Le Hars Matthieu, Joussain Charles, Jégu Teddy, Epstein Alberto L
UMR U1179 INSERM - University of Versailles Saint Quentin en Yvelines (UVSQ)-Paris Saclay, Montigny-le-Bretonneux, France.
EG 427 SAS, Paris, France.
Gene Ther. 2024 Nov 12. doi: 10.1038/s41434-024-00500-x.
Two major types of defective vectors have been derived from herpes simplex virus type 1 (HSV-1), non-replicative genomic vectors (nrHSV-1), and amplicon vectors. This review recapitulates the main features of both vector types and summarizes recent improvements in our understanding of virus/vector biology, particularly with regard to the critical role played by the overpowering of antiviral cellular defenses and the epigenetic control of viral gene expression. Over the past years, significant breakthroughs in vector design, genetic engineering, and HSV-1 biology have accelerated the development of nrHSV-1 vectors. The low immunogenicity and enhanced safety profiles allowed the successful translation of these vectors into several clinical trials, with some being approved by the FDA. Regarding amplicons, despite their advantage in carrying very large or multiple transgenes, and their potential to avoid genome dilution in dividing cells, the absence of production procedures capable of generating large amounts of helper-free amplicons at reasonable cost with GMP compliance, still limits the translation of these outstanding vectors to clinical trials.
两种主要类型的缺陷型载体已从1型单纯疱疹病毒(HSV-1)衍生而来,即非复制型基因组载体(nrHSV-1)和扩增子载体。本综述概括了这两种载体类型的主要特征,并总结了我们对病毒/载体生物学理解的最新进展,特别是关于抗病毒细胞防御的压倒性作用和病毒基因表达的表观遗传控制所起的关键作用。在过去几年中,载体设计、基因工程和HSV-1生物学方面的重大突破加速了nrHSV-1载体的开发。低免疫原性和更高的安全性使这些载体成功进入多项临床试验,其中一些已获得美国食品药品监督管理局(FDA)的批准。关于扩增子,尽管它们在携带非常大的或多个转基因方面具有优势,并且有潜力避免在分裂细胞中基因组稀释,但缺乏能够以合理成本大量生产无辅助病毒扩增子且符合药品生产质量管理规范(GMP)的生产程序,仍然限制了这些出色载体进入临床试验。
