Abstract
Transfer RNAs (tRNAs) are the key adaptor molecules aiding protein synthesis. Hundreds of tRNA genes are found in the human genome but the biological significance of this genetic excess is still enigmatic. The tRNA repertoires are variable between tissues and cells as well as during development. Such variations can only be partially explained by the correlation to the physiological needs in protein production, e.g. by changes in the expression of tRNA isoacceptor sets (tRNAs charged with the same amino acid but bearing different anticodons). However, changes in the expression levels of individual isodecoders (tRNAs with the same anticodon) are less understood. Besides canonical functions in mRNA translation, tRNAs are implicated in non-canonical functions unrelated to protein synthesis. tRNAs are rich source of small non-protein coding RNAs called tRNA-derived RNAs (tDRs), which include tRNA-derived stress-induced RNAs (tiRNAs) formed in response to stress. Here, we show that tiRNAs derived from isodecoders different in a single nucleotide can also differ in their activities. Specifically, we show that isodecoder sets for tRNAHis-GTG, tRNAGly-GCC and tRNACys-GCA are cleaved by ribonucleases to yield 5’-tiRNAs showing differential activity towards mRNA reporter translation. Our data propose a model where cleavage repurposes specific tRNA isodecoders for non-canonical functions.
Significance Statement The human genome encodes hundreds of transfer RNA (tRNA) genes to decode 61 codons. The basis for such genetic redundancy is unclear but the increase in the number of tRNA genes goes in concert with the complexity of an organism. While changes in the expression of isoacceptor tRNA pools can reflect adaptation to demanding protein synthesis needs and/or codon usage, the variations in the expression of the individual tRNA isodecoders are documented but poorly understood. Such expression variations are hypothesized to contribute to non-canonical tRNA functions, yet physiological relevance remains ambiguous. We report here that specific tRNA isodecoders can be functionally repurposed through cleavage that produces tRNA-derived RNAs (tDRs). The repurposing employs nucleotide variations in isodecoders leading to the production of distinct sets of tDRs with variable bioactivities.
Competing Interest Statement
The authors have declared no competing interest.