Bernal Carmen E, Zorro Maria M, Sierra Jelver, Gilchrist Katherine, Botero Jorge H, Baena Andres, Ramirez-Pineda Jose R
Grupo Inmunomodulación, Universidad de AntioquiaMedellín, Colombia; Grupo de Parasitología, Universidad de AntioquiaMedellín, Colombia.
Grupo Inmunomodulación, Universidad de Antioquia Medellín, Colombia.
Front Cell Infect Microbiol. 2016 Feb 2;6:4. doi: 10.3389/fcimb.2016.00004. eCollection 2016.
Microsporidia are a group of intracellular pathogens causing self-limited and severe diseases in immunocompetent and immunocompromised individuals, respectively. A cellular type 1 adaptive response, mediated by IL-12, IFNγ, CD4+, and CD8+ T cells has been shown to be essential for host resistance, and dendritic cells (DC) play a key role at eliciting anti-microsporidial immunity. We investigated the in vitro response of DC and DC precursors/progenitors to infection with Encephalitozoon intestinalis (Ei), a common agent of human microsporidosis. Ei-exposed DC cultures up-regulated the surface expression of MHC class II and the costimulatory molecules CD86 and CD40, only when high loads of spores were used. A vigorous secretion of IL-6 but not of IL-1β or IL-12p70 was also observed in these cultures. Ei-exposed DC cultures consisted of immature infected and mature bystander DC, as assessed by MHC class II and costimulatory molecules expression, suggesting that intracellular Ei spores deliver inhibitory signals in DC. Moreover, Ei selectively inhibited the secretion of IL-12p70 in LPS-stimulated DC. Whereas Ei-exposed DC promoted allogeneic naïve T cell proliferation and IL-2 and IFNγ secretion in DC-CD4+ T cell co-cultures, separated co-cultures with bystander or infected DCs showed stimulation or inhibition of IFNγ secretion, respectively. When DC precursors/progenitors were exposed to Ei spores, a significant inhibition of DC differentiation was observed without shifting the development toward cells phenotypically or functionally compatible with myeloid-derived suppressor cells. Neutralization experiments demonstrated that this inhibitory effect is IL-6-dependent. Altogether this investigation reveals a novel potential mechanism of immune escape of microsporidian parasites through the modulation of DC differentiation and maturation.
微孢子虫是一类细胞内病原体,分别在免疫功能正常和免疫功能低下的个体中引起自限性疾病和严重疾病。由白细胞介素-12、干扰素γ、CD4⁺和CD8⁺T细胞介导的细胞1型适应性反应已被证明对宿主抵抗力至关重要,而树突状细胞(DC)在引发抗微孢子虫免疫中起关键作用。我们研究了DC及其前体/祖细胞对人微孢子虫病常见病原体肠脑炎微孢子虫(Ei)感染的体外反应。只有在使用高负荷孢子时,暴露于Ei的DC培养物才会上调MHC II类分子以及共刺激分子CD86和CD40的表面表达。在这些培养物中还观察到IL-6的大量分泌,但未观察到IL-1β或IL-12p70的分泌。根据MHC II类分子和共刺激分子的表达评估,暴露于Ei的DC培养物由未成熟的感染DC和成熟的旁观者DC组成,这表明细胞内的Ei孢子在DC中传递抑制信号。此外,Ei选择性抑制脂多糖刺激的DC中IL-12p70的分泌。虽然暴露于Ei的DC在DC-CD4⁺T细胞共培养中促进了同种异体初始T细胞增殖以及IL-2和干扰素γ的分泌,但与旁观者DC或感染DC的单独共培养分别显示出对干扰素γ分泌的刺激或抑制。当DC前体/祖细胞暴露于Ei孢子时,观察到DC分化受到显著抑制,且未向表型或功能上与髓系来源的抑制细胞相容的细胞方向转变。中和实验表明这种抑制作用依赖于IL-6。总之,这项研究揭示了微孢子虫寄生虫通过调节DC分化和成熟实现免疫逃逸的一种新的潜在机制。
