针对儿童呼吸道和血液中免疫细胞的跨组织、年龄特异性流式细胞仪参考方法

Shivanthan Shanthikumar, Liam Gubbels, Karen Davies, Hannah Walker, Anson Tsz Chun Wong, Jovana Maksimovic, Alicia Oshlack, Richard Saffery, Eric Levi, Sarath C. Ranganathan, Melanie R. Neeland
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引用次数: 0

摘要

呼吸道疾病是儿童发病和住院的常见原因。尽管如此,治疗方法却很有限,而且往往无效。为儿童开发治愈性或改变疾病的治疗方法有赖于更好地了解早期气道中的潜在免疫。为了建立儿科气道免疫细胞的流式细胞术参考标准,我们分析了来自 66 名 1-15 岁儿童的 178 份样本。其中包括上气道(鼻腔刷毛、腭扁桃体、腺扁桃体)和下气道(支气管刷毛、支气管肺泡灌洗(BAL))的五种组织,以及用于配对分析局部和全身免疫反应的全血。鼻腔、支气管和肺泡样本采用 17 复合物抗体板进行分析,该抗体板可捕捉免疫和上皮系细胞;扁桃体、腺样体和血液样本则采用 31 复合物抗体板进行分析,该抗体板可广泛表型单核免疫细胞。所有方案、面板和数据均可公开获取,以方便儿科临床实验室实施。我们为 37 个细胞群提供了婴儿期(0-2 岁)、学龄前期(3-5 岁)、儿童期(6-10 岁)和青少年期(11-15 岁)的特定年龄细胞参考数据。我们显示了气道免疫系统在整个儿童期的组织特异性成熟,进一步突出了开发儿科气道特定年龄参考数据的重要性。对配对样本进行的个体内、跨组织分析表明,鼻腔-支气管配对样本、扁桃体-腺样体配对样本以及腺样体-血液配对样本之间的免疫细胞比例存在明显的相关性,这可能对临床测试有影响。我们的研究增进了人们对婴儿期至青春期气道免疫的了解,并提供了一个公开的对照数据集,有助于解释从呼吸道疾病患儿样本中获得的临床发现。
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A cross-tissue, age-specific flow cytometry reference for immune cells in the airways and blood of children
Respiratory diseases are a common cause of morbidity and hospitalisation for children. Despite this, treatment options are limited and are often ineffective. The development of curative or disease-modifying treatments for children relies on a better understanding of underlying immunity in the early airway. To establish a flow cytometry reference for immune cells in the paediatric airway, we analysed 178 samples from 66 children aged between 1-15 years. This included five tissues of the upper (nasal brushings, palatine tonsils, adenotonsil) and lower (bronchial brushings, bronchoalveolar lavage (BAL)) airway, as well as whole blood for paired analysis of local and systemic immune response. Nasal, bronchial, and alveolar samples were analysed using a 17-plex antibody panel that captures cells of immune and epithelial lineage, while tonsil, adenoid, and blood samples were analysed using a 31-plex antibody panel that extensively phenotypes mononuclear immune cells. All protocols, panels, and data are openly available, to facilitate implementation in paediatric clinical laboratories. We provide age-specific cell reference data for infancy (0-2 years), preschool (3-5 years), childhood (6-10 years) and adolescence (11-15 years) for 37 cell populations. We show tissue-specific maturation of the airway immune system across childhood, further highlighting the importance of developing age-specific references of the paediatric airway. Intra-individual, cross-tissue analysis of paired samples revealed marked correlation in immune cell proportions between paired nasal-bronchial samples, paired tonsil-adenoid samples, and paired adenoid-blood samples, which may have implications for clinical testing. Our study advances knowledge of airway immunity from infancy through to adolescence and provides an openly available control dataset to aid in interpretation of clinical findings in samples obtained from children with respiratory diseases.
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