Diesel exhaust particulates enhance eosinophil adhesion to nasal epithelial cells and cause degranulation.

Diesel exhaust particulates (DEP) are a common air pollutant from diesel-engine-powered car exhaust and are thought to cause chronic airway diseases. On the other hand, eosinophils are major components of allergic inflammatory disorders such as asthma, nasal allergy and atopic dermatitis. We examined the effects of DEP and DEP extract (extract of polyaromatic hydrocarbons) on eosinophil adhesion, survival rate and degranulation. Eosinophils, human mucosal microvascular endothelial cells (HMMECs) and human nasal epithelial cells (HNECs) were preincubated in the presence or absence of DEP and DEP extract. 35S-labeled eosinophils were allowed to adhere to monolayers of HMMECs and HNECs. After washing, 35S radioactivity was determined and numbers of adherent eosinophils were calculated using each standard curve. The effects of DEP and DEP extract on eosinophil survival rate and degranulation were also determined. Although neither DEP nor DEP extract affected the adhesiveness of HMMECs and HNECs to eosinophils, 5 ng/ml of DEP extract and 50 ng/ml of DEP extract each significancy increased eosinophil adhesiveness to HNECs (134+/-9 and 143+/-8%, respectively; p<0.01 vs. control), but neither effected eosinophil adhesiveness to HMMECs. DEP extract also induced eosinophil degranulation without changing the eosinophil survival rate. Given that eosinophil-derived lipid mediators and toxic proteins play important roles in the development of nasal allergy, the above findings strongly suggest that DEP plays an important role in promoting the nasal hypersensitivity induced by enhanced eosinophil infiltration of epithelium and eosinophil degranulation.

Eosinophil adhesion regulates RANTES production in nasal epithelial cells.

Among the many known chemotactic factors for eosinophils, the proinflammatory chemokine RANTES is particularly important, because it is potently and selectively chemotactic for eosinophils. Throughout the process of the migration of eosinophils from the blood vessels into the nasal cavity, eosinophil functions are assumed to be regulated by surface adhesion molecules. Conversely, the messages conferred by the eosinophils to the endothelial and epithelial cells are also of great interest. In the present study, we showed that eosinophil adhesion to human nasal epithelial cells (HNECs) inhibits RANTES production in HNECs. Eosinophils were isolated from peripheral blood obtained from patients with allergic rhinitis. Human mucosal microvascular endothelial cells and HNECs were isolated from human nasal mucosa specimens. After stimulation of the HNECs in the presence of eosinophils, the secretion of RANTES, induced by a combination of TNF-alpha and IFN-gamma, appeared to have decreased. The amount of the decrease was a function of the number of involved eosinophils. On the other hand, the presence of eosinophils did not affect RANTES production by the endothelial cells. After pretreatment of the eosinophils with anti-CD18 mAb or coculture with HNECs in Transwell culture inserts, these cells did not inhibit the TNF-alpha- and IFN-gamma-induced RANTES production. These results were virtually identical with those observed on RANTES mRNA expression. The adhesion of eosinophils to HNECs plays a key role in the inhibition of RANTES production. Our data indicate that a certain established system causes the signal transfer from eosinophils to HNECs to inhibit RANTES production, thus decreasing the eosinophil infiltration.