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Redox properties of the tissue factor Cys186-Cys209 disulfide bond.

The Biochemical journal (2011-05-21)
Hai Po Helena Liang, Teresa M Brophy, Philip J Hogg
RESUMEN

TF (tissue factor) is a transmembrane cofactor that initiates blood coagulation in mammals by binding Factor VIIa to activate Factors X and IX. The cofactor can reside in a cryptic configuration on primary cells and de-encryption may involve a redox change in the C-terminal domain Cys(186)-Cys(209) disulfide bond. The redox potential of the bond, the spacing of the reduced cysteine thiols and their oxidation by TF activators was investigated to test the involvement of the dithiol/disulfide in TF activation. A standard redox potential of -278 mV was determined for the Cys(186)-Cys(209) disulfide of recombinant soluble TF. Notably, ablating the N-terminal domain Cys(49)-Cys(57) disulfide markedly increased the redox potential of the Cys(186)-Cys(209) bond, suggesting that the N-terminal bond may be involved in the regulation of redox activity at the C-terminal bond. Using As(III) and dibromobimane as molecular rulers for closely spaced sulfur atoms, the reduced Cys(186) and Cys(209) sulfurs were found to be within 3-6 Å (1 Å=0.1 nm) of each other, which is close enough to reform the disulfide bond. HgCl2 is a very efficient activator of cellular TF and activating concentrations of HgCl2-mediated oxidation of the reduced Cys(186) and Cys(209) thiols of soluble TF. Moreover, PAO (phenylarsonous acid), which cross-links two cysteine thiols that are in close proximity, and MMTS (methyl methanethiolsulfonate), at concentrations where it oxidizes closely spaced cysteine residues to a cystine residue, were efficient activators of cellular TF. These findings further support a role for Cys(186) and Cys(209) in TF activation.

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Dibromobimane, BioReagent, suitable for fluorescence, ≥95.0% (CHN)