IL-1过度产生的潜在机制,我们检测了IL-1通过诱导自身基因表达导致生物活性IL-1合成来参与放大事件的能力。将重组人IL-1-α注射到兔子体内时,会引起双相热,在3小时后的第二次体温升高期间,通过将血浆被动转移到其他兔子体内检测到一种循环致热物质。双相热的诱导不是由重组IL-1的内毒素污染引起的。3小时的循环致热原对热不稳定,且不是残留的注射用IL-1-α。对这种血浆进行色谱分离和生物学检测表明,它是兔源的新IL-1。接下来,我们将人血单核细胞与重组IL-1-α孵育,并使用D10.G4.1小鼠T细胞系通过生物测定法测量细胞内和细胞外的IL-1水平。为了控制用于刺激单核细胞(MNC)的重组IL-1-α的残留,我们使用了对IL-1-α或IL-1-β特异的中和抗体。这些中和实验的结果表明,重组人IL-1-α在体外诱导人MNC中IL-1-β的合成。这些结果通过针对IL-1-β的放射免疫测定得到了验证。在浓度为100 ng/ml时,IL-1-α诱导MNC培养物中前列腺素E2的产生,这与免疫反应性IL-1-β的产生减少有关。向培养物中添加吲哚美辛可防止高浓度IL-1-α诱导的IL-1-β产生减少。使用非贴壁MNC,我们观察到在暴露于重组IL-1-α 4小时后,IL-1-β以及IL-1-α mRNA增加。这些结果表明,IL-1-α在体外诱导MNC产生生物活性和免疫反应性IL-1-β,并且相同浓度的IL-1-α诱导两种形式的IL-1的基因表达。(摘要截短至400字)
