# Cytoplasmic sequestering of a fungal stress-activated MAPK in response to a host plant phenolic acid

**Authors:** Rina Zuchman, Roni Koren, Tamar Ziv, Yael Lupu-Haber, Nitsan Dahan, Ofri Levi, Benjamin A. Horwitz, Bart P.H.J. Thomma, Huiquan Liu, Bart P.H.J. Thomma, Huiquan Liu, Bart P.H.J. Thomma, Bart P.H.J. Thomma

PMC · DOI: 10.1371/journal.ppat.1013620 · 2025-10-30

## TL;DR

A fungal pathogen's stress response protein, Hog1, is trapped in cytoplasmic granules by a plant compound, affecting both host defense and pathogen survival.

## Contribution

A novel signaling mode where Hog1 is sequestered in cytoplasmic granules, altering its stress response to a host-derived compound.

## Key findings

- Hog1 forms cytoplasmic foci in response to ferulic acid, preventing its nuclear localization and downstream gene expression.
- RNA-binding proteins and mitochondrial proteins are enriched in the FA-dependent sub-proteome associated with Hog1 foci.
- Sequestering Hog1 in RNA-containing granules may help the pathogen survive host stress while also aiding the host in disease suppression.

## Abstract

Fungal pathogens employ conserved signaling pathways to survive in the host. The stress-activated MAP kinase Hog1 of the maize pathogen Cochliobolus heterostrophus undergoes dephosphorylation upon exposure to ferulic acid, a phenolic compound abundant in the host plant. Unlike its nuclear localization during osmotic stress, Hog1 forms cytoplasmic foci in response to FA, indicating its sequestering to a compartment or condensate. FA prevents several characteristic responses of the Hog1 pathway to osmotic stress: hyperphosphorylation of Hog1, nuclear localization, and expression of a monosaccharide transporter gene, MST1. Under FA stress, mRNA-containing foci are formed, as visualized by sm-FISH. Hog1 foci extensively colocalize with mRNA foci. Hog1 did not colocalize with nuclei or peroxisomes. Fragmented mitochondria, appearing upon FA exposure with a delayed time course compared to Hog1 sequestration, were mostly distinct from the Hog1 foci, with few instances of colocalization. With tagged Hog1 as an affinity purification bait, we isolated an FA-dependent sub-proteome from a subcellular fraction enriched with fluorescent foci. The identified proteins include RNA-binding proteins, translation initiation factors and mitochondrial proteins. The RRM and pumilio domain protein Puf2 was enriched, and live imaging confirmed the accumulation of a Puf2 fluorescent fusion and its colocalization with Hog1 foci following FA induction. Stress-induced sequestering of MAPK Hog1 to RNA-containing granules, together with dephosphorylation, has the potential to collectively promote survival on the plant host where stress might cause over-activation of Hog1. Conversely, FA as a host defense interferes with stress-induced Hog1 nuclear localization and downstream gene expression. The MAPK signaling mode defined by the response of Hog1 to FA is thus relevant to both host defense and pathogen survival.

Fungal pathogens respond to signals from their host and environment. Processing this information lets them reprogram gene expression and metabolism to survive stresses and host defenses. A host antimicrobial compound, the simple phenolic ferulic acid, kills cells of the plant pathogen responsible for southern corn leaf blight. A stress response protein conserved among eukaryotes, the MAP kinase Hog1, usually transmits signals when it is phosphorylated, and does so by accumulating in the nucleus to turn on genes that promote survival and growth under stress. Here we found a novel signaling mode, where Hog1 is sequestered away from the nucleus in cytoplasmic granules. This prevents the normal stress response, so that ferulic acid could help the host stop progression of disease. On the other hand, over-activation of Hog1 promotes cell death, so sequestering could be a survival response of the pathogen. Either or both mechanisms could be at work in this and other pathosystems.

## Linked entities

- **Genes:** hog-1 (HintN domain-containing protein) [NCBI Gene 180851], MST1 (macrophage stimulating 1) [NCBI Gene 4485], PUF2 (Puf2p) [NCBI Gene 856155]
- **Proteins:** hog-1 (HintN domain-containing protein), PUF2 (Puf2p)
- **Chemicals:** ferulic acid (PubChem CID 445858)

## Full-text entities

- **Diseases:** FA (MESH:C565561)
- **Chemicals:** FA (MESH:D005492), phenolic acid (MESH:C017616), ferulic acid (MESH:C004999)
- **Species:** Bipolaris maydis (southern corn leaf blight pathogen, species) [taxon 5016]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12585099/full.md

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Source: https://tomesphere.com/paper/PMC12585099