05). Fig. 2A demonstrates that OVA sensitization induces an increase in the epithelial expression of GP91phox and 3-nitrotyrosine and the peribronchial accumulation SCH 900776 chemical structure of 8-isoprostane when compared with the control group (p < 0.001). The results also demonstrate that sensitized animals, when submitted to low intensity aerobic exercise (OVA + AE group), presented a reduction of all these parameters (p < 0.001). Fig. 2B demonstrates that AE, OVA and OVA + AE presented an increased epithelial expression of SOD-1 when compared with the control group (p < 0.05). Fig. 2B also demonstrates that the epithelial expression of SOD-2 was not changed in any group and that the
epithelial expression of GPX was reduced in the OVA and OVA + AE groups when compared with the control and AE groups (p < 0.05). Fig. 3A demonstrates that OVA sensitization increased the epithelial expression
of IGF-1, EGFr, VEGF and TGF-beta when compared with the control group (p < 0.001). The results also show that AE in sensitized animals (OVA + AE group) reduces the epithelial expression of these important growth factors (p < 0.001). Fig. 3B demonstrates that OVA sensitization increases the Selleck Alpelisib epithelial expression of MMP-12, TIMP-1 and TIMP-2 when compared with the control group (p < 0.001). The results also show that AE in sensitized animals (OVA + AE group) reduces the epithelial expression of MMP-12 and TIMP-2 (p < 0.05), but not of TIMP-1 (p > 0.05). The
epithelial expression of MMP-9 remained unchanged when compared among all groups. Fig. 4 shows that OVA sensitization induces a strong epithelial expression Thiamet G of P2X7R when compared with the control group (p < 0.001). The results also demonstrate that AE in sensitized animals decreases the epithelial expression of P2X7R when compared with the OVA group (p < 0.001). Fig. 5A–D shows photomicrographs of the epithelial expression of IL-4, CCL11, TGF-beta and P2X7R (respectively, from A to D) in the control, AE, OVA and OVA + AE groups. In the present study, we showed for the first time that airway epithelium is involved in the anti-inflammatory effects of aerobic exercise in an asthma model by reducing both oxidative and nitrosative stress and the epithelial expression of Th2 cytokines, chemokines, adhesion molecules, growth factors and matrix metaloproteases. This study also demonstrates that part of these anti-inflammatory effects seem to be mediated by a reduced epithelial expression of NF-kB and purinergic receptor P2X7 and by an increased epithelial expression of IL-10. Many distinct epithelial cell types are present in the human respiratory epithelium, and based on ultrastructural, functional and biochemical criteria, these types are classified as basal, ciliated or secretory (Spina, 1998). Ciliated epithelial cells are the predominant cell type within the airways, accounting for over 50% of all epithelial cells (Spina, 1998).
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