哺乳动物类反转录病毒样蛋白 PEG10 包装自身的 mRNA 并可被假型化为用于 mRNA 递呈。
Mammalian retrovirus-like protein PEG10 packages its own mRNA and can be pseudotyped for mRNA delivery.
机构信息
Howard Hughes Medical Institute, Cambridge, MA 02139, USA.
Broad Institute of MIT and Harvard, Cambridge, MA 02142, USA.
出版信息
Science. 2021 Aug 20;373(6557):882-889. doi: 10.1126/science.abg6155.
Abstract
Eukaryotic genomes contain domesticated genes from integrating viruses and mobile genetic elements. Among these are homologs of the capsid protein (known as Gag) of long terminal repeat (LTR) retrotransposons and retroviruses. We identified several mammalian Gag homologs that form virus-like particles and one LTR retrotransposon homolog, PEG10, that preferentially binds and facilitates vesicular secretion of its own messenger RNA (mRNA). We showed that the mRNA cargo of PEG10 can be reprogrammed by flanking genes of interest with 's untranslated regions. Taking advantage of this reprogrammability, we developed selective endogenous encapsidation for cellular delivery (SEND) by engineering both mouse and human PEG10 to package, secrete, and deliver specific RNAs. Together, these results demonstrate that SEND is a modular platform suited for development as an efficient therapeutic delivery modality.
摘要
真核生物基因组中包含整合了病毒和移动遗传元件的内源性基因。其中包括长末端重复(LTR)逆转录转座子和逆转录病毒的衣壳蛋白(Gag)同源物。我们鉴定了几种形成病毒样颗粒的哺乳动物 Gag 同源物,以及一种 LTR 逆转录转座子同源物 PEG10,它优先结合并促进自身信使 RNA(mRNA)的囊泡分泌。我们表明,PEG10 的 mRNA 货物可以通过用感兴趣基因的侧翼非翻译区进行重新编程。利用这种可重编程性,我们通过工程改造小鼠和人 PEG10 来包装、分泌和递特定 RNA,从而实现了选择性的内源性封装用于细胞递送(SEND)。这些结果共同表明,SEND 是一个模块化平台,适合开发为高效的治疗性递药模式。
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