Department of Pulmonology, Leiden University Medical Center, Leiden, 2333ZA, the Netherlands.
Department of Respiratory Medicine, Hannover Medical School, Biomedical Research in End-stage and Obstructive Lung Disease Hannover (BREATH), Member of German Centre for Lung Research (DZL), Hannover, Germany.
Respir Med. 2019 Mar;148:60-62. doi: 10.1016/j.rmed.2019.02.001. Epub 2019 Feb 6.
Human blood monocytes are divided into populations based on the differential expression of CD14 and CD16 receptors: CD14 CD16(classical), CD14 CD16 (intermediate), and CD14CD16 (non-classical). Given their functional differences and their role in pathogenesis of chronic obstructive pulmonary disease (COPD), monocyte profiling is of clinical interest. Here we investigated blood monocyte subsets in clinically stable COPD patients with alpha1-antitrypsin (AAT) deficiency (PiZZ, n = 7) and with normal AAT variant (PiMM, n = 7). Peripheral whole blood was collected in sodium heparin tubes and incubated with LPS (from E. coli; 1 μg/ml) or placebo for 6 h at 37 °C, 5% CO2. To profile monocyte subsets we performed flow cytometry analysis based on HLA-DR and CD14/CD16 staining. HLA-DR + subsets of cells did not differ between PiZZ and PiMM COPD, and healthy controls (n = 7), used as a reference. Monocyte profiling, which express the CD14 and CD16, but not the HLA-DR (HLA-DR-) showed that intermediate monocytes subset was lowest in PiZZ group, and almost totally disappeared from blood treated with LPS. The non-classical subset was almost absent in PiZZ patients independently of LPS treatment. Recent studies demonstrate that non-classical monocytes exhibit a unique ability to protect the vascular endothelium under both homeostatic and inflammatory conditions whereas intermediate monocytes are recruited at a later stage of inflammation, and are associated with secretion of cytokines/chemokines and wound healing. Evident alterations in blood monocyte subsets together with a partial reduction of AAT levels, an important anti-inflammatory protein, can be key factors for the early manifestation of emphysema in some PiZZ AATD carriers.
人血液单核细胞根据 CD14 和 CD16 受体的差异表达分为不同群体:CD14 CD16(经典型)、CD14 CD16(中间型)和 CD14CD16(非经典型)。鉴于它们的功能差异及其在慢性阻塞性肺疾病(COPD)发病机制中的作用,单核细胞分析具有临床意义。在这里,我们研究了临床稳定的 COPD 患者的血液单核细胞亚群,这些患者存在α1-抗胰蛋白酶(AAT)缺乏(PiZZ,n=7)和正常 AAT 变体(PiMM,n=7)。采集肝素钠管中的外周全血,在 37°C、5%CO2 下孵育 LPS(来自大肠杆菌;1μg/ml)或安慰剂 6 小时。为了分析单核细胞亚群,我们基于 HLA-DR 和 CD14/CD16 染色进行了流式细胞术分析。PiZZ 和 PiMM COPD 患者以及用作参考的健康对照者(n=7)之间,HLA-DR+细胞亚群没有差异。表达 CD14 和 CD16、但不表达 HLA-DR(HLA-DR-)的单核细胞分析表明,中间型单核细胞亚群在 PiZZ 组中最低,并且在用 LPS 处理后几乎完全从血液中消失。非经典亚群在 LPS 治疗的 PiZZ 患者中几乎不存在。最近的研究表明,非经典单核细胞在稳态和炎症条件下表现出独特的保护血管内皮的能力,而中间型单核细胞在炎症的后期阶段被募集,并与细胞因子/趋化因子的分泌和伤口愈合相关。血液单核细胞亚群的明显改变以及重要抗炎蛋白 AAT 水平的部分降低,可能是某些 PiZZ AATD 携带者肺气肿早期表现的关键因素。
