PO.MCB10.01 · 分子与细胞生物学

The impact of 4-thiouridine posttranscriptional modification on the oncosuppressive activity of bioengineered let-7e-5p in NSCLC cells

编号 2063 展板 23 时间 4/20 09:00–12:00 区域 Section 25 主讲 Katherine Wang, BS
分会场 MicroRNAs as Cancer Biomarkers, Therapeutic Targets, and Modulators of Treatment Response
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作者与单位

Katherine K. Wang1, Mei-Juan Tu1, Yufan Zhou1, Ziyuan Wang2, Patrick A. Limbach3, Hongxu Ding2, Ai-Ming Yu1

1Department of Biochemistry and Molecular Medicine, UC Davis School of Medicine, Sacramento, CA,2Department of Pharmacy Practice and Science, Statistics and Data Science GIDP, University of Arizona, Tucson, AZ,3Department of Chemistry, Rieveschl Laboratories for Mass Spectrometry, University of Cincinnati, Cincinnati, OH

摘要 Abstract

Current microRNA (miRNA) research and therapeutic development primarily rely on miRNA mimics chemically synthesized in vitro . While effective, miRNA mimics may not fully recapitulate the properties of natural miRNA agents synthesized in vivo . Our lab has developed a novel tRNA-fused pre-miRNA carrier-based RNA bioengineering platform technology, enabling consistent, high-yield, and large-scale production of biologic miRNAs (BioRNAs) through in vivo bacterial fermentation, which have shown strong potential in experimental therapeutics for non-small cell lung cancer (NSCLC). Among the tumor suppressive let-7-5p isoforms, BioRNA/let-7e-5p was identified as the most effective to suppress human NSCLC cell viability. Further, while we observed species-conserved posttranscriptional modifications, such as dihydrouridine (D) and 2′- O -methylguanosine (Gm) in the D-loop as well as 5-methyluridine (m 5 U) and pseudouridine (Y) in the T-loop, liquid chromatography tandem mass spectrometry (LC-MS/MS) and nanopore-based direct RNA sequencing studies revealed the presence of a bacteria-specific 4-thiouridine (s 4 U) modification at position 8 (s 4 U8) of the human tRNA segment. To re-innovate our BioRNA technology and generate BioRNA/let-7e-5p molecules free of s 4 U modification, we employed two strategies: (1) change of U8 through deletion or substitutions, and (2) expression of U8 BioRNAs in an E. coli strain deficient in s 4 U synthesis. Both approaches proved successful, allowing us to produce milligrams of pure, ready-to-use BioRNA/let-7e-5p molecules per 200 mL bacterial culture, and LC-MS/MS and nanopore sequencing analyses confirmed the escape from s 4 U modification. Surprisingly, comprehensive comparative studies showed minimal effects of the distal s 4 U modification on the release of let-7e-5p from BioRNAs and consequently, downregulation of multiple targeted oncogenes in NSCLC cells. These findings will guide the development of BioRNA/let-7e-5p as potential therapeutics for NSCLC treatment.
利益披露 Disclosure
K. K. Wang, None.. M. Tu, None.. Y. Zhou, None.. Z. Wang, None.. P. A. Limbach, None.. H. Ding, None.. A. Yu, None.

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