Evaluation of double heptamer-type sgRNA as a potential therapeutic agent against multiple myeloma

TRUE Gene Silencing

TRUE gene silencing is an RNA-mediated gene expression control technology and is termed after tRNase ZL-utilizing efficacious gene silencing. In this review, I overview the potentiality of small guide RNA (sgRNA) for TRUE gene silencing as novel therapeutics. First, I describe the physiology of tRNase ZL and cellular small RNA, and then sgRNA and TRUE gene silencing. An endoribonuclease, tRNase ZL, which can efficiently remove a 3' trailer from pre-tRNA, is thought to play the role in tRNA maturation in the nucleus and mitochondria. There exist various small RNAs including miRNA and fragments from tRNA and rRNA, which can function as sgRNA, in living cells, and human cells appear to be harnessing cytosolic tRNase ZL for gene regulation together with these small RNAs. By utilizing the property of tRNase ZL to recognize and cleave micro-pre-tRNA, a pre-tRNA-like or micro-pre-tRNA-like complex, as well as pre-tRNA, tRNase ZL can be made to cleave any target RNA at any desired site under the direction of an artificial sgRNA that binds a target RNA and forms the pre-tRNA-like or micro-pre-tRNA-like complex. This general RNA cleavage method underlies TRUE gene silencing. Various examples of the application of TRUE gene silencing are reviewed including the application to several human cancer cells in order to induce apoptosis. Lastly, I discuss the potentiality of sgRNA as novel therapeutics for multiple myeloma.

The heptamer sgRNA targeting the human OCT4 mRNA can upregulate the OCT4 expression

TRUE gene silencing is one of the gene suppression technologies. This technology exploits the enzymatic property of the tRNA 3' processing endoribonuclease tRNase Z^L, which is that it can cleave a target RNA under the direction of a small guide RNA (sgRNA). We have been working on the development of therapeutic sgRNAs for hematological malignancies. In the course of an experiment to examine the ability of the heptamer-type sgRNA H15792 targeting the OCT4 mRNA to differentiate human amnion stem cells, we observed unexpectedly that the amnion cells exhibited a morphology resembling initialized cells. Here we investigated the effect of H15792 on human HL60 leukemia cells, and found that H15792 can upregulate the OCT4 expression and the expression of alkaline phosphatase in the cells.

Heptamer-type small guide RNA that can shift macrophages toward the M1 state

Multiple myeloma is a refractory cancer of plasma cells. Although treatment strategies for multiple myeloma are getting improved year by year, in most cases patients relapse due to the emergence of drug-resistant mutations in the myeloma cells. The interplay between myeloma cells and tumor-associated macrophages (TAM) is important for the pathology. We thought that some heptamer-type sgRNAs for TRUE gene silencing would be able to transform TAM toward the M1 state and might become therapeutic drugs for myeloma. Here, we searched for heptamer-type sgRNAs that can shift macrophages toward the M1 state. We screened a heptamer-type sgRNA library for the ability to up-regulate IL-12b gene expression in human macrophage-like cell lines, and found three such sgRNAs. One of the sgRNAs, H12960, which also showed such ability in human fresh macrophages and mouse macrophage-like cell lines, efficiently suppressed human myeloma cell growth in SCID/NOD mice.