Laboratoire d'Excellence Inflamex, Institut National de la Santé et de la Recherche Medicale U1152, Physiopathologie et Épidémiologie des Maladies Respiratoires, Université de Paris-Cité, Paris, France.
Université Paris Cité and Université Sorbonne Paris Nord, Inserm, LVTS, Paris, France.
Front Immunol. 2024 May 21;15:1398369. doi: 10.3389/fimmu.2024.1398369. eCollection 2024.
Although many studies have underscored the importance of T cells, phenotypically and functionally, fewer have studied the functions of myeloid cells in COVID disease. In particular, the potential role of myeloid cells such as monocytes and low-density neutrophils (LDNs) in innate responses and particular in the defense against secondary bacterial infections has been much less documented.
Here, we compared, in a longitudinal study, healthy subjects, idiopathic fibrosis patients, COVID patients who were either hospitalized/moderate (M-) or admitted to ICU (COV-ICU) and patients in ICU hospitalized for other reasons (non-COV-ICU).
We show that COVID patients have an increased proportion of low-density neutrophils (LDNs), which produce high levels of proteases (particularly, NE, MMP-8 and MMP-9) (unlike non-COV-ICU patients), which are partly responsible for causing type II alveolar cell damage in co-culture experiments. In addition, we showed that M- and ICU-COVID monocytes had reduced responsiveness towards further live (PAO1 strain) infection, an important pathogen colonizing COVID patients in ICU, as assessed by an impaired secretion of myeloid cytokines (IL-1, TNF, IL-8,…). By contrast, lymphoid cytokines (in particular type 2/type 3) levels remained high, both basally and post PAO1 infection, as reflected by the unimpaired capacity of T cells to proliferate, when stimulated with anti-CD3/CD28 beads.
Overall, our results demonstrate that COVID circulatory T cells have a biased type 2/3 phenotype, unconducive to proper anti-viral responses and that myeloid cells have a dual deleterious phenotype, through their LDN-mediated damaging effect on alveolar cells and their impaired responsiveness (monocyte-mediated) towards bacterial pathogens such as .
尽管许多研究强调了 T 细胞在表型和功能上的重要性,但很少有研究关注髓样细胞在 COVID 疾病中的功能。特别是,单核细胞和低密度中性粒细胞(LDN)等髓样细胞在先天反应中的潜在作用,特别是在防御继发细菌感染方面的作用,记录较少。
在这里,我们在一项纵向研究中比较了健康受试者、特发性纤维化患者、住院/中度(M-)COVID 患者、入住 ICU(COV-ICU)的 COVID 患者和因其他原因入住 ICU(非 COV-ICU)的患者。
我们表明 COVID 患者的低密度中性粒细胞(LDN)比例增加,这些细胞产生高水平的蛋白酶(特别是 NE、MMP-8 和 MMP-9)(与非 COV-ICU 患者不同),这部分是造成 II 型肺泡细胞在共培养实验中损伤的原因。此外,我们还表明,M 和 ICU-COVID 单核细胞对进一步的活(PAO1 株)感染的反应性降低,这是 ICU 中 COVID 患者定植的重要病原体,这可以通过受损的髓样细胞因子(IL-1、TNF、IL-8,…)分泌来评估。相比之下,淋巴细胞因子(特别是 2/3 型)水平保持较高,无论是在基础水平还是在 PAO1 感染后,这反映了 T 细胞在受到抗 CD3/CD28 珠刺激时仍能增殖,表明其具有不受损害的增殖能力。
总的来说,我们的结果表明,COVID 循环 T 细胞具有偏向 2/3 型的表型,不利于适当的抗病毒反应,而髓样细胞具有双重有害表型,通过其 LDN 对肺泡细胞的破坏性作用及其对细菌病原体(如)的反应性降低(单核细胞介导)。
