Melatonin Alters Innate Immune Function in Infants with Neonatal Encephalopathy.

IF 2.6 3区医学 Q1 PEDIATRICS Neonatology Pub Date : 2023-01-01 DOI:10.1159/000527714

Saima Aslam, Mary O'Dea, Lynne A Kelly, Amanda O'Neill, Ellen McKenna, Tim Hurley, Aoife Branagan, David O'Driscoll, Caoimhe Normile, Shahid Saleemi, Deirdre Sweetman, Claudine Vavasseur, John Murphy, Veronica Donoghue, William Watson, Eleanor J Molloy

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引用次数: 1

Abstract

Introduction: Melatonin has been suggested an adjunctive therapy in neonatal encephalopathy (NE). Melatonin reduces oxidative stress and neutrophil activation; however, the immunological effects in NE have not been studied.

Methods: Infants with NE and neonatal controls were prospectively recruited. Whole blood was sampled in the first week of life. Following endotoxin and or melatonin treatment, diurnal variation was measured by RT PCR for circadian rhythm genes (brain and Muscle Arnt-Like protein [BMAL1], circadian locomotor output cycles kaput [CLOCK], Nuclear Receptor Subfamily 1 Group D Member 2 [REV Erβ], and cryptochrome circadian clock [CRY]). Neutrophil and monocyte cell surface markers of activation CD11b, reactive oxygen intermediates (ROIs), and Toll-like receptor (TLR)-4 were also examined by flow cytometry in matching samples.

Results: Serum and RNA samples from forty infants were included (controls n = 20; NE n = 20) over the first week of life. Melatonin reduced neutrophil CD11b and TLR-4 expression in response to LPS in infants with NE compared to controls. There were no differences in ROIs. BMAL1 and CLOCK baseline gene expression levels were similar. BMAL1 was significantly decreased with LPS stimulation in NE. There was no significant diurnal variation in melatonin, neutrophil, and monocyte function or circadian genes.

Conclusions: Melatonin alters immune function ex vivo in infants with NE. Infants with NE have altered immune circadian responses following LPS stimulation, which have potential for modulation.

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褪黑素改变新生儿脑病婴儿的先天免疫功能。

褪黑素已被建议作为新生儿脑病(NE)的辅助治疗。褪黑素减少氧化应激和中性粒细胞活化;然而，对NE的免疫作用尚未进行研究。方法:前瞻性招募NE患儿和新生儿对照组。在出生后的第一周采集全血。在内毒素和褪黑素治疗后，通过RT - PCR检测昼夜节律基因(脑和肌肉art - like蛋白[BMAL1]、昼夜运动输出周期kaput [CLOCK]、核受体亚家族1组D成员2 [REV Erβ]和隐色素昼夜节律钟[CRY])的日变化。用流式细胞术检测匹配样本中中性粒细胞和单核细胞表面CD11b活化标志物、活性氧中间体(ROIs)和toll样受体(TLR)-4。结果:纳入40例婴儿的血清和RNA样本(对照组n = 20;NE n = 20)。与对照组相比，褪黑素降低了新生儿NE对LPS的中性粒细胞CD11b和TLR-4表达。在roi方面没有差异。BMAL1和CLOCK基线基因表达水平相似。BMAL1在LPS刺激下显著降低。褪黑激素、中性粒细胞、单核细胞功能或昼夜节律基因没有明显的昼夜变化。结论:褪黑素可改变新生儿NE的体外免疫功能。新生儿NE有改变免疫昼夜反应后LPS刺激，这是有可能调节。

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

Neonatology 医学-小儿科

CiteScore

0.60

自引率

4.00%

发文量

审稿时长

6-12 weeks

期刊介绍： This highly respected and frequently cited journal is a prime source of information in the area of fetal and neonatal research. Original papers present research on all aspects of neonatology, fetal medicine and developmental biology. These papers encompass both basic science and clinical research including randomized trials, observational studies and epidemiology. Basic science research covers molecular biology, molecular genetics, physiology, biochemistry and pharmacology in fetal and neonatal life. In addition to the classic features the journal accepts papers for the sections Research Briefings and Sources of Neonatal Medicine (historical pieces). Papers reporting results of animal studies should be based upon hypotheses that relate to developmental processes or disorders in the human fetus or neonate.

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