IL-13 is an important effector molecule in allergic asthma, converting secretoglobin-positive club cells into mucin-secreting goblet cells and promoting mucin hypersecretion. IL-13-mediated conversion of club cells to goblet cells requires decreased gene expression of forkhead box A2 ( FOXA2) and increased gene expression of SAM pointed domain containing ETS transcription factor ( SPDEF). In addition, IL-13-mediated mucin hypersecretion may include modulation of purinergic and muscarinic receptors that control basal and stimulated mucus secretion, respectively. We recently found that the cAMP response element-binding protein (CREB), a ubiquitous transcription factor, directly binds to FOXA2 and modulates mucus secretion mechanisms in mice. Here we tested the hypothesis that conditional loss of club cell Creb1 in murine airways modulates the pro-mucin effects of IL-13. Loss of club cell Creb1 augmented IL-13-mediated increases in gene expression of the major gel-forming secreted mucins Muc5ac and Muc5b in male murine airways, with no effect on IL-13-mediated increases in Muc5ac and Muc5b in female murine airways. Examination of mucin secretion mechanisms revealed that IL-13 decreased muscarinic 3 receptor ( M3R) mRNA expression in male murine airways, whereas loss of club cell Creb1 prevented this, resulting in a significant treatment by genotype interaction. Interestingly, in female airways, a main effect of genotype was observed, with loss of club cell Creb1 reducing M3R mRNA expression in the airway. Examination of the purinergic receptor P2Y ( P2ry2) mRNA revealed a main treatment effect for IL-13 to increase P2ry2 expression in male murine airways with no impact of loss of club cell Creb1. In the females, IL-13 increased P2ry2 mRNA in both genotypes, with loss of club cell Creb1 significantly blunting the effect of IL-13 on P2ry2 mRNA. Lastly, we examined goblet cell density and mucin secretion mechanisms using Alcian Blue-PAS staining post in vivo stimulation with a muscarinic agent. We found no major effect of treatment or genotype in the density of goblet cells containing acidic mucins in either male or female airways. In contrast, both males and females showed IL-13-mediated increases in the density of goblet cells containing neutral mucins that was not impacted by genotype. Our preliminary findings suggest that loss of club cell Creb1 decreases molecular mucin secretion mechanisms in male and female airways, and increases Muc5ac and Muc5b mRNA in male airways, though a corresponding genotype-dependent increase in goblet cell density post cholinergic stimulation was not observed. Thus, we conclude that loss of club cell Creb1 causes changes to molecules important for IL-13-mediated mucin hypersecretion, without apparent functional benefit or detriment to the murine airway. This work was supported by the National Institutes of Health (OD026582, HL152101), the Cystic Fibrosis Foundation (REZNIKO20I0, REZNIKO19I0), the Katie Rose Foundation (AWD08203), and the University of Florida McKnight Career Accelerator Award. Angelina Bonilla was funded by the National institutes of Health (R25GM115298). Pedro Trevizan Bau receives the University of Florida McKnight Brain Institute Gator NeuroScholar Fellowship. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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