Renwick Julie, Reece Emma, Walsh Jamie, Walsh Ross, Persaud Thara, O'Leary Cathal, Donnelly Seamas C, Greally Peter
Clinical Microbiology, Trinity College Dublin, Dublin, Ireland.
Children's Health Ireland and Tallaght University Hospital, Dublin, Ireland.
Front Pediatr. 2021 Mar 31;9:640184. doi: 10.3389/fped.2021.640184. eCollection 2021.
Cystic Fibrosis (CF) lung damage begins early in life. Lung function decline is associated with pulmonary infections, neutrophil infiltration and inflammation. In CF, neutrophils have an altered phenotype. In this pilot study, we aimed to determine if signals of dysfunctional neutrophil responses were evident early in life and whether these signals may be associated with lung damage in later childhood. We examined the pulmonary protein profiles of 14 clinical stable infants and pre-school children with CF employing the aptamer-based affinity platform, SOMAscan®. High resolution computed tomography (HRCT) was performed on all children after age 6 years and Brody score calculated. A Spearman's rank order correlation analysis and Benjamini-Hochberg adjustment was used to correlate protein concentrations in early life to Brody scores in later childhood. Early life concentrations of azurocidin and myeloperoxidase, were positively correlated with Brody score after age 6 ( = 0.0041 and = 0.0182, respectively). Four other neutrophil associated proteins; Complement C3 ( = 0.0026), X-ray repair CCP 6 ( = 0.0059), C3a anaphylatoxin des Arginine ( = 0.0129) and cytokine receptor common subunit gamma ( = 0.0214) were all negatively correlated with Brody scores. Interestingly, patients with more severe lung damage after age 6 had significantly lower levels of IL-22 in early years of life ( = 0.0243). IL-22 has scarcely been reported to have implications in CF. Identification of early biomarkers that may predict more severe disease progression is particularly important for the future development of early therapeutic interventions in CF disease. We recommend further corroboration of these findings in prospective validation studies.
囊性纤维化(CF)导致的肺部损伤在生命早期就开始了。肺功能下降与肺部感染、中性粒细胞浸润及炎症有关。在CF患者中,中性粒细胞的表型发生了改变。在这项初步研究中,我们旨在确定功能失调的中性粒细胞反应信号在生命早期是否明显,以及这些信号是否可能与儿童后期的肺部损伤有关。我们使用基于适体的亲和平台SOMAscan®检测了14名临床状况稳定的CF婴儿和学龄前儿童的肺部蛋白质谱。所有儿童在6岁后均进行了高分辨率计算机断层扫描(HRCT)并计算了布罗迪评分。采用斯皮尔曼等级相关分析和本杰明尼-霍奇伯格校正方法,将生命早期的蛋白质浓度与儿童后期的布罗迪评分进行关联。生命早期的天青杀素和髓过氧化物酶浓度与6岁后的布罗迪评分呈正相关(分别为 = 0.0041和 = 0.0182)。其他四种与中性粒细胞相关的蛋白质;补体C3( = 0.0026)、X射线修复CCP 6( = 0.0059)、C3a过敏毒素去精氨酸( = 0.0129)和细胞因子受体共同亚基γ( = 0.0214)均与布罗迪评分呈负相关。有趣的是,6岁后肺部损伤更严重的患者在生命早期的IL-22水平显著较低( = 0.0243)。IL-22在CF中的影响鲜有报道。识别可能预测更严重疾病进展的早期生物标志物对于CF疾病早期治疗干预的未来发展尤为重要。我们建议在前瞻性验证研究中进一步证实这些发现。
