Human dendritic cell maturation induced by amorphous silica nanoparticles is Syk-dependent and triggered by lipid raft aggregation.

IF 7.2 1区 医学 Q1 TOXICOLOGY
Éléonore Guillet, Émilie Brun, Céline Ferard, Kévin Hardonnière, Myriam Nabhan, François-Xavier Legrand, Marc Pallardy, Armelle Biola-Vidamment
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引用次数: 0

Abstract

Background: Synthetic amorphous silica nanoparticles (SAS-NPs) are widely employed in pharmaceutics, cosmetics, food and concretes. Workers and the general population are exposed daily via diverse routes of exposure. SAS-NPs are generally recognized as safe (GRAS) by the Food and Drug Administration, but because of their nanoscale size and extensive uses, a better assessment of their immunotoxicity is required. In the presence of immune "danger signals", dendritic cells (DCs) undergo a maturation process resulting in their migration to regional lymph nodes where they activate naive T-cells. We have previously shown that fumed silica pyrogenic SAS-NPs promote the two first steps of the adaptative immune response by triggering DC maturation and T-lymphocyte response, suggesting that SAS-NPs could behave as immune "danger signals". The present work aims to identify the mechanism and the signalling pathways involved in DC phenotype modifications provoked by pyrogenic SAS-NPs. As a pivotal intracellular signalling molecule whose phosphorylation is associated with DC maturation, we hypothesized that Spleen tyrosine kinase (Syk) may play a central role in SAS-NPs-induced DC response.

Results: In human monocyte-derived dendritic cells (moDCs) exposed to SAS-NPs, Syk inhibition prevented the induction of CD83 and CD86 marker expression. A significant decrease in T-cell proliferation and IFN-γ, IL-17F and IL-9 production was found in an allogeneic moDC:T-cell co-culture model. These results suggested that the activation of Syk was necessary for optimal co-stimulation of T-cells. Moreover, Syk phosphorylation, observed 30 min after SAS-NP exposure, occurred upstream of the c-Jun N-terminal kinase (JNK) Mitogen-activated protein kinases (MAPK) and was elicited by the Src family of protein tyrosine kinases. Our results also showed for the first time that SAS-NPs provoked aggregation of lipid rafts in moDCs and that MβCD-mediated raft destabilisation altered Syk activation.

Conclusions: We showed that SAS-NPs could act as an immune danger signal in DCs through a Syk-dependent pathway. Our findings revealed an original mechanism whereby the interaction of SAS-NPs with DC membranes promoted aggregation of lipid rafts, leading to a Src kinase-initiated activation loop triggering Syk activation and functional DC maturation.

Abstract Image

Abstract Image

Abstract Image

无定形二氧化硅纳米颗粒诱导的人树突状细胞成熟依赖于syk,并由脂筏聚集触发。
背景:合成无定形二氧化硅纳米颗粒(SAS-NPs)广泛应用于制药、化妆品、食品和混凝土等领域。工人和一般人群每天通过不同的接触途径受到辐射。SAS-NPs通常被食品和药物管理局认定为安全(GRAS),但由于其纳米级尺寸和广泛使用,需要对其免疫毒性进行更好的评估。在免疫“危险信号”的存在下,树突状细胞(dc)经历一个成熟过程,导致它们迁移到局部淋巴结,在那里它们激活幼稚t细胞。我们之前的研究表明,气相二氧化硅热原SAS-NPs通过触发DC成熟和t淋巴细胞反应来促进适应性免疫反应的两个第一步,这表明SAS-NPs可能充当免疫“危险信号”。目前的工作旨在确定热原SAS-NPs引起的DC表型改变的机制和信号通路。作为一个关键的细胞内信号分子,其磷酸化与DC成熟相关,我们假设脾酪氨酸激酶(Syk)可能在sas - nps诱导的DC反应中发挥核心作用。结果:在暴露于SAS-NPs的人单核细胞来源的树突状细胞(moDCs)中,Syk抑制了CD83和CD86标记物的表达。在同种异体moDC: t细胞共培养模型中,t细胞增殖和IFN-γ、IL-17F和IL-9的产生显著减少。这些结果表明Syk的激活对于t细胞的最佳共刺激是必要的。此外,在SAS-NP暴露30分钟后观察到,Syk磷酸化发生在c-Jun n末端激酶(JNK)丝裂原活化蛋白激酶(MAPK)上游,并由Src蛋白酪氨酸激酶家族引发。我们的研究结果还首次表明,SAS-NPs引发了moDCs中脂筏的聚集,并且m β cd介导的脂筏不稳定改变了Syk的激活。结论:我们发现SAS-NPs可以通过syk依赖性途径在dc中作为免疫危险信号。我们的研究结果揭示了一种原始机制,即SAS-NPs与DC膜的相互作用促进了脂筏的聚集,导致Src激酶启动的激活环触发Syk激活和功能性DC成熟。
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来源期刊
CiteScore
15.90
自引率
4.00%
发文量
69
审稿时长
6 months
期刊介绍: Particle and Fibre Toxicology is an online journal that is open access and peer-reviewed. It covers a range of disciplines such as material science, biomaterials, and nanomedicine, focusing on the toxicological effects of particles and fibres. The journal serves as a platform for scientific debate and communication among toxicologists and scientists from different fields who work with particle and fibre materials. The main objective of the journal is to deepen our understanding of the physico-chemical properties of particles, their potential for human exposure, and the resulting biological effects. It also addresses regulatory issues related to particle exposure in workplaces and the general environment. Moreover, the journal recognizes that there are various situations where particles can pose a toxicological threat, such as the use of old materials in new applications or the introduction of new materials altogether. By encompassing all these disciplines, Particle and Fibre Toxicology provides a comprehensive source for research in this field.
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