Fu Chunmei, Liang Xinjun, Cui Weiguo, Ober-Blöbaum Julia L, Vazzana Joseph, Shrikant Protul A, Lee Kelvin P, Clausen Björn E, Mellman Ira, Jiang Aimin
Department of Immunology, Roswell Park Cancer Institute, Buffalo, NY 14263;
Blood Research Institute, Blood Center of Wisconsin, Milwaukee, WI 53213;
Proc Natl Acad Sci U S A. 2015 Mar 3;112(9):2823-8. doi: 10.1073/pnas.1414167112. Epub 2015 Feb 17.
Recent studies have demonstrated that β-catenin in DCs serves as a key mediator in promoting both CD4(+) and CD8(+) T-cell tolerance, although how β-catenin exerts its functions remains incompletely understood. Here we report that activation of β-catenin in DCs inhibits cross-priming of CD8(+) T cells by up-regulating mTOR-dependent IL-10, suggesting blocking β-catenin/mTOR/IL-10 signaling as a viable approach to augment CD8(+) T-cell immunity. However, vaccination of DC-β-catenin(-/-) (CD11c-specific deletion of β-catenin) mice surprisingly failed to protect them against tumor challenge. Further studies revealed that DC-β-catenin(-/-) mice were deficient in generating CD8(+) T-cell immunity despite normal clonal expansion, likely due to impaired IL-10 production by β-catenin(-/-) DCs. Deletion of β-catenin in DCs or blocking IL-10 after clonal expansion similarly led to reduced CD8(+) T cells, suggesting that β-catenin in DCs plays a positive role in CD8(+) T-cell maintenance postclonal expansion through IL-10. Thus, our study has not only identified mTOR/IL-10 as a previously unidentified mechanism for β-catenin-dependent inhibition of cross-priming, but also uncovered an unexpected positive role that β-catenin plays in maintenance of CD8(+) T cells. Despite β-catenin's opposite functions in regulating CD8(+) T-cell responses, selectively blocking β-catenin with a pharmacological inhibitor during priming phase augmented DC vaccine-induced CD8(+) T-cell immunity and improved antitumor efficacy, suggesting manipulating β-catenin signaling as a feasible therapeutic strategy to improve DC vaccine efficacy.
近期研究表明,树突状细胞(DC)中的β-连环蛋白是促进CD4(+)和CD8(+) T细胞耐受的关键介质,尽管β-连环蛋白如何发挥其功能仍未完全清楚。在此,我们报告DC中β-连环蛋白的激活通过上调mTOR依赖性白细胞介素-10(IL-10)来抑制CD8(+) T细胞的交叉呈递,这表明阻断β-连环蛋白/mTOR/IL-10信号通路是增强CD8(+) T细胞免疫的可行方法。然而,令人惊讶的是,用DC-β-连环蛋白基因敲除小鼠(β-连环蛋白的CD11c特异性缺失)进行疫苗接种并不能保护它们免受肿瘤攻击。进一步研究发现,尽管克隆扩增正常,但DC-β-连环蛋白基因敲除小鼠在产生CD8(+) T细胞免疫方面存在缺陷,这可能是由于β-连环蛋白基因敲除的DC产生IL-10的能力受损所致。在克隆扩增后删除DC中的β-连环蛋白或阻断IL-10同样会导致CD8(+) T细胞减少,这表明DC中的β-连环蛋白通过IL-10在克隆扩增后CD8(+) T细胞的维持中发挥积极作用。因此,我们的研究不仅确定了mTOR/IL-10是β-连环蛋白依赖性抑制交叉呈递的一种先前未被识别的机制,还揭示了β-连环蛋白在维持CD8(+) T细胞方面出人意料的积极作用。尽管β-连环蛋白在调节CD8(+) T细胞反应中具有相反的功能,但在启动阶段用药物抑制剂选择性阻断β-连环蛋白可增强DC疫苗诱导的CD8(+) T细胞免疫并提高抗肿瘤疗效,这表明操纵β-连环蛋白信号通路是提高DC疫苗疗效的可行治疗策略。
