# Tulane virus protease as a structural surrogate for inhibitor screening of human norovirus proteases

**Authors:** Son Pham, Nikhil Sharma, Banumathi Sankaran, Jalen Nguyen, Mary K. Estes, Joseph M. Hyser, B. V. Venkataram Prasad

PMC · DOI: 10.1128/jvi.02176-25 · 2026-02-11

## TL;DR

Researchers used Tulane virus to study human norovirus protease inhibitors, offering a practical alternative for drug screening.

## Contribution

The study validates Tulane virus protease as a structural and functional surrogate for human norovirus protease inhibitor screening.

## Key findings

- Tulane virus protease structure is similar to human norovirus protease in key regions.
- Rupintrivir inhibits Tulane virus protease and replication in cell culture.
- Tulane virus can cleave human norovirus substrates with varying efficiency.

## Abstract

Human norovirus (HuNoV) is a significant cause of gastroenteritis worldwide, affecting people of all age groups. There are currently no vaccines or drugs available, leaving susceptible populations vulnerable to severe or protracted illness. A HuNoV cultivation system is pivotal for screening norovirus antivirals. While the human intestinal enteroid cultivation system allows robust replication of multiple HuNoV strains, it presents technical and cost barriers. Tulane virus (TV), a surrogate for HuNoV, replicates well in monkey kidney cell lines and is closely related to norovirus in cellular biology. Here, we determined the structures of TV protease (TV-Pro) alone and in complex with rupintrivir, a picornavirus inhibitor that also inhibits HuNoV proteases (HuNoV-Pro). Our data validate TV as an efficient surrogate system for rapid screening of HuNoV protease inhibitors. The TV protease structure exhibits significant backbone similarity to the GI.1 HuNoV protease in the substrate-binding domain, with the BII-CII loop in an open conformation stabilized by hydrogen bonds as present in the GI.1 protease. Structural differences in the S2 pocket and two amino acid changes in the S4 pocket result in slightly altered P2 and P4 substrate and inhibitor conformations. Despite these differences, we confirm previous findings that the TV protease can cleave the GI.1 and GII HuNoV polyprotein substrates with high and moderate efficiency, respectively. We found that rupintrivir efficiently inhibits TV protease in vitro and inhibits TV replication in cell culture with similar efficacy in combination with P-glycoprotein efflux pump inhibitors. We conclude that TV is a valuable surrogate for HuNoV protease inhibitor screening and outline strategies to improve its compatibility as such.

Human noroviruses (HuNoVs) are a significant cause of sporadic and epidemic gastroenteritis worldwide. There are no vaccines or antiviral drugs currently available to treat infections. Our work here demonstrates the potential of the Tulane virus cell culture system as a surrogate for screening small-molecule inhibitors of the human norovirus proteases.

## Linked entities

- **Proteins:** Mdr65 (Multi drug resistance 65)
- **Chemicals:** rupintrivir (PubChem CID 6440352)
- **Diseases:** gastroenteritis (MONDO:0002269)
- **Species:** Tulane virus (taxon 512169), Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** ABCB1 (ATP binding cassette subfamily B member 1) [NCBI Gene 5243] {aka ABC20, CD243, CLCS, ENPAT, GP170, MDR1}
- **Diseases:** infections (MESH:D007239), gastroenteritis (MESH:D005759)
- **Chemicals:** rupintrivir (MESH:C118874)
- **Species:** Cercopithecidae (monkey, family) [taxon 9527], Tulane virus (no rank) [taxon 512169], Homo sapiens (human, species) [taxon 9606], Norovirus (genus) [taxon 142786]

## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13011392/full.md

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Source: https://tomesphere.com/paper/PMC13011392