Protocol for differentiating primary human small airway epithelial cells at the air-liquid interface.

The air-liquid interface (ALI) culture is an important tool in pulmonary research as it models the physiological lung where the epithelium is apically exposed to air and basally to the endothelium and interstitium. Although there is an abundance of research that uses primary human bronchial epithelial cells (HBECs) to study larger airways, small airway epithelial cells (SAECs) are an untapped resource in comparison. Primary SAECs are a valuable cell population as they enable the study of pathologies in the bronchioles and are also a favorable surrogate for primary alveolar epithelial cells, which are invasive to collect from patients. Currently, there are limited resources on how to culture and differentiate SAECs at the ALI. Here, we provide an optimized, detailed protocol to address this knowledge gap. Key culture conditions that determine the quality and uniformity of differentiated SAECs include cell passage number, pH changes caused by media exhaustion and incubator CO, seeding density, and collagen coating of the expansion flask and inserts. We also describe a FITC-dextran permeability assay to measure SAEC barrier integrity both as a pretest to select uniform wells with strong barrier integrity before an experiment and as a post-test to evaluate treatment effects afterward. The utility of the differentiated SAEC ALI model to ask biologically relevant questions is demonstrated by increased cytokine (IL-8, MIF, and CXCL-10) production and/or epithelial damage following exposure to cigarette smoke, lipopolysaccharide (LPS) or poly(I:C). SAECs are not commonly used in pulmonary research, and this is reflected in a lack of literature on both SAEC primary research and methodological reports. Primary SAECs are an important resource as they enable the study of the small airways, which are implicated in a variety of pulmonary diseases, including chronic obstructive pulmonary disease (COPD). The detailed protocol described here bridges the knowledge gap on how to successfully differentiate primary human SAECs at the ALI.