Hurchla Michelle A, Sedy John R, Murphy Kenneth M
Department of Pathology and Center for Immunology, Howard Hughes Medical Institute, Washington University School of Medicine, St. Louis, MO 63110, USA.
J Immunol. 2007 May 15;178(10):6073-82. doi: 10.4049/jimmunol.178.10.6073.
B and T lymphocyte attenuator (BTLA; CD272) can deliver inhibitory signals to B and T cells upon binding its ligand herpesvirus entry mediator. Because CD28, CTLA-4, programmed death-1, and ICOS regulate the development of acute graft-vs-host disease (GVHD), we wished to assess if BTLA also played a role in this T cell-mediated response. In the nonirradiated parental-into-F1 model of acute GVHD, BTLA+/+ and BTLA-/- donor lymphocytes showed equivalent engraftment and expansion during the first week of the alloresponse. Unexpectedly, BTLA-/- donor T cells failed to sustain GVHD, showing a decline in surviving donor cell numbers beginning at day 9 and greatly reduced by day 11. Similarly, inhibition of BTLA-herpesvirus entry mediator engagement by in vivo administration of a blocking anti-BTLA Ab also caused reduced survival of donor cells. Microarray analysis revealed several genes that were differentially expressed by BTLA-/- and BTLA+/+ donor CD4+ T cells preceding the decline in BTLA-/- donor T cells. Several genes influencing Th cell polarization were differentially expressed by BTLA+/+ and BTLA-/- donor cells. Additionally, the re-expression of the IL-7Ralpha subunit that occurs in BTLA+/+ donor cells after 1 wk of in vivo allostimulation was not observed in BTLA-/- donor CD4+ cells. The striking loss of BTLA-/- T cells in this model indicates a role for BTLA activity in sustaining CD4+ T cell survival under the conditions of chronic stimulation in the nonirradiated parental-into-F1 GVHD.
B和T淋巴细胞衰减器(BTLA;CD272)在与配体疱疹病毒进入介质结合后可向B细胞和T细胞传递抑制性信号。由于CD28、CTLA-4、程序性死亡-1和ICOS调节急性移植物抗宿主病(GVHD)的发生发展,我们希望评估BTLA是否也在这种T细胞介导的反应中发挥作用。在急性GVHD的非照射亲代到F1模型中,BTLA+/+和BTLA-/-供体淋巴细胞在同种异体反应的第一周表现出等效的植入和扩增。出乎意料的是,BTLA-/-供体T细胞无法维持GVHD,从第9天开始存活的供体细胞数量下降,到第11天大大减少。同样,通过体内给予阻断性抗BTLA抗体抑制BTLA-疱疹病毒进入介质的结合也导致供体细胞存活率降低。基因芯片分析揭示了在BTLA-/-供体T细胞数量下降之前,BTLA-/-和BTLA+/+供体CD4+T细胞差异表达的几个基因。影响Th细胞极化的几个基因在BTLA+/+和BTLA-/-供体细胞中差异表达。此外,在体内同种异体刺激1周后,BTLA+/+供体细胞中发生的IL-7Rα亚基的重新表达在BTLA-/-供体CD4+细胞中未观察到。该模型中BTLA-/-T细胞的显著损失表明,在非照射亲代到F1 GVHD的慢性刺激条件下,BTLA活性在维持CD4+T细胞存活中发挥作用。
