Enamel matrix proteins are central to the process of enamel formation, but they are not part of the product. Enamel matrix proteinases process enamel proteins into polypeptides during the secretory stage, and completely degrade the matrix during maturation. It is not possible to isolate any proteins from erupted teeth, or significant quantities of intact enamel proteins from developing teeth. The inability to obtain intact enamel proteins from length recombinant enamel proteins and specific antibodies to test hypotheses concerning the roles of proteins in dental enamel formation, the following three Specific Aims are proposed: 1) To express pig amelogenin, sheathlin, enamelin, enamelysin, and EMSP1 in bacteria and to isolate and characterize the recombinant proteins.
This aim will be accomplished using the pET11 and pPROEX1 expression systems. The proteins will be purified by successive ammonium sulfate precipitations, followed by high pressure, liquid chromatography (HPLC) using reversed phase and anion or cation exchange columns. The recombinant proteins will be characterized by amino-terminal sequencing, amino acid analysis, and laser desorption mass spectrometry. 2)To generate antibodies against recombinant amelogenin, sheathlin, enamelin, enamelysin, and EMSP1.
This aim will be accomplished using recombinant enamel proteins expressed in bacteria. The purified antigens will be infected into rabbits and characterize by ELISA. The rabbit serum will be absorbed by bacterial extracts to remove antibodies reactive against E. coli proteins and then purified on an FPLC affinity column to isolate only the IgG fraction. 3) To express pig amelogenin, sheathlin, enamelin, enamelysin, and EMSP1 in eukaryotic systems and to isolate and characterize the expression products This aim will be accomplished using the pcDNA3.1/Zeo, pCl-Neo, and nADLOX.HTM expression systems. All of these systems are used to express proteins in mammalian cells, to most accurately duplicate the post-translational modifications that occur to enamel proteins in vivo. The proteins will be expressed with signal peptides for secretion by the host cell, and purified by and preparative FPLC immunoaffinity chromatography. The expressed proteins will be characterized to determine the nature of their post-translational modifications.

Project Start
Project End
Budget Start
Budget End
Support Year
5
Fiscal Year
2003
Total Cost
$159,355
Indirect Cost
Name
Forsyth Institute
Department
Type
DUNS #
062190616
City
Cambridge
State
MA
Country
United States
Zip Code
02142
Hermo, Louis; Chung, Shari; Gregory, Mary et al. (2008) Alterations in the testis of hormone sensitive lipase-deficient mice is associated with decreased sperm counts, sperm motility, and fertility. Mol Reprod Dev 75:565-77
Primiani, Nadia; Gregory, Mary; Dufresne, Julie et al. (2007) Microvillar size and espin expression in principal cells of the adult rat epididymis are regulated by androgens. J Androl 28:659-69
Hermo, Louis; Korah, Nadine; Gregory, Mary et al. (2007) Structural alterations of epididymal epithelial cells in cathepsin A-deficient mice affect the blood-epididymal barrier and lead to altered sperm motility. J Androl 28:784-97
Khatchadourian, Karine; Smith, Charles E; Metzler, Martina et al. (2007) Structural abnormalities in spermatids together with reduced sperm counts and motility underlie the reproductive defect in HIP1-/- mice. Mol Reprod Dev 74:341-59
Ruz, Ricardo; Gregory, Mary; Smith, Charles E et al. (2006) Expression of aquaporins in the efferent ductules, sperm counts, and sperm motility in estrogen receptor-alpha deficient mice fed lab chow versus casein. Mol Reprod Dev 73:226-37
Margolis, H C; Beniash, E; Fowler, C E (2006) Role of macromolecular assembly of enamel matrix proteins in enamel formation. J Dent Res 85:775-93
Turk, Benjamin E; Lee, Daniel H; Yamakoshi, Yasuo et al. (2006) MMP-20 is predominately a tooth-specific enzyme with a deep catalytic pocket that hydrolyzes type V collagen. Biochemistry 45:3863-74
Smith, Charles E; Nanci, Antonio; Moffatt, Pierre (2006) Evidence by signal peptide trap technology for the expression of carbonic anhydrase 6 in rat incisor enamel organs. Eur J Oral Sci 114 Suppl 1:147-53; discussion 164-5, 380-1
Fowler, Christabel E; Beniash, Elia; Yamakoshi, Yasuo et al. (2006) Co-operative mineralization and protein self-assembly in amelogenesis: silica mineralization and assembly of recombinant amelogenins in vitro. Eur J Oral Sci 114 Suppl 1:297-303; discussion 327-9, 382
Bartlett, J D; Dwyer, S E; Beniash, E et al. (2005) Fluorosis: a new model and new insights. J Dent Res 84:832-6

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