Structural and Functional Significance of Amino Acid Lysine192 (chymotrypsin numbering) in Factor XIa and Factor VIIa.

In blood coagulation serine proteases, amino acid 192 (chymotrypsin numbering) influences substrate and inhibitor specificity, and also forms a peptide bond with Gly¹⁹³, a critical part of the protease oxyanion hole. Residue 192 is either Glu or Gln in several serine proteases including thrombin, factor (F) Xa, FIXa, and activated protein C. However, it is Lys in factor FXIa and FVIIa. Both FXIa and FVIIa/tissue factor (TF) share FIX as their substrate. In addition, FVIIa/TF activates FX and is inhibited by TF pathway inhibitor (TFPI), whereas FXIa is inhibited by diisopropylfluorophosphate (DFP), p-aminobenzamidine (p-AB), antithrombin and amyloid-b precursor protein Kunitz domain (AbPP). We investigated the importance of Lys¹⁹² in FXIa and FVIIa for substrate/inhibitor specificity and oxyanion hole formation. Recombinant FXIa was prepared with Pro (FXIa_K192P), Glu (FXIa_K192E) or Gln (FXIa_K192Q) substitutions for Lys¹⁹². Rate constants for inhibition by DFP were similar for wild type FXIa (FXIa_WT), FXIa_K192E and FXIa_K192Q, but 80-fold slower for FXIa_K192P. Only FXIa_K192P differed in binding to pAB compared to FXIa_WT. These data indicate that Pro¹⁹² causes distortion of the oxyanion hole and S1 binding site. All mutants bound the FXIa substrate FIX normally. However, catalysis of FIX was impaired 400, 35, and 110-fold for FXIa_K192P, FXIa_K192E, and FXIa_K192Q, respectively, while k₂ for inhibition by antithrombin was reduced 160, 15 and 16-fold. FXIa_K192P bound to AbPP with 800-fold decreased affinity; while FXIa_K192E and FXIa_K192Q bound with 6-10-fold higher affinity. Modeling studies indicate that there is loss of the normal interaction between Lys¹⁹² and the substrate/inhibitor P3’ residue in interactions between FXIa_K192E and FXIa_K192Q and factor IX and antithrombin. The K_i for Glu and Gln mutant inhibition by AbPP is slightly better probably due to the ability of these two amino acids to make two H-bonds as compared to only one for Lys¹⁹². Lys¹⁹² makes H-bond with the carbonyl O of Gly¹² in AbPP, whereas Glu and Gln at this position make H-bonds with the carbonyl O of Cys¹⁴ and Ala¹⁶ in AbPP. In FXIa_K192P, the oxyanion hole is impaired due to a flip in the 192-193 peptide bond causing the amide N of Gly¹⁹³ to point away from the oxyanion hole, resulting in a severe impairment of all catalytic functions. Thus a non-proline residue 192 is essential for proper oxyanion hole formation in serine proteases, and Lys¹⁹² in FXIa contributes significantly towards macromolecular substrate catalysis and inhibitor binding. In contrast to FXIa_WT, the 192-193 peptide bond in FVIIa_WT ± TF is already in a nonstandard conformation in which the amide N of Gly¹⁹³ points away, and the carbonyl O of the Lys¹⁹² points into the oxyanion hole (