Association of the sindbis virus RNA methyltransferase activity with the nonstructural protein nsP1

Abstract

SV LM21 is a mutant of Sindbis virus, which in contrast to SV STD, is able to replicate in Aedes albopictus mosquito cells deprived of methionine. We have obtained evidence that the basis of this low methionine-resistance (LMR) phenotype is the generation of an altered RNA methyltransferase with an increased affinity for S-adenosylmethionine (ado met). We now report that following the substitution of the nucleotide sequence, 126–504, from SV LM21 cDNA for the corresponding sequence of the Toto 1101 plasmid (infectious Sindbis viral RNA can be transcribed from this plasmid) we were able to generate recombinant Sindbis virus (SV MS-65a) with the LMR phenotype. (SV TOTO virus derived from Toto 1101, like SV STD, lacks the LMR phenotype.) As was the case with SV LM21, SV MS-65a not only possessed the LMR phenotype but also showed an increased sensitivity to Neplanocin A, a potent inhibitor of S-adenosylhomocysteine (ado hcy) hydrolase. Sequencing of the nucleotide 126–504 region from SV LM21 revealed two mutations; these mutations occurred in adjacent codons and lead to two predicted amino acid changes in the SV nsPl protein; at residue 87, from Arg to Leu, and at residue 88 from Ser to Cys. Since the nucleotide sequence 126–504 lies entirely within the gene for nsP1, we conclude that the RNA methyltransferase activity generated by SV is associated with nsPl. We suggest that residues 87 and 88 in nsP1, where the amino acid changes in SV LM21 nsP1 have occurred, are at or near the binding site for ado met; we also suggest that these changes in nsP1 are responsible for the increased affinity of the SV LM21 RNA methyltransferase for ado met and thereby for the LMR phenotype. Alternatively, it is possible that the binding site for ado met is elsewhere on nsP1 or even on another protein, and that the changes at residues 87 and 88 lead to an alteration of the binding site.