Abstract

Hypothesis: (1) excess TGF-beta signaling disrupts the orderly temporo-spatial molecular cues that normally instruct lung morphogenesis and cytodifferentiation as seen following exposure of the developing lung to elevated ambient oxygen; therefore (2) modulationof excess TGF-beta signaling will ameliorate lung injury and augment repair of the developing lung. Speicifc Aims: 1. To determine the impact of increased ambient oxygen on TGF-beta production, activation and signaling in vivo in postnatal and adult murine lung. 2. To determine the spatial effects of over-expression of TGF-beta peptides ineither latent or active (mutated) forms using TGF-beta recombinant adenoviral vectors in embryonic mouse lung in ex vivo culture. 3. To detemine the effects of TGF-beta peptide over-expression on alveolarizationin neonatal mouse lung in vivo byintra-nasal or intratracheal administration of TGF-beta recombinant adenoviral vectors. 4. To determine the in vivo role of epithelial TGF-beta receptor signal transduction molecules onlung morphogenesis, injury and repair by transgenic expression of active versus C-terminally truncated negative Smads using the hSP-C lung epithelium specific promoter. 5. To determine whether strategies to down-modulate TGF-beta signaling including immunoperturbation, competing peptides and speicifc antisnse oligodeoxynucleotides can ameliorate the adverse impact of excess TGF-beta signaling. Significance to Human Health: the propsoed studies will determine whether excess TGF-beta signaling plays an adverse role in developing lung and will determine the feasibility of novel therapeutic strategies tomodulate TGF-beta signaling. Prevention andtreatment of chronic lung disease in premature infants may become possible.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Program Projects (P01)
Project #
1P01HL060231-01
Application #
6273337
Study Section
Project Start
1998-04-01
Project End
1999-03-31
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
1
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
Children's Hospital of Los Angeles
Department
Type
DUNS #
094878337
City
Los Angeles
State
CA
Country
United States
Zip Code
90027

  Publications

Buckley, Susan; Shi, Wei; Xu, Wei et al. (2015) Increased alveolar soluble annexin V promotes lung inflammation and fibrosis. Eur Respir J 46:1417-29
Xing, Yiming; Wang, Runming; Li, Changgong et al. (2015) PTEN regulates lung endodermal morphogenesis through MEK/ERK pathway. Dev Biol 408:56-65
Li, Changgong; Li, Aimin; Xing, Yiming et al. (2013) Apc deficiency alters pulmonary epithelial cell fate and inhibits Nkx2.1 via triggering TGF-beta signaling. Dev Biol 378:13-24
Gong, Dapeng; Fei, Fei; Lim, Min et al. (2013) Abr, a negative regulator of Rac, attenuates cockroach allergen-induced asthma in a mouse model. J Immunol 191:4514-20
Gong, Dapeng; Shi, Wei; Yi, Sun-ju et al. (2012) TGF? signaling plays a critical role in promoting alternative macrophage activation. BMC Immunol 13:31
El-Hashash, Ahmed H K; Turcatel, Gianluca; Varma, Saaket et al. (2012) Eya1 protein phosphatase regulates tight junction formation in lung distal epithelium. J Cell Sci 125:4036-48
Xu, Pinglong; Liu, Jianming; Derynck, Rik (2012) Post-translational regulation of TGF-* receptor and Smad signaling. FEBS Lett 586:1871-84
Tiozzo, Caterina; Danopoulos, Soula; Lavarreda-Pearce, Maria et al. (2012) Embryonic epithelial Pten deletion through Nkx2.1-cre leads to thyroid tumorigenesis in a strain-dependent manner. Endocr Relat Cancer 19:111-122
Lamouille, Samy; Connolly, Erin; Smyth, James W et al. (2012) TGF-?-induced activation of mTOR complex 2 drives epithelial-mesenchymal transition and cell invasion. J Cell Sci 125:1259-73
Xu, Pinglong; Liu, Jianming; Sakaki-Yumoto, Masayo et al. (2012) TACE activation by MAPK-mediated regulation of cell surface dimerization and TIMP3 association. Sci Signal 5:ra34

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