Hak Kyun Kim scite author profile

tRNA-derived small RNAs (tsRNAs; also called tRNA-derived fragments (tRFs)) are an abundant class of small non-coding RNAs whose biological roles are not well defined. We show that inhibition of a specific tsRNA, LeuCAG3′tsRNA, induces apoptosis in rapidly dividing cells in vitro and in a patient-derived orthotopic hepatocellular carcinoma model in mice. This tsRNA binds at least two ribosomal protein mRNAs (for RPS28 and RPS15) to enhance their translation. Reduction of RPS28 mRNA translation blocks pre-18S ribosomal RNA processing, resulting in a decrease in the number of 40S ribosomal subunits. These data establish another post-transcriptional mechanism that can fine-tune gene expression during different physiological states and provide a potential new target for treating cancer.

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Transfer RNA-Derived Small RNAs: Another Layer of Gene Regulation and Novel Targets for Disease Therapeutics

Kim

Yeom

Kay

2020

Molecular Therapy

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A tRNA-Derived Small RNA Regulates Ribosomal Protein S28 Protein Levels after Translation Initiation in Humans and Mice

Kim

Chu

et al. 2019

Cell Reports

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tRNA-derived small RNAs (tsRNAs) have been implicated in many cellular processes, yet the detailed mechanisms are not well defined. We previously found that the 3 0 end of Leu-CAG tRNA-derived small RNA (LeuCAG3 0 tsRNA) regulates ribosome biogenesis in humans by maintaining ribosomal protein S28 (RPS28) levels. The tsRNA binds to coding (CDS) and non-coding 3 0 UTR sequence in the RPS28 mRNA, altering its secondary structure and enhancing its translation. Here we report that the functional 3 0 UTR target site is present in primates while the CDS target site is present in many vertebrates. We establish that this tsRNA also regulates mouse Rps28 translation by interacting with the CDS target site. We further establish that the change in mRNA translation occurred at a post-initiation step in both species. Overall, our results suggest that LeuCAG3 0 tsRNA might maintain ribosome biogenesis through a conserved gene regulatory mechanism in vertebrates.

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miR-122 removal in the liver activates imprinted microRNAs and enables more effective microRNA-mediated gene repression

et al. 2018

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miR-122 is a highly expressed liver microRNA that is activated perinatally and aids in regulating cholesterol metabolism and promoting terminal differentiation of hepatocytes. Disrupting expression of miR-122 can re-activate embryo-expressed adult-silenced genes, ultimately leading to the development of hepatocellular carcinoma (HCC). Here we interrogate the liver transcriptome at various time points after genomic excision of miR-122 to determine the cellular consequences leading to oncogenesis. Loss of miR-122 leads to specific and progressive increases in expression of imprinted clusters of microRNAs and mRNA transcripts at the Igf2 and Dlk1-Dio3 loci that could be curbed by re-introduction of exogenous miR-122. mRNA targets of other abundant hepatic microRNAs are functionally repressed leading to widespread hepatic transcriptional de-regulation. Together, this reveals a transcriptomic framework for the hepatic response to loss of miR-122 and the outcome on other microRNAs and their cognate gene targets.

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tRNA-Derived Small RNAs: Novel Epigenetic Regulators

Park

Ahn

Shin

et al. 2020

Cancers

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An epigenetic change is a heritable genetic alteration that does not involve any nucleotide changes. While the methylation of specific DNA regions such as CpG islands or histone modifications, including acetylation or methylation, have been investigated in detail, the role of small RNAs in epigenetic regulation is largely unknown. Among the many types of small RNAs, tRNA-derived small RNAs (tsRNAs) represent a class of noncoding small RNAs with multiple roles in diverse physiological processes, including neovascularization, sperm maturation, immune modulation, and stress response. Regarding these roles, several pioneering studies have revealed that dysregulated tsRNAs are associated with human diseases, such as systemic lupus, neurological disorder, metabolic disorder, and cancer. Moreover, recent findings suggest that tsRNAs regulate the expression of critical genes linked with these diseases by a variety of mechanisms, including epigenetic regulation. In this review, we will describe different classes of tsRNAs based on their biogenesis and will focus on their role in epigenetic regulation.

