Tan Shuai, Zhang Junhao, Sun Yang, Gisterå Anton, Sheng Zi, Malmström Rickard E, Hou Ming, Peng Jun, Ma Chunhong, Liao Wangjun, Li Nailin
Karolinska Institutet, Stockholm, Sweden.
Clinical Epidemiology Unit, Clinical Pharmacology Group, Stockholm, Sweden.
Platelets. 2022 Apr 3;33(3):360-370. doi: 10.1080/09537104.2021.1936479. Epub 2021 Jun 17.
Platelets regulate multiple aspects of CD4 T cell immunity, and may exert distinct regulations among different T cell subsets. Our aim was to investigate how platelets regulate CD4 central memory T cell (Tcm) responses. αCD3/αCD28-stimulated human CD4 Tcm cells were cultured without or with platelets or platelet-derived mediators. Polyclonal stimulation induced cell proliferation and Th1 and Treg cell activation of Tcm cells. Platelet factor 4/PF4 neutralization abolished platelet-enhanced Tcm effector responses, whilst TGFβ neutralization only partially inhibited platelet-enhanced Treg cell activation. PF4 supplementation mimicked the effects of platelet co-cultures, while PF4 receptor CXCR3 blockade and CXCR3 knockdown with siRNAs inhibited or abolished PF4-enhanced Th1 and Treg cell responses. Platelet co-cultures or PF4-treatment increased Tcm cell proliferation, whilst CXCR3 blockade counteracted. PF4-enhanced Tcm proliferation and effector cell responses were associated with mitochondrial biogenesis. Overexpression of mitochondrial transcription factor A (TFAM) mimicked PF4 effects, and PF4 treatment attenuated Akt phosphorylation of activated Tcm cells, leading to mitochondrial biogenesis. Impacts of platelets and PF4 on Tcm proliferation were further confirmed by that CXCR3 knockdown/blockade counteracted PF4-enhanced Tcm cell proliferation. In conclusion, platelets enhance Th1 and Treg cell responses of CD4 Tcm cells, via PF4-dependent mitochondrial biogenesis and cell proliferation of Tcm cells.
血小板调节CD4 T细胞免疫的多个方面,并且可能在不同的T细胞亚群中发挥不同的调节作用。我们的目的是研究血小板如何调节CD4中枢记忆T细胞(Tcm)反应。在有无血小板或血小板衍生介质的情况下培养αCD3/αCD28刺激的人CD4 Tcm细胞。多克隆刺激诱导Tcm细胞增殖以及Th1和Treg细胞活化。血小板因子4/PF4中和消除了血小板增强的Tcm效应反应,而TGFβ中和仅部分抑制了血小板增强的Treg细胞活化。PF4补充模拟了血小板共培养的效果,而PF4受体CXCR3阻断和用小干扰RNA敲低CXCR3抑制或消除了PF4增强的Th1和Treg细胞反应。血小板共培养或PF4处理增加了Tcm细胞增殖,而CXCR3阻断则起到相反作用。PF4增强的Tcm增殖和效应细胞反应与线粒体生物发生有关。线粒体转录因子A(TFAM)的过表达模拟了PF4的作用,并且PF4处理减弱了活化的Tcm细胞的Akt磷酸化,导致线粒体生物发生。CXCR3敲低/阻断抵消了PF4增强的Tcm细胞增殖,进一步证实了血小板和PF4对Tcm增殖的影响。总之,血小板通过PF4依赖的线粒体生物发生和Tcm细胞增殖增强CD4 Tcm细胞的Thl和Treg细胞反应。
