Abstract
The innate and adaptive immune systems in lungs are maintained not only by immune cells but also by non-immune tissue structures, locally providing wide intercellular communication networks and regulating the local tissue immune response. The aim of this study was to determine the appearance and distribution of inflammatory, anti-inflammatory and regulatory cytokines in relatively healthy lung tissue samples. We evaluated lung tissue specimens obtained from 49 patients aged 9-95 years in relatively healthy study subjects. Tissue samples were examined by hematoxylin and eosin staining. Interleukin-1 (IL-1), interleukin-4 (IL-4), interleukin-6 (IL-6), interleukin-7 (IL-7), and interleukin-10 (IL-10) were detected by an immunohistochemistry (IMH) method. The number of positive structures was counted semiquantitatively by microscopy. Non-parametric tests were used to analyse the data. IL-1-positive cells were mostly found in the bronchial cartilage and alveolar epithelium. Immunoreactive lung macrophages were also found. The numbers of IL-4, IL-6, IL-7, and IL-10 containing cells were also found in the bronchial epithelium (in addition to those previously listed). The number of positive structures varied from occasional to moderate, but was graded higher in cartilage. Overall, fewer IL-1-positive cells and more IL-10-positive cells were found. Almost no positive structures for all examined cytokines were found in connective tissue and bronchial glands. Relatively healthy lung tissue exhibits anti-inflammatory response patterns. The cytokine distribution and appearance suggest persistent stimulation of cytokine expression in lung tissue and indicate the presence of local regulatory and modulating patterns. The pronounced cytokine distribution in bronchial cartilage suggests the involvement of a compensatory local immune response in the supporting tissue.
Highlights
The complexity of the lung immune system extends beyond immunocompetent cells and their wide intercellular signalling networks
Our study reveals a more pronounced number of IL-1– containing structures in bronchial cartilage, as well as a higher number of IL-1–containing alveolar macrophages; fewer IL-1–positive structures were found in the bronchial epithelium, connective tissue and in alveolar epithelium
Our study shows that the predominant distribution of IL-10 is higher in bronchial cartilage, ranging from few to numerous IL-10–containing chondrocytes, followed by the number of IL-10–containing alveolar macrophages and the number of structures in the bronchial epithelium
Summary
The complexity of the lung immune system extends beyond immunocompetent cells and their wide intercellular signalling networks. Apart from true immune cells, epithelial tissue and its communication with other tissue structures design and shape signalling pathways to produce local immunity[5]. The innate and adaptive immune systems in lungs are maintained by immune cells and by non-immune tissue structures, locally providing wide intercellular communication networks and regulating the local tissue immune response. The aim of this study was to determine the appearance and distribution of inflammatory, anti-inflammatory and regulatory cytokines in relatively healthy lung tissue samples. Almost no positive structures for all examined cytokines were found in connective tissue and bronchial glands. Healthy lung tissue exhibits anti-inflammatory response patterns. The pronounced cytokine distribution in bronchial cartilage suggests the involvement of a compensatory local immune response in the supporting tissue
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