# Wǔhàn sharpbelly bornavirus infects and persists in cypriniform cells

**Authors:** Mirette I. Y. Eshak, Angele Breithaupt, Birke A. Tews, Christine Luttermann, Kati Franzke, Marion Scheibe, Sören Woelke, Martin Beer, Dennis Rubbenstroth, Florian Pfaff

PMC · DOI: 10.1128/jvi.01322-25 · 2025-10-30

## TL;DR

This study shows that Wuhan sharpbelly bornavirus infects and persists in cypriniform fish cells, with limited replication in other species and insights into its immune evasion and transcription strategies.

## Contribution

The study experimentally validates in silico predictions about WhSBV and reveals its host range, persistence mechanisms, and transcriptional features.

## Key findings

- WhSBV efficiently replicates and persists in cypriniform fish cells with time-dependent viral RNA increase.
- The virus evades early immune detection and triggers antiviral responses only at later stages of infection.
- Polycistronic mRNAs and RNA splicing were identified, confirming computational predictions of viral transcription.

## Abstract

Our recent study using in silico data mining identified novel culterviruses (family: Bornaviridae) in fish, including a variant of Wuhan sharpbelly bornavirus (WhSBV) in grass carp kidney and liver cell lines. Here, metagenomic sequencing of different fish cell lines revealed WhSBV in two cell lines from grass carp (Ctenopharyngodon idella; order: Cypriniformes). Using these cell lines, we investigated the ability of WhSBV to infect and establish persistent infection in other cell lines from bony fish (Cypriniformes, Chichliformes, Salmoniformes, Centrarchiformes, and Spariformes), reptiles (Testudines and Squamata), birds (Galliformes), and mammals (Primates and Rodentia). WhSBV showed efficient replication and a time-dependent increase in viral RNA levels in cypriniform cells, whereas replication was limited, confined to single cells, and lacked a clear time-dependent increase in cells from other bony fish and reptiles. No replication was detected in avian and mammalian cells. In situ hybridization and electron microscopy confirmed the presence of viral RNA and particles in infected cypriniform cells. Transcriptomic sequencing revealed minimal innate immune activation during early stages of infection and antiviral response only at later stages, suggesting that WhSBV establishes persistence by evading early immune recognition. In addition, we identified polycistronic viral mRNAs regulated by specific transcriptional start and termination sites and RNA splicing. Viral proteins were detected, confirming previous in silico predictions. These findings provide insights into the potential infectivity, persistence mechanisms, and transcriptional strategies of WhSBV. This study validates previous findings from in silico data mining, further reinforcing its effectiveness as a powerful tool for discovering hidden viruses.

Understanding the diversity and host range of viruses is crucial for assessing their ecological role, associated diseases, and zoonotic potential. However, many newly discovered viruses are characterized using sequence data alone because isolates are often difficult to obtain. Using cell culture models, this study characterizes Wuhan sharpbelly bornavirus (WhSBV), a member of the genus Cultervirus. Here, we demonstrate its ability to establish persistent infection in cypriniform fish cell lines, while exhibiting restricted replication in certain non-cypriniform fish. The identification of polycistronic transcription, splicing events, and immune evasion mechanisms advances our understanding of the molecular biology of WhSBV and culterviruses in general. By validating in silico predictions, this study highlights the power of computational approaches in uncovering viral diversity. As cypriniform fish include economically important species such as carp, understanding the dynamics of WhSBV host range and infection biology may be crucial for future aquaculture health management.

## Linked entities

- **Species:** Ctenopharyngodon idella (taxon 7959), Mus musculus (taxon 10090), Gallus gallus (taxon 9031), Squamata (taxon 8509), Testudines (taxon 8459), Rodentia (taxon 9989), Primates (taxon 9443)

## Full-text entities

- **Diseases:** infection (MESH:D007239)
- **Species:** Homo sapiens (human, species) [taxon 9606], Ctenopharyngodon idella (grass carp, species) [taxon 7959], Cyprinus carpio (carp, species) [taxon 7962], Wuhan sharpbelly bornavirus (no rank) [taxon 2116489]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12646013/full.md

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Source: https://tomesphere.com/paper/PMC12646013