Expression profiles of tRNA‐derived small RNA and their potential roles in oral submucous fibrosis

Abstract Background Although transfer RNA (tRNA) has been found to be the main source of a rich class of noncoding RNA, the tRNA‐derived small RNA (tsRNA) has been proved to play an irreplaceable role in the human body, and its dynamic imbalance could affect the progress of the disease. However, the research on tsRNA in oral submucous fibrosis (OSF) is still scarce. Methods We sequenced the OSF and validated it by PCR. We found that there were significant differences in their expression levels in OSF. Furthermore, bioinformatic analysis was performed to explore the roles of these fragments in oral submucous fibrosis. Results Of 126 tsRNAs in OSF were dysregulated, including 73 upregulated tsRNAs and 53 downregulated tsRNAs. The downregulated tiRNA‐Val‐CAC‐002, tRF‐Asn‐GTT‐005, tRF‐Trp‐CCA‐007 and upregulated tRF‐Gly‐TCC‐016, tRF‐Pro‐TGG‐009 showed significant differences by qRT‐PCR validation, which were consistent with the results of RNA sequencing. Gene ontology and pathway analysis revealed that tRF‐Gly‐TCC‐016 would possibly promote the formation and progress of OSF through cytokine‐cytokine receptor interaction and cAMP signal pathway, while tiRNA‐Val‐CAC‐002 could be primarily concerned with the transition from OSF to oral squamous cell carcinoma (OSCC). Conclusion tRNA‐derived fragments are dysregulated and could be involved in the pathogenesis of oral submucous fibrosis. tRF‐Gly‐TCC‐016 and tiRNA‐Val‐CAC‐002 may be new regulatory molecules that could affect the process of OSF by regulating signal pathways through interacting with multiple genes.