Baban Babak, Hansen Anna M, Chandler Phillip R, Manlapat Anna, Bingaman Adam, Kahler David J, Munn David H, Mellor Andrew L
Immunotherapy Center, Medical College of Georgia, 1120, 15th Street, Augusta, GA 30912, USA.
Int Immunol. 2005 Jul;17(7):909-19. doi: 10.1093/intimm/dxh271. Epub 2005 Jun 20.
By ligating CD80/CD86 (B7) molecules, the synthetic immunomodulatory reagent CTLA4-Ig (soluble synthetic CTLA4 fusion protein) induces expression of the enzyme indoleamine 2,3-dioxygenase (IDO) in some dendritic cells (DCs), which acquire potent T cell regulatory functions as a consequence. Here we show that this response occurred exclusively in a population of splenic DCs co-expressing the marker CD19. B7 ligation induced activation of the transcription factor signal transducer and activator of transcription (STAT1) in sorted CD19+, but not CD19(NEG), DCs. STAT1 activation occurred even when DCs lacked receptors for type II IFN (IFNgamma); however, STAT1 activation and IDO up-regulation were not observed when DCs lacked receptors for type I IFN (IFNalphabeta). Thus, IFNalpha, but not IFNgamma, signaling was essential for STAT1 activation and IDO up-regulation in CD19+ DCs following B7 ligation. Consistent with these findings, B7 ligation also induced sorted CD19+, but not CD19(NEG), DCs to express IFNalpha. Moreover, recombinant IFNalpha induced CD19+, but not CD19(NEG), DCs to mediate IDO-dependent T cell suppression, showing that IFNalpha signaling could substitute for upstream signals from B7. These data reveal that a minor population of splenic DCs expressing the CD19 marker is uniquely responsive to B7 ligation, and that IFNalpha-mediated STAT1 activation is an essential intermediary signaling pathway that promotes IDO induction in these DCs. Thus, CD19+ DCs may be a target for regulatory T cells expressing surface CTLA4, and may suppress T cell responses via induction of IDO.
通过连接CD80/CD86(B7)分子,合成免疫调节试剂CTLA4-Ig(可溶性合成CTLA4融合蛋白)可诱导某些树突状细胞(DC)中吲哚胺2,3-双加氧酶(IDO)的表达,结果这些DC获得了强大的T细胞调节功能。在此我们表明,这种反应仅发生在共表达标志物CD19的脾DC群体中。B7连接在分选的CD19 +而非CD19(阴性)DC中诱导转录因子信号转导子和转录激活子(STAT1)的激活。即使DC缺乏II型干扰素(IFNγ)受体,STAT1激活仍会发生;然而,当DC缺乏I型干扰素(IFNαβ)受体时,未观察到STAT1激活和IDO上调。因此,IFNα而非IFNγ信号传导对于B7连接后CD19 + DC中STAT1激活和IDO上调至关重要。与这些发现一致,B7连接也诱导分选的CD19 +而非CD19(阴性)DC表达IFNα。此外,重组IFNα诱导CD19 +而非CD19(阴性)DC介导IDO依赖性T细胞抑制,表明IFNα信号传导可替代B7的上游信号。这些数据揭示,表达CD19标志物的一小部分脾DC对B7连接具有独特的反应性,并且IFNα介导的STAT1激活是促进这些DC中IDO诱导的重要中间信号通路。因此,CD19 + DC可能是表达表面CTLA4的调节性T细胞的靶标,并可能通过诱导IDO来抑制T细胞反应。
