Laboratório de Imunologia Viral, Instituto Oswaldo Cruz, FIOCRUZ, Rio de Janeiro, Brazil.
PLoS Negl Trop Dis. 2013 Jun 6;7(6):e2257. doi: 10.1371/journal.pntd.0002257. Print 2013.
Dengue displays a broad spectrum of clinical manifestations that may vary from asymptomatic to severe and even fatal features. Plasma leakage/hemorrhages can be caused by a cytokine storm induced by monocytes and dendritic cells during dengue virus (DENV) replication. Plasmacytoid dendritic cells (pDCs) are innate immune cells and in response to virus exposure secrete IFN-α and express membrane TRAIL (mTRAIL). We aimed to characterize pDC activation in dengue patients and their function under DENV-2 stimulation in vitro. METHODS FINDINGS: Flow cytometry analysis (FCA) revealed that pDCs of mild dengue patients exhibit significantly higher frequencies of mTRAIL compared to severe cases or healthy controls. Plasma levels of IFN-α and soluble TRAIL are increased in mild compared to severe dengue patients, positively correlating with pDC activation. FCA experiments showed that in vitro exposure to DENV-2 induced mTRAIL expression on pDC. Furthermore, three dimension microscopy highlighted that TRAIL was relocalized from intracellular compartment to plasma membrane. Chloroquine treatment inhibited DENV-2-induced mTRAIL relocalization and IFN-α production by pDC. Endosomal viral degradation blockade by chloroquine allowed viral antigens detection inside pDCs. All those data are in favor of endocytosis pathway activation by DENV-2 in pDC. Coculture of pDC/DENV-2-infected monocytes revealed a dramatic decrease of antigen detection by FCA. This viral antigens reduction in monocytes was also observed after exogenous IFN-α treatment. Thus, pDC effect on viral load reduction was mainly dependent on IFN-α production.
This investigation characterizes, during DENV-2 infection, activation of pDCs in vivo and their antiviral role in vitro. Thus, we propose TRAIL-expressing pDCs may have an important role in the outcome of disease.
登革热表现出广泛的临床表现,从无症状到严重甚至致命的特征不等。登革病毒(DENV)复制过程中,单核细胞和树突状细胞引发的细胞因子风暴可导致血浆渗漏/出血。浆细胞样树突状细胞(pDC)是先天免疫细胞,在病毒暴露后会分泌 IFN-α并表达膜 TRAIL(mTRAIL)。我们旨在表征登革热患者的 pDC 激活,并研究其在体外 DENV-2 刺激下的功能。
流式细胞术分析(FCA)显示,轻度登革热患者的 pDC 中 mTRAIL 的频率明显高于重症患者或健康对照者。与重症登革热患者相比,轻度登革热患者的血浆 IFN-α和可溶性 TRAIL 水平升高,与 pDC 激活呈正相关。FCA 实验表明,体外暴露于 DENV-2 可诱导 pDC 表达 mTRAIL。此外,三维显微镜突出显示 TRAIL 从细胞内区室重新定位到质膜。氯喹处理抑制了 DENV-2 诱导的 pDC 中 mTRAIL 重新定位和 IFN-α的产生。氯喹阻断内体病毒降解可使病毒抗原在 pDC 内检测到。所有这些数据都支持 DENV-2 通过内吞作用激活 pDC。pDC/DENV-2 感染单核细胞的共培养显示 FCA 检测到的抗原显著减少。在单核细胞中也观察到外源性 IFN-α处理后病毒抗原减少。因此,pDC 对病毒载量减少的影响主要取决于 IFN-α的产生。
本研究在 DENV-2 感染期间描述了体内 pDC 的激活及其在体外的抗病毒作用。因此,我们提出表达 TRAIL 的 pDC 可能在疾病的结果中发挥重要作用。
