Abstract

The cornea contains an abundant poorly understood clinically relevant protein important for the preservation of corneal transparency. Mutations in the TGFBI (BIGH3) gene are responsible for several phenotypically different inherited corneal diseases that have no apparent non-ocular manifestations. These disorders include several varieties of lattice corneal dystrophy and corneal amyloidoses, granular corneal dystrophy, Reis- B|cklers corneal dystrophy, Thiel-Behnke dystrophy, and several atypical corneal disorders. The particular clinical and histopathologic phenotypes are dependent upon the precise mutation in TGFBI, but a molecular explanation for the different phenotypes remains to be determined. The mutated extracellular transforming growth factor beta induced protein (TGFBIp) encoded by TGFBI accumulates in the corneal stroma in these disorders which are apparently limited to the cornea. The long-term objectives are to understand the properties of this unique protein and to investigate the molecular mechanisms responsible for the specific deposits that accumulate within the cornea in patients with mutated TGFBI.
The Specific Aims of this proposal are: (1) to screen subjects with inherited corneal diseases for TGFBI mutations, (2) to analyze abnormal deposits isolated from surgically excised corneal tissue by laser capture micro-dissection and liquid chromatography/tandem mass spectrometry (LC MS/MS) to determine whether part or all of the mutated TGFBIp accumulates in the cornea and what other protein(s) are closely linked to it, (3) to determine the biochemical and biophysical properties of the FAS4 domain of purified recombinant wild-type and disease producing TGFBIp and (4) to solve the three-dimensional structure at atomic resolution of recombinant wild- type TGFBIp and the FAS4 domains of recombinant wild-type and disease producing mutants using X-ray crystallography and nuclear magnetic resonance spectroscopy (NMR).

Public Health Relevance

. This is a study of an important poorly understood protein (TGFBIp). Mutations in the gene (TGFBI) encoding for this protein cause several corneal diseases (dystrophies) and a better understanding of TGFBIp will lead to better methods of treating the resulting impaired vision and debilitating symptoms.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY012712-07
Application #
7627240
Study Section
Anterior Eye Disease Study Section (AED)
Program Officer
Shen, Grace L
Project Start
1999-08-01
Project End
2012-05-31
Budget Start
2009-06-01
Budget End
2010-05-31
Support Year
7
Fiscal Year
2009
Total Cost
$334,600
Indirect Cost

  Institution

Name
Duke University
Department
Pathology
Type
Schools of Medicine
DUNS #
044387793
City
Durham
State
NC
Country
United States
Zip Code
27705

  Publications

Sørensen, Charlotte S; Runager, Kasper; Scavenius, Carsten et al. (2015) Fibril Core of Transforming Growth Factor Beta-Induced Protein (TGFBIp) Facilitates Aggregation of Corneal TGFBIp. Biochemistry 54:2943-56
Koldsø, Heidi; Andersen, Ole Juul; Nikolajsen, Camilla Lund et al. (2015) Early Events in the Amyloid Formation of the A546T Mutant of Transforming Growth Factor ?-Induced Protein in Corneal Dystrophies Compared to the Nonfibrillating R555W and R555Q Mutants. Biochemistry 54:5546-56
Nielsen, Nadia Sukusu; Poulsen, Ebbe Toftgaard; Klintworth, Gordon K et al. (2014) Insight into the Protein Composition of Immunoglobulin Light Chain Deposits of Eyelid, Orbital and Conjunctival Amyloidosis. J Proteomics Bioinform Suppl 8:
Risør, Michael W; Poulsen, Ebbe Toftgaard; Thomsen, Line R et al. (2014) The autolysis of human HtrA1 is governed by the redox state of its N-terminal domain. Biochemistry 53:3851-7
Poulsen, Ebbe Toftgaard; Runager, Kasper; Risør, Michael W et al. (2014) Comparison of two phenotypically distinct lattice corneal dystrophies caused by mutations in the transforming growth factor beta induced (TGFBI) gene. Proteomics Clin Appl 8:168-77
Poulsen, Ebbe Toftgaard; Dyrlund, Thomas F; Runager, Kasper et al. (2014) Proteomics of Fuchs' endothelial corneal dystrophy support that the extracellular matrix of Descemet's membrane is disordered. J Proteome Res 13:4659-67
Runager, Kasper; Klintworth, Gordon K; Karring, Henrik et al. (2013) The insoluble TGFBIp fraction of the cornea is covalently linked via a disulfide bond to type XII collagen. Biochemistry 52:2821-7
Karring, Henrik; Poulsen, Ebbe Toftgaard; Runager, Kasper et al. (2013) Serine protease HtrA1 accumulates in corneal transforming growth factor beta induced protein (TGFBIp) amyloid deposits. Mol Vis 19:861-76
Underhaug, Jarl; Koldsø, Heidi; Runager, Kasper et al. (2013) Mutation in transforming growth factor beta induced protein associated with granular corneal dystrophy type 1 reduces the proteolytic susceptibility through local structural stabilization. Biochim Biophys Acta 1834:2812-22
Semba, Richard D; Enghild, Jan J; Venkatraman, Vidya et al. (2013) The Human Eye Proteome Project: perspectives on an emerging proteome. Proteomics 13:2500-11

Showing the most recent 10 out of 33 publications