Factor XIII A (FXIIIA) is a member of the transglutaminase enzyme family that cross-links both intra- and extracellular protein substrates. To prevent undesired cross-linking, FXIIIA is expressed as an inactive zymogen and exists intracellularly as an A2 homodimer. In plasma, FXIII A2 is complexed with two protective factor XIII B subunits (A2B2) that dissociate upon activation of the zymogen. Based on limited experimental data, activated FXIII was considered a dimer of two catalytically active A subunits. However, accumulating but indirect evidence has suggested activation may lead to a monomeric state instead. In the present study, we employed analytical ultracentrifugation (AUC) to directly explore the oligomerization state of zymogen as well as active FXIIIA in solution. We first confirmed that the zymogen was a FXIIIA2 dimer. When we activated FXIIIA nonproteolytically (by high mm Ca2+), the protein dissociated to monomers. More importantly, FXIIIA incubation with its physiological partner, the protease thrombin, led to a monomeric state as well. AUC studies of partially cleaved FXIIIA further suggested that thrombin cleavage of a single activation peptide in a zymogen dimer is sufficient to weaken intersubunit interactions, initiating the transition to monomer. The enzymatic activity of the thrombin-cleaved species was higher than nonproteolytically activated enzyme, suggesting that displacement of the activation peptide renders the FXIIIA more accessible to substrates. Thus, results provide evidence that FXIII undergoes a change in oligomerization state as part of the activation process, and emphasize the role of the activation peptide in preventing FXIIIA catalytic activity. Enzymes: Factor XIIIA (EC2.3.2.13).
CITATION STYLE
Anokhin, B. A., Stribinskis, V., Dean, W. L., & Maurer, M. C. (2017). Activation of factor XIII is accompanied by a change in oligomerization state. FEBS Journal, 284(22), 3849–3861. https://doi.org/10.1111/febs.14272
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