Abstract

Cobra venom factor (CVF) is the complement-activating protein in cobra venom. CVF is a structural and functional analog of complement component C3. CVF, like C3b, forms a convertase with factor B. This bimolecular complex CVF,Bb is an enzyme that cleaves C3 and C5. However, CVF,Bb exhibits significantly different functional properties from C3b,Bb. The CVF,Bb convertase is physico-chemically very stable, and completely resistant to an activation by Factors H and I. These two properties, in contrast to C3b,Bb, allow continuous activation of C3 and C5, and complement depletion in serum. In order to understand the structural basis for the functional differences between CVF and C3, we have created several hybrid proteins of CVF and human C3. Here we report that replacing the C-terminal 168 amino acid residues of human C3 with the corresponding residues from CVF results in a hybrid protein (HC3-1496) which is essentially a human C3 derivative exhibiting the functional properties of CVF. This result demonstrates that the important structures for the CVF-specific functions reside within the C-terminal 168 amino acid residues of CVF. We further demonstrate that reverting the 46 C-terminal CVF residues of HC3-1496 to human C3 sequence results in a hybrid protein (HC3-1496/1617) that exhibits a physico-chemically unstable convertase with only residual complement depleting activity. This result demonstrates that most, but not all, structural requirements for CVF activity reside within the 46 C-terminal amino acid residues. We also investigated the potential role of position 1633, which is an acidic residue in human C3 (glutamic acid) but a basic amino acid residue (histidine) in CVF. However, the charge at position 1633 appears to be of no functional relevance. Exchanging the neutral amino acids present in CVF at positions 1499 and 1501 with the two charged amino acids at these positions in human C3 (aspartic acid and lysine) resulted in a hybrid protein that exhibited significantly slower convertase formation although both binding to Factor B and C3 cleavage was not affected, demonstrating that the charged amino acid residues at these two positions interfere with the formation of the convertase. In conclusion, our work demonstrates that hybrid proteins of human C3 and CVF present valuable tools to identify functionally important amino acid residues in CVF.

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