Acinar origin of CFTR-dependent airway submucosal gland fluid secretion
American Journal of Physiology-Lung Cellular and Molecular …, 2007•journals.physiology.org
Cystic fibrosis (CF) airway disease arises from defective innate defenses, especially
defective mucus clearance of microorganisms. Airway submucosal glands secrete most
airway mucus, and CF airway glands do not secrete in response to VIP or forskolin. CFTR,
the protein that is defective in CF, is expressed in glands, but immunocytochemistry finds the
highest expression of CFTR in either the ciliated ducts or in the acini, depending on the
antibodies used. CFTR is absolutely required for forskolin-mediated gland secretion; we …
defective mucus clearance of microorganisms. Airway submucosal glands secrete most
airway mucus, and CF airway glands do not secrete in response to VIP or forskolin. CFTR,
the protein that is defective in CF, is expressed in glands, but immunocytochemistry finds the
highest expression of CFTR in either the ciliated ducts or in the acini, depending on the
antibodies used. CFTR is absolutely required for forskolin-mediated gland secretion; we …
Cystic fibrosis (CF) airway disease arises from defective innate defenses, especially defective mucus clearance of microorganisms. Airway submucosal glands secrete most airway mucus, and CF airway glands do not secrete in response to VIP or forskolin. CFTR, the protein that is defective in CF, is expressed in glands, but immunocytochemistry finds the highest expression of CFTR in either the ciliated ducts or in the acini, depending on the antibodies used. CFTR is absolutely required for forskolin-mediated gland secretion; we used this finding to localize the origin of forskolin-stimulated, CFTR-dependent gland fluid secretion. We tested the hypothesis that secretion to forskolin might originate from the gland duct rather than or in addition to the acini. We ligated gland ducts at various points, stimulated the glands with forskolin, and monitored the regions of the glands that swelled. The results supported an acinar rather than ductal origin of secretion. We tracked particles in the mucus using Nomarski time-lapse imaging; particles originated in the acini and traveled toward the duct orifice. Estimated bulk flow accelerated in the acini and mucus tubules, consistent with fluid secretion in those regions, but was constant in the unbranched duct, consistent with a lack of fluid secretion or absorption by the ductal epithelium. We conclude that CFTR-dependent gland fluid secretion originates in the serous acini. The failure to observe either secretion or absorption from the CFTR and epithelial Na+ channel (ENaC)-rich ciliated ducts is unexplained, but may indicate that this epithelium alters the composition rather than the volume of gland mucus.
American Physiological Society
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