, 2009 and Lu et al., 2011). The present analysis is not sufficient to distinguish which cell fraction in the BMDMC sample gave rise to the therapeutic effects observed. Determination of which specific cell types are responsible for these features will require future experiments, such as transplant studies using cell sorters, a comparative study of bone marrow cell populations and in vitro functional bioassays of BMDMCs. Although intravenous administration of BMDMCs has been effective as a pre-treatment protocol for asthma, reducing inflammation and remodelling and yielding
better lung function (Abreu et al., 2011a), we investigated whether intratracheal instillation of BMDMCs, a more selleck direct route to the lungs, would be more effective, delivering a higher number of cells (Bonios et al., 2011). This would translate in clinical practice into bronchoscopic delivery of these cells, a procedure
that can be performed safely in asthmatic patients following allergen challenge (Elston et al., 2004 and Busse et al., 2005). In order to identify homing of bone marrow cells in lung parenchyma, GFP-positive cells derived from male mice (a reliable marker of engrafted cells) were quantified. GFP-positive cells were observed in the OVA-CELL groups, click here but not in C-CELL lungs, suggesting that tissue damage is necessary to attract and retain these cells even when they are intratracheally administered. As stated elsewhere, the inflammatory process plays an essential role in cell recruitment to the injured area (Herzog et al., 2006). Nevertheless, the source of signals responsible for mobilization and homing of endogenous and exogenous stem cells remains unclear. Stem
cell recruitment varies according to the degree (Herzog et al., 2006) and type of tissue damage (Abe et al., 2004). Lung accumulation FER of intravenously injected stem cells is proportional to the presence of adhesion molecules on the cell surface and to the size of the cell. Most cells in the bone marrow fraction do not express major adhesion molecules, such as vascular cell adhesion molecule-1 (VCAM-1), when binding to pulmonary vascular endothelium. BMDMCs are also smaller compared to other cell types, such as MSCs (Fischer et al., 2009). Therefore, BMDMCs pass easily through the pulmonary capillaries and into the systemic circulation when injected intravenously, reaching distal organs rather than remaining in the lung tissue (Lassance et al., 2009). We expected that intratracheal instillation would promote a more marked pulmonary engraftment than that actually observed in the present study.