Abstract

The hemidesmosome integrates the extracellular matrix and the keratin- containing intermediate filament network of epithelial cells in a number of tissue types. Perturbation of the hemidesmosome either by autoantibodies or in certain genetic skin diseases leads to the detachment of an epithelial sheet from the underlying connective tissue. The resulting blisters and the likelihood of infection can be devastating. The experiments outlined in this proposal are designed to provide new insights into both the assembly of and protein-protein interactions in the hemidesmosome. Molecular genetic analyses will be used to provide clues to potential protein-protein interactions. These studies will involve transfection of constructs encoding various hemidesmosomal components or portions thereof into 804G cells, a line that readily assembles hemidesmosomes in vitro, as well as into other cell types that fail to express one or more hemidesmosomal components. The fate of transfected proteins and their impact on endogenous hemidesmosomal components and the cytoskeleton will be determined by immunocytochemistry. Biochemical approaches are detailed to further characterize potential hemidesmosomal protein-protein interactions. For biochemical studies, individual hemidesmosomal elements will be purified from a bovine tissue source and their binding capabilities will be assessed in vitro in solution as well as in solid phase assays. In some assays recombinant hemidesmosome proteins will be used. In addition, cell surface receptor interactions of hemidesmosome associated laminin variants will be assessed using column chromatography. De novo assembly of hemidesmosomes in 804G cells will be monitored during re-establishment of substrate contact following suspension culture. The role of hemidesmosome associated laminins and their integrin receptors in nucleating hemidesmosome assembly in keratinocytes and in tissue explants will be studied by light and electron microscopy and by adhesion assays. Putative changes in phosphorylation of various hemidesmosomal proteins during hemidesmosome assembly will be determined in a tissue culture model system.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
3R01GM038470-11S1
Application #
6223879
Study Section
Cellular Biology and Physiology Subcommittee 1 (CBY)
Program Officer
Deatherage, James F
Project Start
1988-04-01
Project End
2001-02-28
Budget Start
2000-03-01
Budget End
2001-02-28
Support Year
11
Fiscal Year
2000
Total Cost
$69,871
Indirect Cost

  Institution

Name
Northwestern University at Chicago
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
005436803
City
Chicago
State
IL
Country
United States
Zip Code
60611

  Publications

DeHart, Gregory W; Jones, Jonathan C R (2004) Myosin-mediated cytoskeleton contraction and Rho GTPases regulate laminin-5 matrix assembly. Cell Motil Cytoskeleton 57:107-17
deHart, Gregory W; Healy, Kevin E; Jones, Jonathan C R (2003) The role of alpha3beta1 integrin in determining the supramolecular organization of laminin-5 in the extracellular matrix of keratinocytes. Exp Cell Res 283:67-79
Gonzales, M; Weksler, B; Tsuruta, D et al. (2001) Structure and function of a vimentin-associated matrix adhesion in endothelial cells. Mol Biol Cell 12:85-100
Goldfinger, L E; Jiang, L; Hopkinson, S B et al. (2000) Spatial regulation and activity modulation of plasmin by high affinity binding to the G domain of the alpha 3 subunit of laminin-5. J Biol Chem 275:34887-93
Hopkinson, S B; Jones, J C (2000) The N terminus of the transmembrane protein BP180 interacts with the N-terminal domain of BP230, thereby mediating keratin cytoskeleton anchorage to the cell surface at the site of the hemidesmosome. Mol Biol Cell 11:277-86
Goldfinger, L E; Hopkinson, S B; deHart, G W et al. (1999) The alpha3 laminin subunit, alpha6beta4 and alpha3beta1 integrin coordinately regulate wound healing in cultured epithelial cells and in the skin. J Cell Sci 112 ( Pt 16):2615-29
Gonzales, M; Haan, K; Baker, S E et al. (1999) A cell signal pathway involving laminin-5, alpha3beta1 integrin, and mitogen-activated protein kinase can regulate epithelial cell proliferation. Mol Biol Cell 10:259-70
Chen, M; Marinkovich, M P; Jones, J C et al. (1999) NC1 domain of type VII collagen binds to the beta3 chain of laminin 5 via a unique subdomain within the fibronectin-like repeats. J Invest Dermatol 112:177-83
Hopkinson, S B; Findlay, K; deHart, G W et al. (1998) Interaction of BP180 (type XVII collagen) and alpha6 integrin is necessary for stabilization of hemidesmosome structure. J Invest Dermatol 111:1015-22
El-Ghannam, A; Starr, L; Jones, J (1998) Laminin-5 coating enhances epithelial cell attachment, spreading, and hemidesmosome assembly on Ti-6A1-4V implant material in vitro. J Biomed Mater Res 41:30-40

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