Detection of a novel macrophage-derived mucus secretagogue (MMS-68) in bronchoalveolar lavage fluid of patients with asthma

CXCR2 regulates respiratory syncytial virus-induced airway hyperreactivity and mucus overproduction

Severe inflammation and mucus overproduction are partially responsible for respiratory syncytial virus (RSV)-induced disease in infants. Using a murine model, we characterized the virally induced chemokine receptors responsible for mediating the pathophysiological response to RSV infection, we found that CXCR2 mRNA was induced at 4 days after RSV infection. Immunohistochemical staining demonstrated that CXCR2 protein was expressed on alveolar macrophages. Immunoneutralization of CXCR2 resulted in decreased airway hyperreactivity relative to the RSV-infected controls. In addition, there was decreased mucus in the bronchoalveolar lavage fluid, decreased periodic-acid Schiff staining, and significantly less mucus-associated gob-5 mRNA and protein in anti-CXCR2-treated mice. The effects of anti-CXCR2 treatment were not a result of differences in viral clearance or neutrophil influx, as these parameters were comparable in both groups of animals. To confirm our immunoneutralization studies, we performed experiments in CXCR2(-/-) mice. Results in CXCR2(-/-) mice recapitulated results from our immunoneutralization studies. However, CXCR2(-/-) mice also showed a statistically significant decrease in muc5ac, relative to RSV-infected wild-type animals. Thus, CXCR2 may be a relevant target in the pathogenesis of RSV bronchiolitis, since it contributes to mucus production and airway hyperreactivity in our model of RSV infection.

The effect of inflammation on mucociliary clearance in asthma: an overview

Mucociliary clearance (MCC) is one of the most important nonspecific defense mechanisms of the respiratory tract, and its impairment is a well-documented feature of chronic respiratory diseases, including asthma. In vitro and in vivo data suggest that several inflammatory mediators influence the mucociliary apparatus. Epithelial damage and functional abnormalities have been described in bronchial asthma, along with changes in mucus-secreting cells and the chemical and rheological properties of airway fluid. Although the mechanisms of MCC impairment in asthma are not clearly understood, data in the recent literature suggest that airway inflammation plays a major role. In this article, we review studies on MCC alterations in light of up-to-date findings on pathogenetic mechanisms in asthma.

Mucin secretion in inflammatory bowel disease: comparison of a macrophage-derived mucin secretagogue (MMS-68) to conventional secretagogues

We have described a novel macrophage-derived mucin secretagogue (MMS-68) that mediates mucin secretion in colon cancer cell lines and explants of normal and inflammatory bowel disease (IBD) mucosa. We compared MMS-68 induced mucin release with other known intestinal mucin secretagogues in normal colon explants and in the HT-29 colon cancer cell line, and to study the effects of MMS-68 on mucin release from inflamed and uninflamed ulcerative colitis (UC) and Crohn's disease (CD) mucosa. In normal colonic explants and HT-29 cells, each of the secretagogues including, MMS-68-induced mucin release two- to fivefold more than culture medium alone. In HT-29 cells, MMS-68 plus leukotriene C4 (LTC4) induced a 50% increase in mucin release over either secretagogue alone, and MMS-68 plus platelet-activating factor (PAF) markedly enhanced mucin release by eightfold over either secretagogue. In colonic explants from patients with UC and CD, the mucin release in response to MMS-68 was similar to that of normal colonic explants. Likewise, in isolated epithelial cells from CD and UC (whether involved or uninvolved), MMS-68-induced release was similar to that of epithelial cells isolated from normal colonic mucosa. The number of MMS-68-producing macrophages was lower in uninflamed UC mucosa compared with inflamed UC mucosa and CD mucosa. The mucin secretagogue activity of MMS-68 is comparable to that of other known secretagogues, and PAF can have a synergistic effect on this activity. Whole tissue explants and isolated colonic epithelial cells from patients with IBD respond at least as well as their normal counterparts to MMS-68. MMS-68 may play a role in mucin secretion in normal and inflamed colonic tissue.