人类新生儿单核细胞表现出不同的 BCG 诱导的原发性和训练性固有细胞因子产生和代谢激活。
Human Newborn Monocytes Demonstrate Distinct BCG-Induced Primary and Trained Innate Cytokine Production and Metabolic Activation .
机构信息
Department of Neonatology, Beth Israel Deaconess Medical Center, Boston, MA, United States.
Precision Vaccines Program, Division of Infectious Diseases, Boston Children's Hospital, Boston, MA, United States.
出版信息
Front Immunol. 2021 Jul 13;12:674334. doi: 10.3389/fimmu.2021.674334. eCollection 2021.
BACKGROUND
Newborns exhibit distinct immune responses and are at high risk of infection. Neonatal immunization with BCG, the live attenuated vaccine against tuberculosis (TB), is associated with broad protection against a range of unrelated pathogens, possibly reflecting vaccine-induced training of innate immune cells ("innate memory"). However, little is known regarding the impact of age on BCG-induced innate responses.
OBJECTIVE
Establish an age-specific human monocyte training platform to characterize and compare BCG-induced primary and memory cytokine responses and immunometabolic shifts.
DESIGN/METHODS: Human neonatal and adult CD33-selected monocytes were stimulated for 24h with RPMI (control) or BCG (Danish strain) in 10% autologous serum, washed and cultured for 5 additional days, prior to re-stimulation with the TLR4 agonist LPS for another 24h. Supernatants were collected at Day 1 (D1) to measure innate responses and at Day 7 (D7) to assess innate responses by ELISA and multiplex cytokine and chemokine assays. Lactate, a signature metabolite increased during trained immunity, was measured by colorimetric assay.
RESULTS
Cytokine production by human monocytes differed significantly by age at D1 (primary, BCG 1:750 and 1:100 vol/vol, p<0.0001) and D7 (innate memory response, BCG 1:100 vol/vol, p<0.05). Compared to RPMI control, newborn monocytes demonstrated greater TNF (1:100, 1:10 vol/vol, p<0.01) and IL-12p40 (1:100 vol/vol, p<0.05) production than adult monocytes (1:100, p<0.05). At D7, while BCG-trained adult monocytes, as previously reported, demonstrated enhanced LPS-induced TNF production, BCG-trained newborn monocytes demonstrated tolerization, as evidenced by significantly diminished subsequent LPS-induced TNF (RPMI vs. BCG 1:10, p <0.01), IL-10 and CCL5 production (p<0.05). With the exception of IL-1RA production by newborn monocytes, BCG-induced monocyte production of D1 cytokines/chemokines was inversely correlated with D7 LPS-induced TNF in both age groups (p<0.0001). Compared to BCG-trained adult monocytes, newborn monocytes demonstrated markedly impaired BCG-induced production of lactate, a metabolite implicated in immune training in adults.
CONCLUSIONS
BCG-induced human monocyte primary- and memory-innate cytokine responses were age-dependent and accompanied by distinct immunometabolic shifts that impact both glycolysis and training. Our results suggest that immune ontogeny may shape innate responses to live attenuated vaccines, suggesting age-specific approaches to leverage innate training for broad protection against infection.
背景
新生儿表现出独特的免疫反应,并且感染风险很高。使用卡介苗(BCG)对新生儿进行免疫接种,这是一种针对结核病(TB)的减毒活疫苗,与对一系列不相关病原体的广泛保护有关,这可能反映了疫苗诱导的先天免疫细胞“先天记忆”的训练。然而,对于年龄对 BCG 诱导的先天反应的影响知之甚少。
目的
建立一个特定于年龄的人单核细胞训练平台,以表征和比较 BCG 诱导的初级和记忆细胞因子反应和免疫代谢转变。
设计/方法:用 RPMI(对照)或 BCG(丹麦株)在 10%自体血清中刺激人类新生儿和成人 CD33 选择的单核细胞 24 小时,洗涤并在添加另外 5 天,然后用 TLR4 激动剂 LPS 再刺激另 24 小时。在第 1 天(D1)收集上清液以测量先天反应,在第 7 天(D7)通过 ELISA 和多重细胞因子和趋化因子测定法评估先天反应。通过比色法测量训练免疫过程中增加的特征代谢产物乳酸。
结果
人单核细胞在 D1 时的细胞因子产生(初级,BCG 1:750 和 1:100 体积/体积,p<0.0001)和 D7(先天记忆反应,BCG 1:100 体积/体积,p<0.05))显著不同。与 RPMI 对照相比,新生单核细胞表现出比成人单核细胞更高的 TNF(1:100,1:10 体积/体积,p<0.01)和 IL-12p40(1:100 体积/体积,p<0.05)产生。在 D7 时,尽管如先前报道的那样,BCG 训练的成人单核细胞表现出增强的 LPS 诱导的 TNF 产生,但 BCG 训练的新生单核细胞表现出耐受,这表现为随后 LPS 诱导的 TNF(RPMI 与 BCG 1:10,p <0.01),IL-10 和 CCL5 产生显著减少(p<0.05)。除了新生单核细胞产生的 IL-1RA 外,BCG 诱导的单核细胞在 D1 时产生的细胞因子/趋化因子与两个年龄组中 D7 LPS 诱导的 TNF 呈负相关(p<0.0001)。与 BCG 训练的成人单核细胞相比,新生单核细胞表现出明显受损的 BCG 诱导的乳酸产生,乳酸是成人免疫训练中涉及的代谢产物。
结论
BCG 诱导的人单核细胞初级和记忆先天细胞因子反应是年龄依赖性的,并伴随着独特的免疫代谢转变,这既影响糖酵解又影响训练。我们的结果表明,免疫个体发生可能会影响对减毒活疫苗的先天反应,这表明针对特定年龄的方法可以利用先天训练来广泛预防感染。
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