Regulation of the depth and composition of airway surface liquid

JH Widdicombe - Journal of anatomy, 2002 - Wiley Online Library
JH Widdicombe
Journal of anatomy, 2002Wiley Online Library
The airways are lined with a film of liquid about 10 µm deep that is in two layers. Around the
cilia is the watery periciliary sol. Over this is a mucous blanket that traps inhaled particles.
The low viscosity of the periciliary sol allows the cilia to beat and propel the mucous blanket
to the mouth. In large airways, mucus comes predominantly from the mucous glands but also
from goblet cells in the surface epithelium. Water is added to the airway surface by gland
secretion that is driven by active Cl secretion by serous cells. During inflammation elevation …
Abstract
The airways are lined with a film of liquid about 10 µm deep that is in two layers. Around the cilia is the watery periciliary sol. Over this is a mucous blanket that traps inhaled particles. The low viscosity of the periciliary sol allows the cilia to beat and propel the mucous blanket to the mouth. In large airways, mucus comes predominantly from the mucous glands but also from goblet cells in the surface epithelium. Water is added to the airway surface by gland secretion that is driven by active Cl secretion by serous cells. During inflammation elevation of the subepithelial hydrostatic pressure may also add significant volumes of water to the airway lumen. Water is removed by active Na transport across the surface epithelium. In airway diseases, the balance is shifted from water secretion to mucus secretion. In bronchitis and asthma this is due mainly to conversion of gland serous to mucous cells. In cystic fibrosis, gland serous cells cannot secrete water because they lack functioning CFTR in their apical membranes (CFTR is the cystic fibrosis transmembrane conductance regulator, a Cl channel that is abundant in serous cells). In all three diseases, the result is secretion of excessively concentrated gland secretions that are poorly moved by the cilia and accumulate. Altered salt and water transport by the surface epithelium may also contribute to the pathology of cystic fibrosis.
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