# From Early Signals to Systemic Decline: Physiological Defense Landscape of Agave tequilana in the Fusarium oxysporum Pathosystem

**Authors:** Diego E. Navarro-López, Julio César López-Velázquez, Antonia Gutiérrez-Mora, Mayra Itzcalotzin Montero-Cortés, Martin Eduardo Avila-Miranda, Norma Alejandra Mancilla-Margalli, Elizabeth Sánchez-Jiménez, Miriam Irene Jiménez-Pérez, Jorge L. Mejía-Méndez, Joaquín Alejandro Qui-Zapata

PMC · DOI: 10.3390/plants15020233 · 2026-01-12

## TL;DR

This study explores how blue agave plants defend against Fusarium oxysporum infection, revealing differences in plant responses to pathogenic and non-pathogenic strains.

## Contribution

The study identifies specific defense mechanisms in Agave tequilana against Fusarium oxysporum, distinguishing compatible and incompatible plant-pathogen interactions.

## Key findings

- Agave tequilana shows stronger hypersensitive response and cell wall strengthening against pathogenic Fusarium strains.
- Non-pathogenic Fusarium strains trigger incompatible interactions with sustained plant defense responses.
- Phytoanticipins and phytoalexins play roles in tissue containment and recovery during incompatible interactions.

## Abstract

The agave wilt associated with Fusarium oxysporum (Fox) is a major disease of blue agave (Agave tequilana Weber var. azul), used to produce “Tequila” in Mexico. Little is known about the A. tequilana-F. oxysporum interaction yet understanding defense mechanisms against the pathogen is necessary for control strategies. During early Fox infection, plants trigger defense mechanisms to interrupt the compatible interaction, while Fox’s pathogenesis mechanism interacts with plant response. This study evaluated plant defense mechanisms induced by Fox in A. tequilana and their interaction with fungal pathogenesis. For this, an A. tequilana pathogenic strain (FPA), and the non-A. tequilana pathogenic strains FNPA and FOL were utilized. Early defense mechanisms evaluated were hypersensitive response (HR) and cell wall strengthening in agave roots. Resistance mechanisms evaluated included pathogenesis-related proteins (PR proteins), phytoanticipins and phytoalexins. For early defense, induced HR was greater with FPA than other strains. Cell wall strengthening was found in agave roots, plants responded differentially to different strains. Initial response to FPA and FOL was similar in PR proteins, phytoalexins and phytoanticipins production. However, the response differentiated with FOL over time, indicating an incompatible interaction. The study identified effective and ineffective defense responses of A. tequilana to Fox infection, where FPA exhibited compatibility and caused unregulated ROS and PCD, early inhibition of PR activity, extensive lignification, and saponin detoxification. In contrast, this study unveiled incompatible interactions (FNPA and FOL) because of limited colonization, localized HR with suppressed ROS, early and sustained POX activation, significant callose accumulation, moderate lignification, and phenol–saponin dynamics that help in tissue containment and recovery.

## Linked entities

- **Proteins:** PRODH (proline dehydrogenase 1)
- **Chemicals:** callose (PubChem CID 64689), phenol (PubChem CID 996), saponin (PubChem CID 198016)
- **Species:** Agave tequilana (taxon 386106), Fusarium oxysporum (taxon 5507)

## Full-text entities

- **Diseases:** fungal (MESH:D009181), PCD (MESH:D007619)
- **Chemicals:** FOL (-), callose (MESH:C048306), phenol (MESH:D019800), saponin (MESH:D012503)
- **Species:** Agave tequilana (species) [taxon 386106], Fusarium oxysporum (species) [taxon 5507]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12844637/full.md

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Source: https://tomesphere.com/paper/PMC12844637