mBio (Oct 2024)

Packaging of alphavirus-based self-amplifying mRNA yields replication-competent virus through a mechanism of aberrant homologous RNA recombination

  • Tessy A. H. Hick,
  • Corinne Geertsema,
  • Reindert Nijland,
  • Gorben P. Pijlman

DOI
https://doi.org/10.1128/mbio.02494-24
Journal volume & issue
Vol. 15, no. 10

Abstract

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ABSTRACT Messenger (m)RNA has taken center stage in vaccine development, gene therapy, and cancer immunotherapy. A next-generation of mRNA is the self-amplifying (sa)mRNA, which induces broad and long-lasting immunity at a lower dose which provides better clinical outcomes in conjunction with fewer adverse effects. SamRNA, also known as “replicon” RNA, encodes the replication machinery of an alphavirus together with an antigen. Efficient delivery of replicon RNA to target tissues can be accomplished by packaging the replicon RNA in virus-like replicon particles (VRPs) via co-transfection of producer cells with defective helper RNA(s) encoding the alphavirus structural proteins. During the manufacture of VRPs, however, there is a potential risk of RNA recombination, which may lead to the formation of replication-competent virus (RCV). To investigate the factors influencing the unwanted RCV formation, we evaluated how sequence homology orchestrates alphavirus RNA recombination. Several combinations of complementing alphavirus replicon and helper RNAs varying in length of sequences overlap were co-transfected in mammalian cells. The culture fluid was serially passaged to detect RCV. Nanopore sequencing of cells after the first passage in combination with amplicon-based Sanger sequencing of RCV in the culture fluid after four passages led to the detection of RNA recombination. RCV was generated between replicon and helper RNAs with sequence homology in either the non-structural or structural genes, whereas RNAs without overlapping gene regions did not generate RCV. Remarkably, no sequence overlap was detected at the recombination junction sites in the RCV genome, suggesting a mechanism of “aberrant homologous RNA recombination.” Accordingly, we conclude that the alphavirus RNA recombination process leading to the formation of RCV is homology-assisted and can be prevented by avoiding sequence homology between replicon and helper RNAs.IMPORTANCEThere is a growing interest in the use of self-amplifying (sa)mRNA vectors for next-generation vaccine development, gene therapy, and cancer immunotherapy. The delivery of samRNA in the form of virus-like replicon particles (VRPs) enables efficient delivery of samRNA to target tissue. The production of these VRPs, however, suffers from contamination with replication-competent virus (RCV) that is thought to arise from recombination events between samRNA and helper RNAs for VRP packaging. The presence of RCV in samRNA in the clinical product is undesirable as alphaviruses may cause serious disease in humans. However, the underlying recombination mechanism leading to RCV is currently unknown. In our work, we demonstrate a detailed evaluation of the recombination sites, which indicates that RCV is formed through an unusual mechanism of “aberrant homologous RNA recombination.” The results are useful for researchers in the field of RNA vaccine manufacture and delivery.

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