Molnarfi Nicolas, Hyka-Nouspikel Nevila, Gruaz Lyssia, Dayer Jean-Michel, Burger Danielle
Division of Immunology and Allergy, Clinical Immunology Unit, Faculty of Medicine, University Hospital, Geneva, Switzerland.
J Immunol. 2005 Mar 1;174(5):2974-80. doi: 10.4049/jimmunol.174.5.2974.
IFN-beta induces the production of secreted IL-1R antagonist (sIL-1Ra) without triggering synthesis of the agonist IL-1beta in human monocytes. This might account for its anti-inflammatory properties. Canonically, IFN-beta signals through activation of JAK/STAT pathway, although PI3K and MAPK have also been involved. In this study, the role of PI3K, MEK1, and STAT1 in IFN-beta-induced sIL-1Ra production is investigated in freshly isolated human blood monocytes. PI3K, but not MEK1 activation is essential for sIL-1Ra production in monocytes treated with IFN-beta, as demonstrated by using the respective inhibitors of PI3K and MEK1, Ly294002 and PD98059. The use of cycloheximide and actinomycin D shows that sIL-1Ra was an immediate early gene induced by IFN-beta and that PI3K was controlling sIL-1Ra gene transcription. Although both inhibitors of PI3K and MEK1 diminished the Ser(727) phosphorylation of STAT1 induced by IFN-beta, only Ly294002 inhibited sIL-1Ra production. Furthermore, the inhibition of STAT1-Ser(727) phosphorylation by Ly294002 did not affect STAT1 translocation, suggesting that STAT1 was not involved in sIL-1Ra gene induction. This was confirmed in monocytes that were transfected with small interfering RNA specifically targeting STAT1. Indeed, monocytes in which effective STAT1 gene knockdown was achieved were fully responsive to IFN-beta in terms of sIL-1Ra production. Taken together, the present data demonstrate that the induction of sIL-1Ra transcription and production by IFN-beta in human monocytes involved PI3K, but not STAT1 activation.
干扰素β可诱导人单核细胞分泌白细胞介素-1受体拮抗剂(sIL-1Ra),而不触发激动剂白细胞介素-1β的合成。这可能解释了其抗炎特性。通常,干扰素β通过激活JAK/STAT途径发出信号,尽管PI3K和MAPK也参与其中。在本研究中,在新鲜分离的人血单核细胞中研究了PI3K、MEK1和STAT1在干扰素β诱导的sIL-1Ra产生中的作用。使用PI3K和MEK1的各自抑制剂Ly294002和PD98059表明,PI3K而非MEK1的激活对于用干扰素β处理的单核细胞中sIL-1Ra的产生至关重要。使用放线菌酮和放线菌素D表明,sIL-1Ra是由干扰素β诱导的即时早期基因,并且PI3K控制sIL-1Ra基因转录。尽管PI3K和MEK1的抑制剂都减少了干扰素β诱导的STAT1的Ser(727)磷酸化,但只有Ly294002抑制了sIL-1Ra的产生。此外,Ly294002对STAT1-Ser(727)磷酸化的抑制并不影响STAT1易位,这表明STAT1不参与sIL-1Ra基因诱导。在用特异性靶向STAT1的小干扰RNA转染的单核细胞中得到了证实。事实上,在有效实现STAT1基因敲低的单核细胞中,就sIL-1Ra产生而言,对干扰素β完全有反应。综上所述,目前的数据表明,干扰素β在人单核细胞中诱导sIL-1Ra转录和产生涉及PI3K,但不涉及STAT1激活。
