The La protein functions redundantly with tRNA modification enzymes to ensure tRNA structural stability

Although the La protein stabilizes nascent pre-tRNAs from nucleases, influences the pathway of pre-tRNA maturation, and assists correct folding of certain pre-tRNAs, it is dispensable for growth in both budding and fission yeast. Here we show that the Saccharomyces cerevisiae La shares functional redundancy with both tRNA modification enzymes and other proteins that contact tRNAs during their biogenesis. La is important for growth in the presence of mutations in either the arginyl tRNA synthetase or the tRNA modification enzyme Trm1p. In addition, two pseudouridine synthases, PUS3 and PUS4, are important for growth in strains carrying a mutation in tRNA(Arg)(CCG) and are essential when La is deleted in these strains. Depletion of Pus3p results in accumulation of the aminoacylated mutant tRNA(Arg)(CCG) in nuclei, while depletion of Pus4p results in decreased stability of the mutant tRNA. Interestingly, the degradation of mutant unstable forms of tRNA(Arg)(CCG) does not require the Trf4p poly(A) polymerase, suggesting that yeast cells possess multiple pathways for tRNA decay. These data demonstrate that La functions redundantly with both tRNA modifications and proteins that associate with tRNAs to achieve tRNA structural stability and efficient biogenesis

Competition between the Rex1 exonuclease and the La protein affects both Trf4p-mediated RNA quality control and pre-tRNA maturation

Although nascent noncoding RNAs can undergo maturation to functional RNAs or degradation by quality control pathways, the events that influence the choice of pathway are not understood. We report that the targeting of pre-tRNAs and certain other noncoding RNAs for decay by the TRAMP pathway is strongly influenced by competition between the La protein and the Rex1 exonuclease for access to their 3′ ends. The La protein binds the 3′ ends of many nascent noncoding RNAs, protecting them from exonucleases. We demonstrate that unspliced, end-matured, partially aminoacylated pre-tRNAs accumulate in yeast lacking the TRAMP subunit Trf4p, indicating that these pre-tRNAs normally undergo decay. By comparing RNA extracted from wild-type and mutant yeast strains, we show that Rex1p is the major exonuclease involved in pre-tRNA trailer trimming and may also function in nuclear CCA turnover. As the accumulation of end-matured pre-tRNAs in trf4Δ cells requires Rex1p, these pre-tRNAs are formed by exonucleolytic trimming. Accumulation of truncated forms of 5S rRNA and SRP RNA in trf4Δ cells also requires Rex1p. Overexpression of the La protein Lhp1p reduces both exonucleolytic pre-tRNA trimming in wild-type cells and the accumulation of defective RNAs in trf4Δ cells. Our experiments reveal that one consequence of Rex1p-dependent 3′ trimming is the generation of aberrant RNAs that are targeted for decay by TRAMP