University Health Network, Latner Thoracic Surgery Research Laboratories, University of Toronto, Toronto, Ontario, Canada.
J Heart Lung Transplant. 2012 Feb;31(2):222-8. doi: 10.1016/j.healun.2011.11.012.
Bone marrow-derived progenitor cells may play a key role in both lung repair and in fibrogenesis. The contribution of CD45(+)collagen-1(+) fibrocytes to fibrosis has been documented elsewhere and recently identified epithelial-like progenitor cells marked by Clara cell secretory protein (CCSP(+)) may be protective after lung injury. Interplay between these populations has not yet been studied in bronchiolitis obliterans syndrome (BOS) post-lung transplant.
In a cross-sectional design, blood samples were analyzed for CCSP(+) cells and CD45(+)collagen-1(+) fibrocytes by flow cytometry. Plasma cytokines were analyzed by multiplex array.
A higher proportion of circulating fibrocytes was measured in patients with BOS Grade ≥1 than in those with BOS Grade 0(p). In parallel, a lower proportion of CCSP(+) cells was found in BOS ≥1 patients compared with BOS 0(p) and non-transplant controls, resulting in an altered cell ratio between the groups. A higher ratio of CD45(+)collagen-1(+) to CCSP(+) cells was associated with greater airflow limitation based on FEV(1) and FEV(1)/FVC ratio. No relationship between cell profiles and time post-transplant was found. Plasma analysis showed an increase in key stem cell and inflammatory cytokines in both groups post-transplant, whereas stromal-derived factor-1 and vascular endothelial growth factor were increased in cases of BOS ≥1 specifically. Plasma stromal-derived factor-1 levels also correlated with fibrocytes post-transplant.
Overall, altered progenitor cell profiles were found in patients who developed advanced BOS, which may be mediated by alterations in circulating cytokines. Ultimately, measurement of progenitor cell profiles may lead to further insight into the pathogenesis of airflow obstruction after lung transplantation.
骨髓源性祖细胞可能在肺修复和纤维化形成中起关键作用。其他地方已经记录了 CD45(+)胶原蛋白 1(+)成纤维细胞对纤维化的贡献,最近鉴定的上皮样祖细胞标志着 Clara 细胞分泌蛋白 (CCSP(+)),在肺损伤后可能具有保护作用。这些群体之间的相互作用在肺移植后的闭塞性细支气管炎综合征 (BOS)中尚未得到研究。
采用横断面设计,通过流式细胞术分析血液样本中的 CCSP(+)细胞和 CD45(+)胶原蛋白 1(+)成纤维细胞。通过多重分析测定血浆细胞因子。
BOS 分级≥1 的患者循环成纤维细胞的比例高于 BOS 分级 0(p)。同时,BOS ≥1 患者的 CCSP(+)细胞比例低于 BOS 0(p)和非移植对照组,导致组间细胞比例发生改变。CD45(+)胶原蛋白 1(+)与 CCSP(+)细胞的比值较高与基于 FEV(1)和 FEV(1)/FVC 比值的气流受限程度较大相关。细胞表型与移植后时间之间没有关系。血浆分析显示,两组移植后关键干细胞和炎症细胞因子均增加,而 BOS≥1 病例中基质衍生因子-1 和血管内皮生长因子特异性增加。移植后基质衍生因子-1 水平也与成纤维细胞相关。
总之,在发生晚期 BOS 的患者中发现了改变的祖细胞表型,这可能是由循环细胞因子的改变介导的。最终,祖细胞表型的测量可能会进一步深入了解肺移植后气流阻塞的发病机制。
