Presky D H, Minetti L J, Gillessen S, Wilkinson V L, Wu C Y, Gubler U, Chizzonite R, Gately M K
Department of Inflammation/Autoimmune Diseases, Hoffmann-La Roche Inc., Nutley, NJ 07110, USA.
J Immunol. 1998 Mar 1;160(5):2174-9.
IL-12 is a heterodimeric cytokine, composed of a p40 and a p35 subunit, that exerts its biological effects by binding to specific cell surface receptors. Two IL-12R proteins, designated human IL-12 (huIL-12) receptor beta1 (huIL-12Rbeta1) and huIL-12Rbeta2, have been previously identified. These IL-12R individually bind huIL-12 with low affinity and in combination bind huIL-12 with high affinity and confer IL-12 responsiveness. In this study the interactions of hulL-12 with these two identified human IL-12R protein subunits are examined. The heterodimer-specific anti-huIL-12 mAb 20C2, which neutralizes huIL-12 bioactivity but does not block 125I-huIL-12 binding to huIL-12Rbeta1, blocked binding of huIL-12 to huIL-12Rbeta2. In contrast, anti-huIL-12Rbeta1 mAb 2B10 and mouse IL-12 p40 subunit homodimer (mo(p40)2) blocked 125I-huIL-12 binding to huIL-12Rbeta1, but not to huIL-12Rbeta2. Therefore, two classes of IL-12 inhibitors can be identified that differ in their ability to block huIL-12 interaction with either huIL-12Rbeta1 or huIL-12Rbeta2. Both mo(p40)2 and 20C2 blocked high affinity binding to huIL-12Rbeta1/beta2-cotransfected COS-7 cells, although, as previously reported, mo(p40)2 does not block high affinity binding to IL-12R on PHA-activated human lymphoblasts. Furthermore, these two classes of IL-12 inhibitors synergistically decreased hulL-12-stimulated proliferation and IFN-gamma production. Therefore, IL-12, in binding to the high affinity IL-12R, interacts with IL-12Rbeta1 primarily via regions on the IL-12 p40 subunit and with IL-12Rbeta2 via 20C2-reactive, heterodimer-specific regions of IL-12 to which the p35 and p40 subunits both contribute.
白细胞介素-12(IL-12)是一种异二聚体细胞因子,由一个p40和一个p35亚基组成,通过与特定的细胞表面受体结合发挥其生物学效应。先前已鉴定出两种白细胞介素-12受体(IL-12R)蛋白,分别命名为人白细胞介素-12(huIL-12)受体β1(huIL-12Rβ1)和huIL-12Rβ2。这些IL-12R单独与huIL-12的亲和力较低,而组合起来与huIL-12的亲和力较高,并赋予细胞对IL-12的反应性。在本研究中,检测了huIL-12与这两种已鉴定的人IL-12R蛋白亚基之间的相互作用。异二聚体特异性抗huIL-12单克隆抗体(mAb)20C2可中和huIL-12的生物活性,但不阻断125I-huIL-12与huIL-12Rβ1的结合,却能阻断huIL-12与huIL-12Rβ2的结合。相反,抗huIL-12Rβ1 mAb 2B10和小鼠IL-12 p40亚基同二聚体(mo(p40)2)可阻断125I-huIL-12与huIL-12Rβ1的结合,但不阻断其与huIL-12Rβ2的结合。因此,可以鉴定出两类IL-12抑制剂,它们在阻断huIL-12与huIL-12Rβ1或huIL-12Rβ2相互作用的能力上有所不同。mo(p40)2和20C2均能阻断与huIL-12Rβ1/β2共转染的COS-7细胞的高亲和力结合,尽管如先前报道的那样,mo(p40)2不阻断对PHA激活的人淋巴母细胞上IL-12R的高亲和力结合。此外,这两类IL-12抑制剂可协同降低huIL-12刺激的增殖和干扰素-γ的产生。因此,IL-12在与高亲和力IL-12R结合时,主要通过IL-12 p40亚基上的区域与IL-12Rβ1相互作用,并通过IL-12的20C2反应性、异二聚体特异性区域与IL-12Rβ2相互作用,p35和p40亚基均对该区域有贡献。
