Effects of Trichothecene Production on the Plant Defense Response and Fungal Physiology: Overexpression of the Trichoderma arundinaceum tri4 Gene in T. harzianum

Effects of Trichothecene Production on the Plant Defense Response and Fungal Physiology: Overexpression of the Trichoderma arundinaceum tri4 Gene in T. harzianum

Trichothecenes are fungal sesquiterpenoid compounds, the majority of which have phytotoxic activity. They contaminate food and feed stocks, resulting in potential harm to animals and human beings. Trichoderma brevicompactum and T. arundinaceum produce trichodermin and harzianum A (HA), respectively,...

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Published in:Applied and environmental microbiology Vol. 81; no. 18; pp. 6355 - 6366
Main Authors: Cardoza, R E, McCormick, S P, Malmierca, M G, Olivera, E R, Alexander, N J, Monte, E, Gutiérrez, S
Format: Journal Article
Language:English
Published: United States American Society for Microbiology 01-09-2015
Subjects:
Antifungal Agents - metabolism
Cyclohexenes - metabolism
Defense mechanisms
Down-Regulation
Effects
Environmental Microbiology
Ergosterol - metabolism
Fungi
Fusarium - chemistry
Fusarium - metabolism
Gene expression
Gene Expression Regulation, Fungal
Genes, Fungal
Lycopersicon esculentum - drug effects
Lycopersicon esculentum - genetics
Lycopersicon esculentum - growth & development
Mutation
Physiology
Phytotoxicity
Sesquiterpenes - metabolism
Squalene - analysis
Trichoderma - genetics
Trichoderma - physiology
Trichodermin - metabolism
Trichodermin - toxicity
Trichothecenes - biosynthesis
Trichothecenes - metabolism
Trichothecenes - pharmacology
Trichothecenes - toxicity
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Summary:Trichothecenes are fungal sesquiterpenoid compounds, the majority of which have phytotoxic activity. They contaminate food and feed stocks, resulting in potential harm to animals and human beings. Trichoderma brevicompactum and T. arundinaceum produce trichodermin and harzianum A (HA), respectively, two trichothecenes that show different bioactive properties. Both compounds have remarkable antibiotic and cytotoxic activities, but in addition, trichodermin is highly phytotoxic, while HA lacks this activity when analyzed in vivo. Analysis of Fusarium trichothecene intermediates led to the conclusion that most of them, with the exception of the hydrocarbon precursor trichodiene (TD), have a detectable phytotoxic activity which is not directly related to the structural complexity of the intermediate. In the present work, the HA intermediate 12,13-epoxytrichothec-9-ene (EPT) was produced by expression of the T. arundinaceum tri4 gene in a transgenic T. harzianum strain that already produces TD after transformation with the T. arundinaceum tri5 gene. Purified EPT did not show antifungal or phytotoxic activity, while purified HA showed both antifungal and phytotoxic activities. However, the use of the transgenic T. harzianum tri4 strain induced a downregulation of defense-related genes in tomato plants and also downregulated plant genes involved in fungal root colonization. The production of EPT by the transgenic tri4 strain raised levels of erg1 expression and reduced squalene accumulation while not affecting levels of ergosterol. Together, these results indicate the complex interactions among trichothecene intermediates, fungal antagonists, and host plants.
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Citation Cardoza RE, McCormick SP, Malmierca MG, Olivera ER, Alexander NJ, Monte E, Gutiérrez S. 2015. Effects of trichothecene production on the plant defense response and fungal physiology: overexpression of the Trichoderma arundinaceum tri4 gene in T. harzianum. Appl Environ Microbiol 81:6355–6366. doi:10.1128/AEM.01626-15.
ISSN:0099-2240
1098-5336
DOI:10.1128/AEM.01626-15