Kurian Ann Anu, Ghiringhelli Matteo, Shalom Eyal, Mainkar Gayatri, Żak Magdalena M, Adjmi Matthew, Downey Jeffrey, Yoon Seonghun, Dubois Nicole, Swirski Filip K, Zangi Lior
Cardiovascular Research Institute, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.
Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai, New York, NY 10029, USA.
Pharmaceutics. 2025 Apr 8;17(4):490. doi: 10.3390/pharmaceutics17040490.
Modified messenger RNA (modRNA) is a promising gene delivery method used to upregulate genes in cardiac tissue, with applications in both clinical and preclinical settings to prevent cardiac remodeling after ischemic injury. The 5' untranslated region (5'UTR) plays a crucial role in regulating the translation efficiency of mRNA into functional proteins. Due to the high production cost and short half-life of modRNA, it is essential to identify novel 5'UTR designs that enhance modRNA translation in the heart. Here, we present an artificial 5'UTR, termed "Top Heart 5'UTR", designed based on ribonucleotide frequency analyses of 1000 genes highly expressed in the heart. This novel artificial 5'UTR contains a unique 20-nucleotide sequence, consisting of 11 previously uncharacterized nucleotides (CCCCCGCCCCC) and 9 well-described nucleotides from the Kozak sequence upstream of the start codon (ATG). This design significantly improves modRNA translation efficiency in cardiomyocytes (CMs) and heart cells both in vitro and in vivo. Specifically, the Top Heart 5'UTR increases translation efficiency by approximately 30-60% in both mouse and human CMs compared to a standard 5'UTR control. Moreover, the artificial 5'UTR induces a 2-2.5 times higher translation of modRNA in the mouse heart 24 and 48 h post-delivery. Our findings may contribute to the development of a superior modRNA platform for use in preclinical and clinical studies, potentially allowing reduced dosages or increased gene expression at the same dosage level. This approach can be extended to identify optimized 5'UTRs for various cell types or organs, including applications in cancer therapies.
修饰信使核糖核酸(modRNA)是一种很有前景的基因递送方法,用于上调心脏组织中的基因,在临床和临床前环境中均可应用,以预防缺血性损伤后的心脏重塑。5'非翻译区(5'UTR)在调节mRNA翻译成功能蛋白的效率方面起着关键作用。由于modRNA的生产成本高且半衰期短,因此确定能够增强心脏中modRNA翻译的新型5'UTR设计至关重要。在此,我们展示了一种人工5'UTR,称为“顶级心脏5'UTR”,它是基于对心脏中高表达的1000个基因的核糖核苷酸频率分析而设计的。这种新型人工5'UTR包含一个独特的20个核苷酸序列,由11个先前未表征的核苷酸(CCCCCGCCCCC)和起始密码子(ATG)上游来自科扎克序列的9个已充分描述的核苷酸组成。这种设计在体外和体内均显著提高了心肌细胞(CMs)和心脏细胞中modRNA的翻译效率。具体而言,与标准5'UTR对照相比,顶级心脏5'UTR在小鼠和人类CMs中均使翻译效率提高了约30 - 60%。此外,在递送后24小时和48小时,人工5'UTR在小鼠心脏中诱导的modRNA翻译水平高出2 - 2.5倍。我们的研究结果可能有助于开发一种用于临床前和临床研究的优质modRNA平台,有可能在相同剂量水平下减少剂量或增加基因表达。这种方法可以扩展到为各种细胞类型或器官确定优化的5'UTR,包括在癌症治疗中的应用。