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Increased precursor microRNA-21 following status epilepticus can compete with mature microRNA-21 to alter translation

Chak

Roy-Chaudhuri

Kim

et al. 2016

Experimental Neurology

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MicroRNA-21 (miR-21) is consistently up-regulated in various neurological disorders, including epilepsy. Here, we show that the biogenesis of miR-21 is altered following pilocarpine status epilepticus (SE) with an increase in precursor miR-21 (pre-miR-21) in rats. We demonstrate that pre-miR-21 has an energetically favorable site overlapping with the miR-21 binding site and competes with mature miR-21 for binding in the 3′UTR of TGFBR2 mRNA, but not NT-3 mRNA in vitro. This binding competition influences miR-21-mediated repression in vitro and correlates with the increase in TGFBR2 and decrease in NT-3 following SE. Polysome profiling reveals co-localization of pre-miR-21 in the ribosome fraction with translating mRNAs in U-87 cells. The current work suggests that pre-miR-21 may post-transcriptionally counteract miR-21-mediated suppression following SE and could potentially lead to prolonged TGF-β receptor expression impacting epileptogenesis. The study further supports that the ratio of the pre to mature miRNA may be important in determining the regulatory effects of a miRNA gene.

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Adriamycin-Incorporated Nanoparticles of Deoxycholic Acid-Conjugated Dextran: Antitumor Activity Against CT26 Colon Carcinoma

Park¹,

Jeong²,

Choi³

et al. 2011

J. Nanosci. Nanotech.

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In this study, we prepared adriamycin (ADR)-encapsulated nanoparticles using deoxycholic acid-conjugated dextran (DexDA). Its antitumor activity was evaluated using CT 26 tumor cells in vitro and in vivo. ADR-incorporated DexDA nanoparticles have spherical shapes and their particle sizes were ranged about 50-200. Their particle sizes were changed according to the preparation conditions, i.e., the higher substitution degree (DS) of deoxycholic acid (DA) and higher drug feeding ratio induced increased particle size and zeta potential. Furthermore, the higher DS of DA and higher drug feeding ratio induced increased drug contents and loading efficiency of drug. The higher DS of DA and higher drug feeding ratio induced decreased drug release rate. Futhermore, acidic pH of release media accelerated the drug release rate compared to alkaline pH. At in vitro cytotoxicity test using CT26 tumor cells, the nanoparticles showed higher antitumor activity than free ADR. In fluorescence microscopic observation, nanoparticles were properly entered into tumors cells and maintained in the cells compared to ADR itself. At in vivo animal tumor model using CT-26 cells, nanoparticles resulted in survivability increase of mice even though free ADR showed higher effectiveness to inhibit tumor growth. These results suggested that ADR-incorporated DexDA nanoparticles are promising vehicles for anti-tumor drug delivery.

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The 3’tsRNAs are aminoacylated: Implications for their biogenesis

Liu

Kim

et al. 2021

PLoS Genet

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Emerging evidence indicates that tRNA-derived small RNAs (tsRNAs) are involved in fine-tuning gene expression and become dysregulated in various cancers. We recently showed that the 22nt LeuCAG tsRNA from the 3´ end of tRNALeu is required for efficient translation of a ribosomal protein mRNA and ribosome biogenesis. Inactivation of this 3´tsRNA induced apoptosis in rapidly dividing cells and suppressed the growth of a patient-derived orthotopic hepatocellular carcinoma in mice. The mechanism involved in the generation of the 3´tsRNAs remains elusive and it is unclear if the 3´-ends of 3´tsRNAs are aminoacylated. Here we report an enzymatic method utilizing exonuclease T to determine the 3´charging status of tRNAs and tsRNAs. Our results showed that the LeuCAG 3´tsRNA, and two other 3´tsRNAs are fully aminoacylated. When the leucyl-tRNA synthetase (LARS1) was inhibited, there was no change in the total tRNALeu concentration but a reduction in both the charged tRNALeu and LeuCAG 3´tsRNA, suggesting the 3´tsRNAs are fully charged and originated solely from the charged mature tRNA. Altering LARS1 expression or the expression of various tRNALeu mutants were also shown to affect the generation of the LeuCAG 3´tsRNA further suggesting they are created in a highly regulated process. The fact that the 3´tsRNAs are aminoacylated and their production is regulated provides additional insights into their importance in post-transcriptional gene regulation that includes coordinating the production of the protein synthetic machinery.

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Hak Kyun Kim

A transfer-RNA-derived small RNA regulates ribosome biogenesis

Transfer RNA-Derived Small RNAs: Another Layer of Gene Regulation and Novel Targets for Disease Therapeutics

A tRNA-Derived Small RNA Regulates Ribosomal Protein S28 Protein Levels after Translation Initiation in Humans and Mice

miR-122 removal in the liver activates imprinted microRNAs and enables more effective microRNA-mediated gene repression

tRNA-Derived Small RNAs: Novel Epigenetic Regulators

Increased precursor microRNA-21 following status epilepticus can compete with mature microRNA-21 to alter translation

Adriamycin-Incorporated Nanoparticles of Deoxycholic Acid-Conjugated Dextran: Antitumor Activity Against CT26 Colon Carcinoma

The 3’tsRNAs are aminoacylated: Implications for their biogenesis

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