Department of Health Sciences, Brock Universitygrid.411793.9, St. Catharines, Ontario, Canada.
Section of Pediatric Infectious Disease, Department of Pediatrics, Tulane University School of Medicine, New Orleans, Louisiana, USA.
Microbiol Spectr. 2022 Aug 31;10(4):e0177222. doi: 10.1128/spectrum.01772-22. Epub 2022 Jul 5.
Zika virus and dengue virus are evolutionarily related and structurally similar mosquito-borne . These congruencies can lead to cross-reactive antibody binding, whereby antibodies generated from previous dengue virus immunity can augment Zika virus replication . This phenomenon, termed antibody-dependent enhancement, may participate in the clinical manifestations detected in areas with cocirculations where Zika virus is endemic; however, a causal relationship has yet to be determined. The KU812 mast cell/basophil line was integral in identifying the first infection in mast cells and serves as an effective model to study dengue virus antibody-dependent enhancement. Mast cells, sentinel white blood cells intrinsic in coordinating early immune defenses, are characteristically situated in the intradermal space and are therefore among the first immune cells interfaced with blood-feeding mosquitoes. Here, we tested whether KU812 cells were permissive to Zika virus, how previous dengue virus immunity might augment Zika virus infection, and whether either condition induces an immunological response. We report an antibody-dependent enhancement effect of Zika virus infection in KU812 cells across multiple time points (48, 72, and 96 hours postinfection [hpi]) and a range of multiplicities of infection (4.0 × 10 to 4) using various concentrations of cross-reactive dengue virus monoclonal antibodies (D11C and 1.6D). This antigen-specific antibody-mediated infection was selectively coupled to chemokine ligand 5 (CCL5), interleukin 1β (IL-1β), and C-X-C motif chemokine ligand 10 (CXCL10) secretion and a reduction in granzyme B (GrB) release. Therefore, mast cells and/or basophils may significantly augment Zika virus infection in the context of preexisting dengue virus immunity. Antibodies generated against one dengue serotype can enhance infection of another by a phenomenon called antibody-dependent enhancement (ADE). Additionally, antigenic similarities between Zika and dengue viruses can promote Zika virus infection by way of ADE using these very same anti-dengue antibodies. We used the KU812 cell line to demonstrate for the first time that anti-dengue antibodies enhanced infectious Zika virus replication in a mast cell model and specifically increased CCL5, CXCL10, and IL-1β, while also impairing granzyme B secretion. Furthermore, enhanced Zika virus infection and selective mediator release were mechanistically dependent on fragment crystallizable gamma receptor II (FcγRII). These findings establish a new model for Zika virus research and a new subcategory of immune cells previously unexplored in the context of Zika virus enhancement while being some of the very first immune cells likely to meet a blood-feeding infected mosquito.
寨卡病毒和登革热病毒是进化上相关且结构相似的蚊媒病毒。这些一致性可能导致交叉反应性抗体结合,从而使以前登革热病毒免疫产生的抗体增强寨卡病毒的复制。这种现象称为抗体依赖性增强,可能参与了在寨卡病毒流行地区同时流行的情况下检测到的临床表现;然而,因果关系尚未确定。KU812 肥大细胞/嗜碱性粒细胞系在鉴定第一例肥大细胞感染中起着重要作用,是研究登革热病毒抗体依赖性增强的有效模型。肥大细胞是固有地协调早期免疫防御的哨兵白细胞,其特征位于真皮内空间,因此是与吸血蚊子最先接触的免疫细胞之一。在这里,我们测试了 KU812 细胞是否允许寨卡病毒感染,以前的登革热病毒免疫如何增强寨卡病毒感染,以及这两种情况是否会引起免疫反应。我们报告了在多个时间点(感染后 48、72 和 96 小时[hpi])和多种感染复数(4.0×10 至 4)下,KU812 细胞中寨卡病毒感染的抗体依赖性增强效应,以及使用各种浓度的交叉反应性登革热病毒单克隆抗体(D11C 和 1.6D)。这种抗原特异性抗体介导的感染与趋化因子配体 5(CCL5)、白细胞介素 1β(IL-1β)和 C-X-C 基序趋化因子配体 10(CXCL10)的分泌以及颗粒酶 B(GrB)释放减少有关。因此,在先前存在的登革热病毒免疫的情况下,肥大细胞和/或嗜碱性粒细胞可能会显著增强寨卡病毒感染。针对一种登革热血清型的抗体可以通过称为抗体依赖性增强(ADE)的现象增强另一种血清型的感染。此外,寨卡病毒和登革热病毒之间的抗原相似性可以通过使用这些相同的抗登革热抗体来促进寨卡病毒感染。我们使用 KU812 细胞系首次证明,抗登革热抗体增强了肥大细胞模型中传染性寨卡病毒的复制,并特异性增加了 CCL5、CXCL10 和 IL-1β,同时也损害了颗粒酶 B 的分泌。此外,增强的寨卡病毒感染和选择性介质释放在机制上依赖于片段结晶化 γ 受体 II(FcγRII)。这些发现为寨卡病毒研究建立了一个新模型,以及一个以前在寨卡病毒增强方面未被探索的新的免疫细胞亚类,同时也是最有可能遇到吸血感染蚊子的第一批免疫细胞之一。
