Human Cells Have a Limited Set of tRNA Anticodon Loop Substrates of the tRNA Isopentenyltransferase TRIT1 Tumor Suppressor

Human TRIT1 is a tRNA isopentenyltransferase (IPTase) homologue of Escherichia coli MiaA, Saccharomyces cerevisiae Mod5, Schizosaccharomyces pombe Tit1, and Caenorhabditis elegans GRO-1 that adds isopentenyl groups to adenosine 37 (i6A37) of substrate tRNAs. Prior studies indicate that i6A37 increases translation fidelity and efficiency in codon-specific ways. TRIT1 is a tumor suppressor whose mutant alleles are associated with cancer progression. We report the systematic identification of i6A37-containing tRNAs in a higher eukaryote, performed using small interfering RNA knockdown and other methods to examine TRIT1 activity in HeLa cells. Although several potential substrates contained the IPTase recognition sequence A36A37-A38 in the anticodon loop, only tRNA(Ser)AGA, tRNA(Ser)CGA, tRNA(Ser)UGA, and selenocysteine tRNA with UCA (tRNA([Ser]Sec)UCA) contained i6A37. This subset is a significantly more restricted than that for two distant yeasts (S. cerevisiae and S. pombe), the only other organisms comprehensively examined. Unlike the fully i6A37-modified tRNAs for Ser, tRNA([Ser]Sec)UCA is partially (similar to 40%) modified. Exogenous selenium and other treatments that decreased the i6A37 content of tRNA([Ser]Sec)UCA led to increased levels of the tRNA([Ser]Sec)UCA. Of the human mitochondrion (mt)-encoded tRNAs with A36A37-A38, only mt tRNAs tRNASerUGA and tRNA(Trp)UCA contained detectable i6A37. Moreover, while tRNA(Ser) levels were unaffected by TRIT1 knockdown, the tRNA([Ser]Sec)UCA level was increased and the mt tRNA(Ser)UGA level was decreased, suggesting that TRIT1 may control the levels of some tRNAs as well as their specific activity.