BACKGROUND: Surfactant protein (SP)-D is an epithelial cell product of the distal air spaces that aids uptake and clearance of inhaled pathogens and allergens. Allergic airway inflammation significantly increases SP-D levels in the bronchoalveolar lavage fluid in asthmatic patients and mouse models, but the mechanisms involved remain unknown. OBJECTIVE: To investigate the effects of the TH2-type cytokine IL-4 on SP-D production by isolated pulmonary epithelial cells. METHODS: Rat type II alveolar epithelial cells were purified and cultured with dexamethasone, cAMP, and isobutyl-1-methylxanthine (DCI). The effects of IL-4 on SP-D expression were investigated at the protein and mRNA levels by means of Western and Northern blot analyses. RESULTS: In contrast to a lamellar body protein ABCA3 and surfactant protein-A, expression of SP-D significantly declined when cells were cultured in medium alone for 24 hours. The presence of DCI in the culture medium restored SP-D levels, which were enhanced by 2-fold after addition of recombinant IL-4. The enhancing effects of IL-4 were concentration-dependent, with maximum effects observed at 20 ng/mL (1.43 nmol/L). IL-4 did not rescue cycloheximide-induced decrease of intracellular SP-D levels and did not inhibit extracellular release of SP-D. However, IL-4 significantly augmented DCI-induced SP-D mRNA expression by approximately 2.5-fold over control levels. CONCLUSIONS: IL-4 selectively upregulates SP-D expression, and it may act at the level of mRNA in isolated pulmonary epithelial cells. Since SP-D has a potent anti-inflammatory function, this mechanism may be part of a negative feedback loop providing a regulatory link between adaptive and innate immunity during allergic inflammation.
BACKGROUND:Surfactant protein (SP)-D is an epithelial cell product of the distal air spaces that aids uptake and clearance of inhaled pathogens and allergens. Allergic airway inflammation significantly increases SP-D levels in the bronchoalveolar lavage fluid in asthmatic patients and mouse models, but the mechanisms involved remain unknown. OBJECTIVE: To investigate the effects of the TH2-type cytokine IL-4 on SP-D production by isolated pulmonary epithelial cells. METHODS:Rat type II alveolar epithelial cells were purified and cultured with dexamethasone, cAMP, and isobutyl-1-methylxanthine (DCI). The effects of IL-4 on SP-D expression were investigated at the protein and mRNA levels by means of Western and Northern blot analyses. RESULTS: In contrast to a lamellar body protein ABCA3 and surfactant protein-A, expression of SP-D significantly declined when cells were cultured in medium alone for 24 hours. The presence of DCI in the culture medium restored SP-D levels, which were enhanced by 2-fold after addition of recombinant IL-4. The enhancing effects of IL-4 were concentration-dependent, with maximum effects observed at 20 ng/mL (1.43 nmol/L). IL-4 did not rescue cycloheximide-induced decrease of intracellular SP-D levels and did not inhibit extracellular release of SP-D. However, IL-4 significantly augmented DCI-induced SP-D mRNA expression by approximately 2.5-fold over control levels. CONCLUSIONS:IL-4 selectively upregulates SP-D expression, and it may act at the level of mRNA in isolated pulmonary epithelial cells. Since SP-D has a potent anti-inflammatory function, this mechanism may be part of a negative feedback loop providing a regulatory link between adaptive and innate immunity during allergic inflammation.
Authors: Kenji Kawashima; David K Meyerholz; Jack M Gallup; Branka Grubor; Tatjana Lazic; Howard D Lehmkuhl; Mark R Ackermann Journal: Viral Immunol Date: 2006 Impact factor: 2.257
Authors: John Casey; Jennifer Kaplan; Elena N Atochina-Vasserman; Andrew J Gow; Helchem Kadire; Yaniv Tomer; James H Fisher; Samuel Hawgood; Rashmin C Savani; Michael F Beers Journal: Am J Respir Crit Care Med Date: 2005-06-30 Impact factor: 21.405
Authors: Christopher B Massa; Pamela Scott; Elena Abramova; Carol Gardner; Debra L Laskin; Andrew J Gow Journal: Toxicol Appl Pharmacol Date: 2014-02-25 Impact factor: 4.219