ABSTRACT
Peptidoglycane-recognizing protein Tag7 formed a complex with S100A4 (a representative of S100 protein family), the apparent dissociation constants in the absence and presence of Ca2+ were 2 x l0(-8) M and 10(-9) M, respectively. Analysis of fluorescence spectra of hydrophobic fluorescent probe 2-toluidinyl naphthalene-6-sulfonate in the presence of S100A4 and Tag7 proteins showed that extensive area or several sites are involved into the complex formation between these proteins. The formation of Tag7-S100A4 complex had virtually no effect on the role of S100A4 in the regulation of intracellular Ca2+ metabolism. Removal of not only Tag7, but also S100A4 from neutrophil conditioned medium reduced lysis of E. coli cell, while addition of the Tag7-S100A4 complex to the medium restored antibacterial activity.
