Bajaj S Paul, Schmidt Amy E, Agah Sayeh, Bajaj Madhu S, Padmanabhan Kaillathe
Protein Science Laboratory, UCLA/Orthopaedic Hospital, Department of Orthopaedic Surgery and Molecular Biology Institute, UCLA, Los Angeles, California 90095, USA.
J Biol Chem. 2006 Aug 25;281(34):24873-88. doi: 10.1074/jbc.M509971200. Epub 2006 Jun 6.
Factor VIIa (FVIIa) consists of a gamma-carboxyglutamic acid (Gla) domain, two epidermal growth factor-like domains, and a protease domain. FVIIa binds seven Ca(2+) ions in the Gla, one in the EGF1, and one in the protease domain. However, blood contains both Ca(2+) and Mg(2+), and the Ca(2+) sites in FVIIa that could be specifically occupied by Mg(2+) are unknown. Furthermore, FVIIa contains a Na(+) and two Zn(2+) sites, but ligands for these cations are undefined. We obtained p-aminobenzamidine-VIIa/soluble tissue factor (sTF) crystals under conditions containing Ca(2+), Mg(2+), Na(+), and Zn(2+). The crystal diffracted to 1.8A resolution, and the final structure has an R-factor of 19.8%. In this structure, the Gla domain has four Ca(2+) and three bound Mg(2+). The EGF1 domain contains one Ca(2+) site, and the protease domain contains one Ca(2+), one Na(+), and two Zn(2+) sites. (45)Ca(2+) binding in the presence/absence of Mg(2+) to FVIIa, Gla-domainless FVIIa, and prothrombin fragment 1 supports the crystal data. Furthermore, unlike in other serine proteases, the amide N of Gly(193) in FVIIa points away from the oxyanion hole in this structure. Importantly, the oxyanion hole is also absent in the benzamidine-FVIIa/sTF structure at 1.87A resolution. However, soaking benzamidine-FVIIa/sTF crystals with d-Phe-Pro-Arg-chloromethyl ketone results in benzamidine displacement, d-Phe-Pro-Arg incorporation, and oxyanion hole formation by a flip of the 192-193 peptide bond in FVIIa. Thus, it is the substrate and not the TF binding that induces oxyanion hole formation and functional active site geometry in FVIIa. Absence of oxyanion hole is unusual and has biologic implications for FVIIa macromolecular substrate specificity and catalysis.
凝血因子VIIa(FVIIa)由一个γ-羧基谷氨酸(Gla)结构域、两个表皮生长因子样结构域和一个蛋白酶结构域组成。FVIIa在Gla结构域中结合7个Ca(2+)离子,在表皮生长因子1(EGF1)结构域中结合1个,在蛋白酶结构域中结合1个。然而,血液中同时含有Ca(2+)和Mg(2+),而FVIIa中可能被Mg(2+)特异性占据的Ca(2+)位点尚不清楚。此外,FVIIa含有一个Na(+)位点和两个Zn(2+)位点,但这些阳离子的配体尚未确定。我们在含有Ca(2+)、Mg(2+)、Na(+)和Zn(2+)的条件下获得了对氨基苯甲脒-VIIa/可溶性组织因子(sTF)晶体。该晶体衍射分辨率达到1.8埃,最终结构的R因子为19.8%。在此结构中,Gla结构域有4个Ca(2+)和3个结合的Mg(2+)。EGF1结构域含有1个Ca(2+)位点,蛋白酶结构域含有1个Ca(2+)、1个Na(+)和2个Zn(2+)位点。在有/无Mg(2+)存在的情况下,(45)Ca(2+)与FVIIa、无Gla结构域的FVIIa和凝血酶原片段1的结合支持了晶体数据。此外,与其他丝氨酸蛋白酶不同,FVIIa中Gly(193)的酰胺氮在此结构中远离氧阴离子洞。重要的是,在分辨率为1.87埃的苯甲脒-FVIIa/sTF结构中也没有氧阴离子洞。然而,用d-苯丙氨酸-脯氨酸-精氨酸-氯甲基酮浸泡苯甲脒-FVIIa/sTF晶体,会导致苯甲脒被取代,d-苯丙氨酸-脯氨酸-精氨酸掺入,并通过FVIIa中192-193肽键的翻转形成氧阴离子洞。因此,是底物而非TF结合诱导了FVIIa中氧阴离子洞的形成和功能性活性位点的几何结构。氧阴离子洞的缺失是不寻常的,并且对FVIIa大分子底物特异性和催化作用具有生物学意义。
