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Mapping the binding site of C1-inhibitor for polyanion cofactors.

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The serpin, C1-inhibitor (also known as SERPING1), plays a vital anti-inflammatory role in the body by controlling pro-inflammatory pathways such as complement and coagulation. The inhibitor's action is enhanced in… Click to show full abstract

The serpin, C1-inhibitor (also known as SERPING1), plays a vital anti-inflammatory role in the body by controlling pro-inflammatory pathways such as complement and coagulation. The inhibitor's action is enhanced in the presence of polyanionic cofactors, such as heparin and polyphosphate, by increasing the rate of association with key enzymes such as C1s of the classical pathway of complement. The cofactor binding site of the serpin has never been mapped. Here we show that residues Lys284, Lys285 and Arg287 of C1-inhibitor play key roles in binding heparin and delivering the rate enhancement seen in the presence of polyanions and thus most likely represent the key cofactor binding residues for the serpin. We also show that simultaneous binding of the anion binding site of C1s by the polyanion is required to deliver the rate enhancement. Finally, we have shown that it is unlikely that the two positively charged zones of C1-inhibitor and C1s interact in the encounter complex between molecules as ablation of the charged zones did not in itself deliver a rate enhancement as might have been expected if the zones interacted. These insights provide crucial information as to the mechanism of action of this key serpin in the presence and absence of cofactor molecules.

Keywords: polyanion; inhibitor; binding site; rate; serpin

Journal Title: Molecular immunology
Year Published: 2020

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