Identification of a highly reactive substrate peptide for transglutaminase 6 and its use in detecting transglutaminase activity in the skin epidermis.

Mammalian transglutaminases (TGs) are a family of enzymes that catalyze the formation of covalent crosslinks between glutamine and lysine residues in proteins. These catalytic reactions play roles in several essential biological processes, including blood coagulation, skin formation, and stabilization of the extracellular matrix. Among the members of this family, factor XIII and TGs 1-5 have been characterized well, but very little is known about the novel members TG6 and TG7. Recently, however, autoantibodies against TG6 were found in a patient with gluten ataxia, a disease caused by enzymatically modified gluten-derived peptides in neuronal cells. To characterize the possible physiological functions of TG6, in this study we screened a phage-displayed random peptide library to find highly reactive glutamine donor substrate peptides. From several candidate peptides, one sequence, designated Y25, appeared to have the highest reactivity. The Y25 sequence also has apparent isozyme specificity when evaluated by incorporation of the labeled glutamine acceptor substrate as a fusion protein with glutathione-S-transferase. Also, the sequence retained high reactivity as well as the isozyme specificity in the peptide form. Analyses with the biotin-labeled and fluorescence-labeled peptides showed TG6 to be an active enzyme and react to specific substrates in the skin, which is consistent with the results of the expression pattern of its transcripts.

Transglutaminase 2 and Factor XIII catalyze distinct substrates in differentiating osteoblastic cell line: utility of highly reactive substrate peptides.

Differentiated osteoblastic cell line, MC3T3-E1 expresses transglutaminase 2 (TG2) and Factor XIII (FXIII). In previous studies, we identified isozyme-specific and highly reactive glutamine-donor substrate peptides (pepF11KA and pepT26) for each isozyme. Using these peptides, we compared the reaction products with lysine-donor substrates for each isozyme in differentiating MC3T3-E1 cells. By this analysis, distinct substrates for the activated TG2 and FXIII were detected in cultured cellular extract. Possible substrates that incorporated biotin-labeled peptides were further purified using streptavidin-affinity chromatography. Several isozyme-specific substrates were identified by mass spectrometry analysis of the purified fractions. These analyses also indicate the benefit of the substrate peptides for obtaining distinct substrates in a reaction mixture where two isozymes co-exist.

Identification of a preferred substrate peptide for transglutaminase 3 and detection of in situ activity in skin and hair follicles.

Transglutaminases (TGases) are a family of enzymes that catalyze cross-linking reactions between proteins. During epidermal differentiation, these enzymatic reactions are essential for formation of the cornified envelope, which consists of cross-linked structural proteins. Two main transglutaminases isoforms, epidermal-type (TGase 3) and keratinocyte-type (TGase 1), are cooperatively involved in this process of differentiating keratinocytes. Information regarding their substrate preference is of great importance to determine the functional role of these isozymes and clarify their possible co-operative action. Thus far, we have identified highly reactive peptide sequences specifically recognized by TGases isozymes such as TGase 1, TGase 2 (tissue-type isozyme) and the blood coagulation isozyme, Factor XIII. In this study, several substrate peptide sequences for human TGase 3 were screened from a phage-displayed peptide library. The preferred substrate sequences for TGase 3 were selected and evaluated as fusion proteins with mutated glutathione S-transferase. From these studies, a highly reactive and isozyme-specific sequence (E51) was identified. Furthermore, this sequence was found to be a prominent substrate in the peptide form and was suitable for detection of in situ TGase 3 activity in the mouse epidermis. TGase 3 enzymatic activity was detected in the layers of differentiating keratinocytes and hair follicles with patterns distinct from those of TGase 1. Our findings provide new information on the specific distribution of TGase 3 and constitute a useful tool to clarify its functional role in the epidermis.