Coagulation factor XI (FXI) is a covalent homodimer consisting of two identical subunits of 80 kDa linked by a disulfide bond formed by Cys-321 within the Apple 4 domain of each subunit. Because FXI C321S is a noncovalent dimer, residues within the interface between the two subunits must mediate its homodimeric structure. The crystal structure of FXI demonstrates formation of salt bridges between Lys-331 of one subunit and Glu-287 of the other subunit and hydrophobic interactions at the interface of the Apple 4 domains involving Ile-290, Leu-284, and Tyr-329. FXI C321S , FXI C321S,K331A , FXI C321S,E287A , FXI C321S,I290A , FXI C321S,Y329A , FXI C321S,L284A , FXI C321S,K331R , and FXI C321S,H343A were expressed in HEK293 cells and characterized using size exclusion chromatography, analytical ultracentrifugation, electron microscopy, and functional assays. Whereas FXI C321S and FXI C321S,H343A existed in monomer/ dimer equilibrium (K d ϳ 40 nM), all other mutants were predominantly monomers with impaired dimer formation by analytical ultracentrifugation (K d ؍ 3-38 M). When converted to the active enzyme, FXIa, all the monomeric mutants activated FIX similarly to wild-type dimeric FXIa. In contrast, these monomeric mutants could not be activated efficiently by FXIIa, thrombin, or autoactivation in the presence of dextran sulfate. We conclude that salt bridges formed between Lys-331 of one subunit and Glu-287 of the other together with hydrophobic interactions at the interface, involving residues Ile-290, Leu-284, and Tyr-329, are essential for homodimer formation. The dimeric structure of FXI is essential for normal proteolytic activation of FXI by FXIIa, thrombin, or FXIa either in solution or on an anionic surface but not for FIX activation by FXIa in solution.Factor XI (FXI), 3 the zymogen form of a serine protease coagulation enzyme that is essential for normal hemostasis, is activated either by FXIIa or by thrombin or by autoactivation (1, 2). Once converted to FXIa, the enzyme recognizes its natural macromolecular substrate, FIX, the Ca 2ϩ -dependent activation of which requires the exposure of a substrate-binding site within the Apple 2 (A2) and/or Apple 3 (A3) domains of FXIa and the ␥-carboxyglutamic acid domain of FIX, as well as an extended, macromolecular substrate-binding exosite in the protease domain of FXIa (3-9). The activation of FIX to FIXa involves two cleavages by FXIa, one after Arg-145 and the other after Arg-180, thereby releasing an 11-kDa activation peptide (3,4,10). FIX is also activated to FIXa by the tissue factorFVIIa complex (11).FXI and plasma prekallikrein (PK) are 58% identical in their amino acid sequences, and the domain structures of the two molecules are very similar, with each molecule containing four homologous apple (A1-A4) domains (12). The high homology between the heavy chain of FXI and PK indicates a common origin of these two zymogens, in contrast to FXII and other coagulation factors (13,14). However, FXI is a homodimer of two identical subunits joined by a disu...
