Site-specific Protease Activity of the Carboxyl-terminal Domain of Semliki Forest Virus Replicase Protein nsP2

The virus-specific components (nsP1–nsP4) of Semliki Forest virus RNA polymerase are synthesized as a large polyprotein (P1234), which is cleaved by a virus-encoded protease. Based on mutagenesis studies, nsP2 has been implicated as the protease moiety of P1234. Here, we show that purified nsP2 (799 amino acids) and its C-terminal domain Pro39 (amino acids 459–799) specifically process P1234 and its cleavage intermediates. Analysis of cleavage products of in vitro synthesized P12, P23, and P34 revealed cleavages at sites 1/2, 2/3, and 3/4. The cleavage regions of P1/2, P2/3, and P3/4 were expressed as thioredoxin fusion proteins (Trx12, Trx23, and Trx34), containing ∼20 amino acids on each side of the cleavage sites. After exposure of these purified fusion proteins to nsP2 or Pro39, the reaction products were analyzed by SDS-polyacrylamide gel electrophoresis, mass spectrometry, and amino-terminal sequencing. The expected amino termini of nsP2, nsP3, and nsP4 were detected. The cleavage at 3/4 site was most efficient, whereas cleavage at 1/2 site required 5000-fold more of Pro39, and 2/3 site was almost resistant to cleavage. The activity of Pro39 was inhibited by N -ethylmaleimide, Zn 2+ , and Cu 2+ , but not by EDTA, phenylmethylsulfonyl fluoride, or pepstatin, in accordance with the thiol proteinase nature of nsP2.