Abstract
Nitrophorin 2 (NP2) is a salivary lipocalin from Rhodnius prolixus that binds with coagulation factors IX (fIX) and IXa (fIXa). Binding of NP2 with fIXa results in potent inhibition of the intrinsic factor Xase complex. A panel of site-directed surface mutants of NP2 was generated to locate determinants of high affinity fIX(a) binding. The locations of the mutations were based on comparisons with the related, but less potent, inhibitor nitrophorin 3 (NP3). Three point mutants (K21A, K92A, and V94A) were found that clearly reduced the inhibitory potency as measured by the activity of a reconstituted factor Xase system. Binding of NP2 with fIXa and fIX as measured by surface plasmon resonance and isothermal titration calorimetry was reduced in a similar manner. Of the three mutants, two (K92A and V94A) were located on the loop connecting beta-strands E and F of the lipocalin beta-barrel. The largest changes were seen with the K92A mutation, which lies at the apex of the loop, with a smaller effect being seen with mutation of Val(94). Combination of four E-F loop mutations (K92A, A93K, V94A, E97A) in a single mutant reduced the inhibitory potency and binding to levels similar to those seen with NP3 without affecting heme or histamine binding.
Highlights
Nitrophorin 2 (NP2) is a salivary lipocalin from Rhodnius prolixus that binds with coagulation factors IX and IXa
The intrinsic factor Xase complex1 is an essential component of the mammalian blood coagulation cascade consisting of factors IXa, VIIIa, and X assembled on an anionic phospholipid surface [1]
NP2 is a member of the nitrophorin (NP) group, consisting of four related salivary lipocalins in R. prolixus that are remarkable in taking on numerous functions related to blood feeding [7,8,9,10]
Summary
Nitrophorin 2 (NP2) is a salivary lipocalin from Rhodnius prolixus that binds with coagulation factors IX (fIX) and IXa (fIXa). The intrinsic factor Xase complex (fXase) is an essential component of the mammalian blood coagulation cascade consisting of factors IXa (fIXa), VIIIa (fVIIIa), and X (fX) assembled on an anionic phospholipid surface [1]. Disruption of this reaction results in two of the most important human bleeding disorders, hemophilias A (fVIII deficiency) and B (fIX deficiency) [1]. In this study we have used structural information from NP2 as well as sequence comparisons between NP2 and NP3 to design a panel of site-directed mutants to locate a major determinant of high affinity fIXa binding by this unusual and potentially important inhibitor of the intrinsic coagulation pathway
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