Abstract

Idiopathic pulmonary fibrosis/usual interstitial pneumonitis (IPF/UIP) is a fatal parenchymal lung disease characterized by interstitial and alveolar fibroproliferation and the appearance of myofibroblasts. Little is known about the mechanisms of myofibroblast accumulation in IPF/UIP or why they fail to be eliminated as occurs during normal wound repair. Previous studies from this and other laboratories have shown that survival factors, especially IGF-I, are abundantly expressed by macrophages and alveolar epithelial cells in IPF/UIP. In this proposal, we will test the hypothesis that the presence of survival factors, including IGF-I, in the parenchyma and airspaces of patients with IPF/UIP protect myofibroblasts from apoptosis. Under these conditions, myofibroblasts are proposed to accumulate in numbers and can thus contribute to parenchymal fibrosis for extended periods of time. The major goals of this proposal are three-fold: (1) to investigate the conditions and mechanisms that mediate myofibroblast apoptosis under conditions of growth factor and stretch withdrawal; (ii) to determine how IGF-I serves to protect myofibroblasts from undergoing apoptosis; and (iii) to investigate the mechanism of dysregulation of myofibroblast apoptosis in IPF/UIP. These goals will be addressed by four specific aims.
Specific aim one will address the role of growth factors, physical forces and IGF-I in myofibroblast differentiation, reversion to a fibroblast phenotype and apoptosis. These studies will form a basis for determining the mechanisms that promote myofibroblast apoptosis with a focus on the mechanisms of caspase activation (specific aim two). The objective of specific aim three is to uncover the mechanisms through which IGF-I prevents the initiation of the death program. The focus of these studies will include the mechanism of inactivation of the effector capsases (3, 6 and 7) and the potential role of anti-apoptotic proteins. Lastly, in specific aim four, we propose to apply what has been learned from this studies conducted in this proposal to address the mechanisms that promote protection from apoptosis in the lungs of patients with IPF/UIP. The findings from this work are expected to provide new insights into the mechanism of myofibroblast apoptosis and how this process becomes dysregulated in IPF/UIP.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
1R01HL068628-01
Application #
6415989
Study Section
Lung Biology and Pathology Study Section (LBPA)
Program Officer
Reynolds, Herbert Y
Project Start
2001-12-12
Project End
2006-11-30
Budget Start
2001-12-12
Budget End
2002-11-30
Support Year
1
Fiscal Year
2002
Total Cost
$304,200
Indirect Cost

  Institution

Name
National Jewish Health
Department
Type
DUNS #
City
Denver
State
CO
Country
United States
Zip Code
80206

  Publications

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Aschner, Yael; Khalifah, Anthony P; Briones, Natalie et al. (2014) Protein tyrosine phosphatase ? mediates profibrotic signaling in lung fibroblasts through TGF-? responsiveness. Am J Pathol 184:1489-502
Keith, Rebecca C; Sokolove, Jeremy; Edelman, Benjamin L et al. (2013) Testosterone is protective in the sexually dimorphic development of arthritis and lung disease in SKG mice. Arthritis Rheum 65:1487-93
Park, Moo Suk; He, Qianbin; Edwards, Michael G et al. (2012) Mitogen-activated protein kinase phosphatase-1 modulates regional effects of injurious mechanical ventilation in rodent lungs. Am J Respir Crit Care Med 186:72-81
Keith, Rebecca C; Powers, Jennifer L; Redente, Elizabeth F et al. (2012) A novel model of rheumatoid arthritis-associated interstitial lung disease in SKG mice. Exp Lung Res 38:55-66
Zhang, Yong; Leung, Donald Y M; Richers, Brittany N et al. (2012) Vitamin D inhibits monocyte/macrophage proinflammatory cytokine production by targeting MAPK phosphatase-1. J Immunol 188:2127-35
Redente, Elizabeth F; Jacobsen, Kristen M; Solomon, Joshua J et al. (2011) Age and sex dimorphisms contribute to the severity of bleomycin-induced lung injury and fibrosis. Am J Physiol Lung Cell Mol Physiol 301:L510-8
Wynes, Murry W; Edelman, Benjamin L; Kostyk, Amanda G et al. (2011) Increased cell surface Fas expression is necessary and sufficient to sensitize lung fibroblasts to Fas ligation-induced apoptosis: implications for fibroblast accumulation in idiopathic pulmonary fibrosis. J Immunol 187:527-37
Yamashita, Cory M; Dolgonos, Lior; Zemans, Rachel L et al. (2011) Matrix metalloproteinase 3 is a mediator of pulmonary fibrosis. Am J Pathol 179:1733-45

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