Abstract
Tissue transglutaminase belongs to the multigene transglutaminase family of Ca2+-dependent protein cross-linking enzymes. Unlike other transglutaminases, it is involved in cell-matrix interactions and serves as an adhesion co-receptor for fibronectin. Previous work established that the fibronectin-binding motif(s) is located within the NH2-terminal proteolytic fragment of the protein consisting of residues 1-272. Here we identify a novel fibronectin recognition site within this sequence of tissue transglutaminase. Substitution of individual domains of tissue transglutaminase with those from homologous factor XIIIA showed that the major fibronectin-binding site is present within the first beta-sandwich domain of the protein. Experiments with deletion mutants of the first domain revealed that amino acids 81-140 of tissue transglutaminase are involved in fibronectin binding. Using synthetic peptides encompassing this region, we found that the peptide 88WTATVVDQQDCTLSLQLTT106 inhibited the interaction of tissue transglutaminase with fibronectin and decreased transglutaminase-dependent cell adhesion and spreading. In the three-dimensional structure of the first domain, amino acids 88-106 comprise an extended hairpin formed by antiparallel beta strands 5 and 6. Mutations of Asp94 and Asp97 within the beta5/beta6 hairpin to Ala significantly reduced the affinity of tissue transglutaminase for fibronectin, indicating that these residues are critical for fibronectin binding. Identification of the fibronectin-binding site on tissue transglutaminase will help to dissect the role of this protein in cell-matrix interactions.
Highlights
Tissue transglutaminase belongs to the multigene transglutaminase family of Ca2؉-dependent protein cross-linking enzymes
A Major Interaction Site for Fibronectin Is Located within the First Domain of tTG—Previously, it was shown that the fibronectin-binding site on tTG is localized within the NH2terminal 28-kDa proteolytic fragment of tTG (28)
We showed that the NH2-terminal -sandwich domain of tTG, tTG-(1–140), is necessary and sufficient for this interaction (Figs. 1 and 2)
Summary
Tissue transglutaminase belongs to the multigene transglutaminase family of Ca2؉-dependent protein cross-linking enzymes Unlike other transglutaminases, it is involved in cell-matrix interactions and serves as an adhesion co-receptor for fibronectin. The ability of tTG to stimulate cell adhesion depends on the interaction with ubiquitous and abundant extracellular matrix protein, fibronectin (15). High molecular weight covalently cross-linked fibronectin complexes may be formed by either tTG or activated A subunit of factor XIII transglutaminase (FXIIIA (7, 23, 24)). TTG is capable of mediating integrin-fibronectin association, serving as a bridge between integrins and one of their prominent ligands (15) This unconventional function of tTG in cell-matrix adhesion is independent from its cross-linking activity and is, apparently, unique for this transglutaminase (15, 23). As yet another distinctive function of complex formation between fibronectin and tTG, plasma fibronectin mediates the clearing of tTG from circulation after release of intracellular tTG from damaged erythrocytes (1, 16)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
