However, BMMC administration led to greater improvement in lung

mechanics and a greater reduction in fractional area of alveolar collapse, collagen fiber content in the alveolar septa, and growth factor levels (TGF-β and VEGF) as compared with MSCs. Our findings suggest that both cell types play an important role in the inflammatory process in experimental allergic asthma, but suggest that BMMCs are more effective than MSCs at reducing the remodeling process. Several studies have investigated the effects of BMMC (Abreu et al., 2011) and MSC (Goodwin et al., 2011, Ou-Yang et al., 2011 and Kapoor et al., 2012) administration in experimental asthma. We have previously demonstrated that pre-treatment with http://www.selleckchem.com/products/nu7441.html BMMCs curtails airway inflammation and remodeling and induces lung repair, thus improving lung mechanics (Abreu et al., 2011). AZD6244 in vivo The rationale supporting BMMC therapy relies on the knowledge that the functional effects of these cells result from a balance between different cell types, with involvement of all cells with the potential to yield beneficial effects (Mathieu et al., 2009, Araujo et al., 2010, Lu et al., 2011 and Cruz et al., 2012). This hypothesis

is supported by the crosstalk between multiple cell types that occurs during embryonic development (Rafii and Lyden, 2003). Additionally, BMMCs can be administered easily and safely, on the day of harvesting, at lower costs, and without risk of cell rejection (graft-versus-host disease). MSCs also lead to beneficial effects in experimental asthma when Acesulfame Potassium administered during sensitization or before challenge (Firinci et al., 2011, Goodwin et al., 2011 and Lee et al., 2011). MSCs exhibit multilineage differentiation potential (Jiang et al., 2002), support adequate tissue repair, have

immune-privileged features and can be used in allogeneic therapy. No previous study has compared the effects of BMMCs and MSCs in experimental asthma, particularly once the remodeling process is already established. For this purpose, we employed a C57BL/6 mouse model of allergic asthma (Abreu et al., 2011), which features eosinophilia and Th2 pro-inflammatory cytokines (Yu et al., 2006 and Allen et al., 2012). Even though early therapy with BMMCs modulates lung inflammation and remodeling regardless of the route of administration (Abreu et al., 2012), in the present study, both cell types were instilled intratracheally, since a more direct administration route will ensure delivery of a higher number of cells to the airway and alveoli (Bonios et al., 2011).