For optimal gas exchange the pulmonary alveolus must remain in an inflated state throughout the respiratory cycle. For this to occur the strong surface forces acting at the air-water interface in the alveolar lumen must be reduced by the presence of a functional surfactant. Because respiratory demands vary rapidly over a wide range with changing levels of activity and in disease states, the surfactant system must be capable of quickly responding to such changes with adjustments in rates of secretion and clearance at the alveolar level. This all implies the surfactant system must be under multiple levels of regulation and therefore contain molecules that both encode regulatory signals and respond to them (typically protein ligands and receptors) as well as molecules which primarily alter surface tension (typically amphipathic molecules such as phospholipids). Our broad objective is to contribute to a detailed understanding of the molecular controls of surfactant metabolism and how they may be altered in disease states. We will test the general hypothesis that specific surfactant apoproteins determine the structure of surfactant forms and are important in regulating the bi-directional flux of surfactant between alveolar lining cells and the alveolar lumen. Two novel observations made during the last grant period are important to the current proposal. First, our results suggested the fusogenic activity of SP-B may be relevant to lamellar body assembly. This idea is supported by findings in mice and accumulation of alveolar surfactant suggested an unsuspected role for SP-D in surfactant homeostasis. In this application we propose to study the molecular actions of surfactant protein-B that might be relevant to lamellar body assembly, and second, the role(s) of surfactant protein-D and cytokines in the regulation of alveolar type II cell proliferation and surfactant turnover.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Program Projects (P01)
Project #
5P01HL024075-22
Application #
6324727
Study Section
Project Start
2000-07-01
Project End
2001-06-30
Budget Start
Budget End
Support Year
22
Fiscal Year
2000
Total Cost
$300,762
Indirect Cost
Name
University of California San Francisco
Department
Type
DUNS #
073133571
City
San Francisco
State
CA
Country
United States
Zip Code
94143
Barrette, Anne Marie; Roberts, Jessica K; Chapin, Cheryl et al. (2016) Antiinflammatory Effects of Budesonide in Human Fetal Lung. Am J Respir Cell Mol Biol 55:623-632
Danhaive, Olivier; Chapin, Cheryl; Horneman, Hart et al. (2015) Surface film formation in vitro by infant and therapeutic surfactants: role of surfactant protein B. Pediatr Res 77:340-6
Vanderbilt, Jeff N; Gonzalez, Robert F; Allen, Lennell et al. (2015) High-efficiency type II cell-enhanced green fluorescent protein expression facilitates cellular identification, tracking, and isolation. Am J Respir Cell Mol Biol 53:14-21
Gonzales, Linda W; Gonzalez, Robert; Barrette, Anne Marie et al. (2015) Expression of Carcinoembryonic Cell Adhesion Molecule 6 and Alveolar Epithelial Cell Markers in Lungs of Human Infants with Chronic Lung Disease. J Histochem Cytochem 63:908-21
Raymond, Wilfred W; Xu, Xiang; Nimishakavi, Shilpa et al. (2015) Regulation of hepatocyte growth factor in mice with pneumonia by peptidases and trans-alveolar flux. PLoS One 10:e0125797
LaFemina, Michael J; Sutherland, Katherine M; Bentley, Trevor et al. (2014) Claudin-18 deficiency results in alveolar barrier dysfunction and impaired alveologenesis in mice. Am J Respir Cell Mol Biol 51:550-8
Gonzalez, Robert F; Dobbs, Leland G (2013) Isolation and culture of alveolar epithelial Type I and Type II cells from rat lungs. Methods Mol Biol 945:145-59
Chapin, Cheryl; Bailey, Nicole A; Gonzales, Linda W et al. (2012) Distribution and surfactant association of carcinoembryonic cell adhesion molecule 6 in human lung. Am J Physiol Lung Cell Mol Physiol 302:L216-25
Heine, Vivi M; Griveau, Amelie; Chapin, Cheryl et al. (2011) A small-molecule smoothened agonist prevents glucocorticoid-induced neonatal cerebellar injury. Sci Transl Med 3:105ra104
Gonzalez, Robert F; Allen, Lennell; Gonzales, Linda et al. (2010) HTII-280, a biomarker specific to the apical plasma membrane of human lung alveolar type II cells. J Histochem Cytochem 58:891-901

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