# Ligand binding drives proteolysis of the SmcR master transcription factor and controls quorum sensing-state transitions in Vibrio species

**Authors:** Tanmaya A. Rasal, Caleb P. Mallery, Biqing Liang, Matthew W. Brockley, Chelsea A. Simpson, Abigail D. Padgett, Logan J. Geyman, Finley J. Andrew, Laura C. Brown, Jon E. Paczkowski, Julia C. van Kessel

PMC · DOI: 10.1128/mbio.03445-25 · 2026-01-30

## TL;DR

A chemical inhibitor causes the degradation of a key protein in Vibrio bacteria, affecting how these bacteria respond to population density.

## Contribution

This study shows for the first time that ligand binding controls the stability and function of SmcR proteins in Vibrio species.

## Key findings

- Ligand binding to SmcR causes its degradation via the ClpAP protease.
- Degradation-resistant SmcR variants prevent quorum-sensing state transitions.
- The mechanism is conserved across three Vibrio species.

## Abstract

In Vibrio species, quorum sensing signaling culminates in the production of the master transcription factor SmcR that regulates group behavior genes in a density-dependent manner. Previously, we identified a small-molecule thiophenesulfonamide inhibitor called PTSP [3-phenyl-1-(thiophen-2-ylsulfonyl)-1H-pyrazole] that targets the SmcR family of proteins in multiple Vibrio species and blocks activity in vivo. Here, we used structure-function analyses to identify eight PTSP-interacting residues in the ligand-binding pocket that are required for PTSP inhibition of Vibrio vulnificus SmcR. Binding of PTSP to SmcR drives allosteric unfolding of the N-terminal DNA-binding domain, and, in this state, SmcR is specifically degraded by the ClpAP protease. This mechanism of PTSP inhibition was observed for all thiophenesulfonamide compounds tested against V. vulnificus as well as Vibrio parahaemolyticus and Vibrio campbellii. We show that Vibrio cells expressing degradation-resistant smcR alleles are impervious to changes in cell density state. These studies implicate ligand binding as a mediator of SmcR protein stability and function, which dictates the timing of quorum-sensing gene expression in three Vibrio pathogens.

SmcR family proteins were discovered in the 1990s as central regulators of quorum-sensing gene expression and later discovered to be conserved in all studied Vibrio species. SmcR homologs regulate a wide range of genes involved in pathogenesis, including but not limited to genes involved in biofilm production and toxin secretion. As archetypal members of the broad class of TetR-type transcription factors, each SmcR-type protein has a predicted ligand-binding pocket. However, no native ligand has been identified for these proteins that control their function as regulators. Here, we used SmcR-specific chemical inhibitors to determine that ligand binding drives proteolytic degradation in vivo, providing the first demonstration of SmcR function connected to ligand binding for this historical protein family.

## Linked entities

- **Genes:** RAI1 (retinoic acid induced 1) [NCBI Gene 10743]
- **Proteins:** RAI1 (retinoic acid induced 1)
- **Chemicals:** PTSP (PubChem CID 25078101), thiophenesulfonamide (PubChem CID 72881)
- **Species:** Vibrio vulnificus (taxon 672), Vibrio parahaemolyticus (taxon 670), Vibrio campbellii (taxon 680)

## Full-text entities

- **Chemicals:** 3-phenyl-1-(thiophen-2-ylsulfonyl)-1H-pyrazole (-)
- **Species:** Vibrio vulnificus (species) [taxon 672], Vibrio parahaemolyticus (species) [taxon 670], Vibrio campbellii (species) [taxon 680], Vibrio (genus) [taxon 662]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12977469/full.md

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Source: https://tomesphere.com/paper/PMC12977469