Polarized cytokine release from airway epithelium differentially influences macrophage phenotype.

Epithelial cells and macrophages represent two major cell populations in the lung. They reside in physical proximity and are influenced by inhaled substances, microbial- and host-derived factors, as well as by crosstalk between each other. Here, we report the first systematic study to compare the effects of apical and basolateral secretomes from primary human small airway epithelial cells (SAEC) on human macrophages. We exposed monocyte-derived macrophages (MDMs) to the secretome supernatants (SN) from the apical and basolateral chamber of SAEC culture in an air-liquid interface (ALI) setting and analyzed expression of macrophage surface markers. We found that the apical SN increased the expression of CD11c and CD16, whereas basolateral SN increased the expression of CD163 and CD300e, consistent with apical and basolateral epithelial secretions inducing an M1-biased and M2-biased macrophage polarization, respectively. Conversely, in the presence of Nontypeable Haemophilus influenzae (NTHi), apical SN from NTHi-exposed SAEC induced CD36, CD163 and CD300e and supressed CD11c expression suggesting a switch towards an M2-biased macrophage polarization. Analysis of SN from polarized epithelium revealed a number of factors with differential expression in the apical and basolateral secretome. Functional neutralization of IL6, IL8 or IL1α in the apical secretome led to a decrease in expression of 'M2-like' surface markers, supporting the concept of epithelial-derived secreted factors influencing macrophage phenotype. In conclusion, we show, for the first time to our knowledge, that SN from polarized epithelium, depending on the side of secretion, apical or basolateral, can elicit a differential influence on the macrophages polarization phenotype.