Synthetic hemozoin as a nanocarrier for cross-presentation

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Letícia Torres-Dias , Rebeca Santana Souza , Jessica Carolina Alves Moreira , Douglas de Oliveira Paggi , Jônatas Bussador do Amaral , André Luis Lacerda Bachi , Leonardo Augusto , Marina Tiemi Shio
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Abstract

It is known that conventional antigen presentation involves phagocytosis of antigens followed by its internalization in endocytic compartments and presentation of epitopes through MHC class II molecules for CD4 T cells. However, since 1976 a cross-presentation pathway has been studied, in which CD8 T cells are activated via MHC class I with antigens acquired through phagocytosis or endocytosis by dendritic cells (DCs). Among some important molecules involved in the cross-presentation, the C‐type lectin receptor of the Dectin‐1 cluster (CLECs), particularly the CLEC9A receptor, not only is expressed in dendritic cells but also presents a pivotal role in this context. In special, CLEC12A has been highlighted as a malaria pigment hemozoin (HZ) receptor. During Plasmodium infection, hemozoin crystals defend the parasite against heme toxicity within erythrocytes, as well as the released native HZ elicits pro-inflammatory responses and can induce cross-presentation. Particularly, this crystal can be synthesized from hematin anhydride and mimics the native form, and the gaps generated between the nanocrystal domains during its synthesis allow for substance coupling followed by its coating. Therefore, this study aimed to assess whether synthetic hemozoin (sHz) or hematin anhydride could be a nanocarrier and promote cross-presentation in dendritic cells. Firstly, it was verified that sHz can carry coated and coupled antigens, the compounds can associate to LAMP1-positive vesicles and decrease overall intracellular pH, which can potentially enhance the cross-presentation of ovalbumin and Leishmania infantum antigens. Thus, this study adds important data in the molecular intricacies of antigen presentation by showing not only the sHz immunomodulatory properties but also its potential applications as an antigen carrier.

作为纳米载体用于交叉呈现的合成血色素
众所周知,传统的抗原呈递包括吞噬抗原,然后将其内化到内细胞区,并通过 MHC II 类分子向 CD4 T 细胞呈递表位。然而,自 1976 年以来,人们开始研究一种交叉呈递途径,即 CD8 T 细胞通过 MHC I 类激活通过树突状细胞(DC)吞噬或内吞作用获得的抗原。在参与交叉呈递的一些重要分子中,Dectin-1 簇的 C 型凝集素受体(CLECs),尤其是 CLEC9A 受体,不仅在树突状细胞中表达,而且在这种情况下发挥着关键作用。特别值得一提的是,CLEC12A 是一种疟疾色素造血素(HZ)受体。在疟原虫感染期间,血色素晶体可保护寄生虫免受红细胞内血红素的毒性,释放的原生 HZ 可引起促炎反应并诱导交叉呈递。特别是,这种晶体可以用赤藓红酸酐合成,并模拟原生形态,而且在合成过程中纳米晶体结构域之间产生的间隙可以进行物质耦合,然后进行包覆。因此,本研究旨在评估合成安息香酸(sHz)或血宁酸酐能否作为纳米载体并促进树突状细胞的交叉呈递。首先,研究验证了 sHz 可携带包被抗原和偶联抗原,这些化合物可与 LAMP1 阳性囊泡结合并降低细胞内整体 pH 值,从而有可能增强卵清蛋白和幼年利什曼病抗原的交叉呈递。因此,这项研究不仅显示了 sHz 的免疫调节特性,还显示了其作为抗原载体的潜在应用,从而为抗原呈递的分子复杂性增添了重要数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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