TY - JOUR
T1 - Antigen-presenting cell population dynamics during murine silicosis
AU - Beamer, Celine A.
AU - Holian, Andrij
PY - 2007/12
Y1 - 2007/12
N2 - Silicosis is an occupational lung disease resulting from the inhalation of silica particles over prolonged periods of time, which causes chronic inflammation and progressive pulmonary fibrosis. Alveolar macrophages (AM) are critical effector cells, while less is known about the role and function of pulmonary dendritic cells (DC) in silicosis. We hypothesize that a balance exists between the suppressive nature of AM and the stimulatory capacity of DC to regulate lung immunity, and that this equilibrium may be overcome by silica exposure in vivo. Our results demonstrate that in response to silica exposure, both the percent and absolute number of AM significantly decreased overtime, with a concomitant significant increase in DC. Both AM and DC exhibited cellular activation in response to silica, indicated by increased expression of cell surface markers. In the absence of silica-induced AM apoptosis (TNFR 1/2-null and Gld mice), no change was observed in the percent or absolute number of either cell type. Furthermore, bone marrow-derived DC, but not bone marrow-derived macrophages, migrated from the alveoli into the lung parenchyma in response to silica, resulting in significantly increased numbers of activated T lymphocytes. Collectively, the results demonstrate that AM and DC are distinct antigen-presenting cells within the respiratory tract that respond to silica exposure in vivo in unique ways, with significant implications for immune reactivity of the lung in response to environmental pathogens.
AB - Silicosis is an occupational lung disease resulting from the inhalation of silica particles over prolonged periods of time, which causes chronic inflammation and progressive pulmonary fibrosis. Alveolar macrophages (AM) are critical effector cells, while less is known about the role and function of pulmonary dendritic cells (DC) in silicosis. We hypothesize that a balance exists between the suppressive nature of AM and the stimulatory capacity of DC to regulate lung immunity, and that this equilibrium may be overcome by silica exposure in vivo. Our results demonstrate that in response to silica exposure, both the percent and absolute number of AM significantly decreased overtime, with a concomitant significant increase in DC. Both AM and DC exhibited cellular activation in response to silica, indicated by increased expression of cell surface markers. In the absence of silica-induced AM apoptosis (TNFR 1/2-null and Gld mice), no change was observed in the percent or absolute number of either cell type. Furthermore, bone marrow-derived DC, but not bone marrow-derived macrophages, migrated from the alveoli into the lung parenchyma in response to silica, resulting in significantly increased numbers of activated T lymphocytes. Collectively, the results demonstrate that AM and DC are distinct antigen-presenting cells within the respiratory tract that respond to silica exposure in vivo in unique ways, with significant implications for immune reactivity of the lung in response to environmental pathogens.
KW - Activation
KW - Alveolar macrophage
KW - Inflammation
KW - Pulmonary dendritic cell
KW - Silica
UR - http://www.scopus.com/inward/record.url?scp=36749057840&partnerID=8YFLogxK
U2 - 10.1165/rcmb.2007-0099OC
DO - 10.1165/rcmb.2007-0099OC
M3 - Article
C2 - 17641296
AN - SCOPUS:36749057840
SN - 1044-1549
VL - 37
SP - 729
EP - 738
JO - American Journal of Respiratory Cell and Molecular Biology
JF - American Journal of Respiratory Cell and Molecular Biology
IS - 6
ER -