# Virulence Factor at the Interface of Viral and Cellular mRNA Nuclear Export

> **NIH NIH R01** · UT SOUTHWESTERN MEDICAL CENTER · 2020 · $408,334

## Abstract

Abstract
Viruses have historically revealed novel cellular processes, including mRNA nuclear export pathways. Here we
study a recently identified pathway usurped by influenza virus mRNAs to mediate their nuclear export. This
process is driven by the viral NS1 protein interaction with cellular and other viral proteins. NS1 is a major
virulence factor that inhibits cellular antiviral response and promotes viral gene expression. In this proposal,
molecular mechanisms of NS1 functions that mediate viral mRNA nuclear export and the mechanism of action
of a novel small molecule inhibitor of viral mRNA nuclear export will be examined. In particular, our published
and preliminary structure-function data show that NS1 inhibits the export of cellular (host) mRNA from the
nucleus to the cytoplasm by interacting directly with the heterodimeric host mRNA export receptor NXF1-NXT1.
Moreover, NS1 prevents NXF1-NXT1 docking to the nuclear pore complex. However, NS1 is also critical for
nuclear export of at least some of the essential influenza mRNAs, even though these also require NXF1. In Aim
1 of the current proposal, this paradoxical observation will be investigated by determination of the molecular
mechanisms that mediate influenza mRNA nuclear export. A combination of genetics, single-molecule RNA-
FISH (smFISH), in vitro and cell-based binding assays, and a viral mini-genome system will be used to explore
how NS1 promotes the export of viral mRNAs. Aim 2 will address target identification/validation of a novel
inhibitor of viral mRNA nuclear export. It is based on the identification of a cellular NS1-binding protein that
mediates nuclear export of viral mRNAs and of a subset of cellular mRNAs, but not bulk cellular mRNA. This
provided an avenue to target influenza virus without compromising bulk cellular gene expression. We designed
and performed a high-content, image-based chemical screen and identified a novel inhibitor of viral mRNA export
that exhibited no significant activity towards bulk cellular mRNA. This small molecule inhibits virus replication at
non-toxic concentrations. Preliminary data indicate that this small molecule targets the cellular TAOK2 kinase.
The focus of Aim 2 will be on target validation and identification of potential additional targets of this novel inhibitor
of mRNA export using photo-crosslinking based chemical approaches, and functional genetic, biochemical, and
imaging approaches. By determining how NS1 influences mRNA export and how this process can be regulated
by a small molecule, we will uncover fundamental new mechanisms and regulation of a noncanonical mRNA
export pathway. Additionally, this compound may serve as a lead for developing antivirals.

## Key facts

- **NIH application ID:** 10066684
- **Project number:** 1R01AI154635-01
- **Recipient organization:** UT SOUTHWESTERN MEDICAL CENTER
- **Principal Investigator:** Beatriz MA Fontoura
- **Activity code:** R01 (R01, R21, SBIR, etc.)
- **Funding institute:** NIH
- **Fiscal year:** 2020
- **Award amount:** $408,334
- **Award type:** 1
- **Project period:** 2020-05-06 → 2025-04-30

## Primary source

NIH RePORTER: https://reporter.nih.gov/project-details/10066684

## Citation

> US National Institutes of Health, RePORTER application 10066684, Virulence Factor at the Interface of Viral and Cellular mRNA Nuclear Export (1R01AI154635-01). Retrieved via AI Analytics 2026-05-24 from https://api.ai-analytics.org/grant/nih/10066684. Licensed CC0.

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