1. An Arthropod Cuticular Chitin-binding Protein Endows Injured Sites with Transglutaminase-dependent Mesh
- Author
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Shun Ichiro Kawabata, Fumio Arisaka, Tsukasa Osaki, Yasuyuki Matsuda, Yoshihiro Toh, Takumi Koshiba, and Haruka Suyama
- Subjects
Hemocytes ,Time Factors ,Tissue transglutaminase ,Molecular Sequence Data ,Chitin ,Biology ,Models, Biological ,Biochemistry ,Oligomer ,Pentapeptide repeat ,Exocytosis ,chemistry.chemical_compound ,Chitin binding ,Horseshoe Crabs ,Animals ,Amino Acid Sequence ,Molecular Biology ,Tachypleus tridentatus ,Transglutaminases ,Sequence Homology, Amino Acid ,integumentary system ,Molecular mass ,Circular Dichroism ,Cell Membrane ,Cell Biology ,biology.organism_classification ,Recombinant Proteins ,Protein Structure, Tertiary ,Horseshoe crab ,Kinetics ,chemistry ,Microscopy, Electron, Scanning ,biology.protein ,Ultracentrifugation ,Protein Binding - Abstract
In mammals, the cornified cell envelope forms beneath the plasma membrane in epithelia and provides a vital physical barrier consisting of insoluble proteins cross-linked by transglutaminase (TGase). In the horseshoe crab Tachypleus tridentatus, TGase is stored in hemocytes and secreted in response to the simulation of bacterial lipopolysaccharides. Here we characterized a TGase substrate designated as caraxin that was identified in horseshoe crab cuticle. One of the homologs, caraxin-1, possessed a unique domain structure consisting of N-and C-terminal heptad repeats and a central domain with a tandem-repeated structure of a pentapeptide. Western blotting showed the specific localization of caraxin-1 in sub-cuticular epidermis. Moreover, we identified the pentapeptide motif to be a chitin-binding unit. Analytical ultracentrifugation revealed that caraxin-1 exists as an oligomer with 310-350 kDa, which is approximately 20-mer based on the molecular mass of the monomer. The oligomers were cross-linked by TGase to form an elaborate mesh with honeycomb structures, which was electron-microscopically found to be different from the clotting mesh triggered by lipopolysaccharide-induced hemocyte exocytosis. We determined several cross-linking sites in the N-and C-terminal domains of caraxin-1. The replacements of Leu to Pro at positions 36 and 118 in caraxin-1 reduced the alpha-helix content, which destroyed the TGase-dependent mesh, thus indicating the importance of the N-and C-terminal domains for the proper mesh formation. In arthropods, TGase-dependent protein cross-linking may be involved in the initial stage of host defense at the sub-cuticular epidermis, as in the case of mammalian skin.
- Published
- 2007