Abstract:Drug discovery from plants usually focuses on small molecules rather than such biological macromolecules as RNAs. Although plant transfer RNA (tRNA)-derived fragment (tRF) has been associated with the developmental and defense mechanisms in plants, its regulatory role in mammals remains unclear. By employing a novel reverse small interfering RNA (siRNA) screening strategy, we show that a tRF mimic (antisense derived from the 5 0 end of tRNA His(GUG) of Chinese yew) exhibits comparable anti-cancer activity wit… Show more
“…It has been revealed that endogenous tRFs derived from human breast cancer cells could suppress breast cancer in vitro and in vivo by targeting YBX1 mRNA, suggesting that tRFs could target signaling pathways related to cell proliferation, thus enabling an effective intervention with the treatment of cancers ( 28 ). This, together with our previous study on a tRF derived from Chinese yew, which suppresses ovarian cancer by targeting the oncogene TRPA1 ( 31 ), raises the hypothesis that tRFs derived from non-pathogenic E. coli might also function via an RNA interference (RNAi) pathway. Further investigations on the molecular target of EC83 mimics should be performed via mRNA sequencing and experimental validations.…”
Section: Discussionmentioning
confidence: 81%
“…Double-stranded RNA has been widely employed in investigations on the molecular functions of miRNA or tRF since the double-stranded format is more stable than the single-stranded one ( 30 , 31 ). A total of 82 tRFs, including 5′-tRFs and 3′-tRFs 22 nt in length derived from 41 tRNAs of NPECSs reported in the MODOMICS database and tRNA db ( 25 ) ( Table S1 ), were selected as the antisense strands of tRF mimics in the small interfering RNA (siRNA) form ( Table S2 ) since they are the most abundant types of tRFs ( 32 ).…”
While the gut microbiota has been increasingly recognized to be of vital importance for human health and disease, the current literature shows that there is a lack of attention given to non-pathogenic
Escherichia coli
strains. Moreover, the biological activities of tRNA fragments (tRFs) derived from bacteria have rarely been investigated.
“…It has been revealed that endogenous tRFs derived from human breast cancer cells could suppress breast cancer in vitro and in vivo by targeting YBX1 mRNA, suggesting that tRFs could target signaling pathways related to cell proliferation, thus enabling an effective intervention with the treatment of cancers ( 28 ). This, together with our previous study on a tRF derived from Chinese yew, which suppresses ovarian cancer by targeting the oncogene TRPA1 ( 31 ), raises the hypothesis that tRFs derived from non-pathogenic E. coli might also function via an RNA interference (RNAi) pathway. Further investigations on the molecular target of EC83 mimics should be performed via mRNA sequencing and experimental validations.…”
Section: Discussionmentioning
confidence: 81%
“…Double-stranded RNA has been widely employed in investigations on the molecular functions of miRNA or tRF since the double-stranded format is more stable than the single-stranded one ( 30 , 31 ). A total of 82 tRFs, including 5′-tRFs and 3′-tRFs 22 nt in length derived from 41 tRNAs of NPECSs reported in the MODOMICS database and tRNA db ( 25 ) ( Table S1 ), were selected as the antisense strands of tRF mimics in the small interfering RNA (siRNA) form ( Table S2 ) since they are the most abundant types of tRFs ( 32 ).…”
While the gut microbiota has been increasingly recognized to be of vital importance for human health and disease, the current literature shows that there is a lack of attention given to non-pathogenic
Escherichia coli
strains. Moreover, the biological activities of tRNA fragments (tRFs) derived from bacteria have rarely been investigated.
“…In addition, tRF-T11 derived from Chinese redbud can target the 3′-UTR of oncogene TRPA1 mRNA by interacting with AGO2 to suppress TRPA1. This research holds great promise for the development of novel RNA drugs derived from nature [ 31 ]. Fig.…”
Transfer RNAs (tRNAs) promote protein translation by binding to the corresponding amino acids and transporting them to the ribosome, which is essential in protein translation. tRNA-derived small RNAs (tsRNAs) are derived fragments of tRNAs that are cleaved explicitly under certain conditions. An increasing amount of research has demonstrated that tsRNAs have biological functions rather than just being degradation products. tsRNAs can exert functions such as regulating gene expression to influence cancer progression. Their dysregulation is closely associated with various cancers and can serve as diagnostic and prognostic biomarkers for cancer. This review summarizes the generation, classification, and biological functions of tsRNAs, and highlights the roles of tsRNAs in different cancers and their applications as tumor markers.
“…Plant-derived tRFs-T11 was found to interact with AGO2 to suppress TRPA1 via a RNAi pathway in the A2780 cell, which, in turn, suppresses OC proliferation. 199 Silico analyses and expression profiling were performed using the TCGA-OC database, the GEO dataset, and two institutionally independent cohorts. This analysis highlighted a tRNA GlyGCC-derived internal fragment as a novel molecular predictor of EOC prognosis and supported tRNA may have bright future in the precision medicine decisions in EOC treatment.…”
Section: Conclusion and Future Perspectivesmentioning
Ovarian cancer (OC) is the third most common gynecological malignancy with the highest mortality worldwide. OC is usually diagnosed at an advanced stage, and the standard treatment is surgery combined with platinum or paclitaxel chemotherapy. However, chemoresistance inevitably appears coupled with the easy recurrence and poor prognosis. Thus, early diagnosis, predicting prognosis, and reducing chemoresistance are of great significance for controlling the progression and improving treatment effects of OC. Recently, much insight has been gained into the non-coding RNA (ncRNA) that is employed for RNAs but does not encode a protein, and many types of ncRNAs have been characterized including long-chain non-coding RNAs, microRNAs, and circular RNAs. Accumulating evidence indicates these ncRNAs play very active roles in OC progression and metastasis. In this review, we briefly discuss the ncRNAs as biomarkers for OC prognosis. We focus on the recent advances of ncRNAs as therapeutic targets in preventing OC metastasis, chemoresistance, immune escape, and metabolism. The novel strategies for ncRNAs-targeted therapy are also exploited for improving the survival of OC patients.
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