Biocontrol Potential of Entomopathogenic Fungi Against Plant-Parasitic Nematodes: A Caenorhabditis elegans-Based Screening and Mechanistic Study
2025
Cheng Cheng | Renjun Zhang | Yanzhen Wang | Shuo Yang | Wenhao Yu | Yuxian Xia
Plant-parasitic nematodes and insect pests critically threaten agricultural productivity, but chemical pesticides face limitations due to resistance and environmental concerns, necessitating eco-friendly biopesticides targeting both pests and nematodes. Here, we developed a high-throughput screening platform using Caenorhabditis elegans to identify entomopathogenic fungi exhibiting nematocidal activity against Meloidogyne incognita. Among 32 tested strains, nine Metarhizium spp. and one Beauveria strain demonstrated dual efficacy against C. elegans and M. incognita. Metarhizium anisopliae CQMa421 showed the highest virulence, suppressing nematode reproduction by 42.7% and inducing >:80% mortality. Pot experiments revealed a 50% reduction in the root galling index and 50.3% fewer root galls in Solanum lycopersicum. The CQMa421 filtrate caused irreversible locomotor deficits and reduced egg hatching rates by 28%. Concurrently, intestinal damage, elevated oxidative stress and autophagy were observed in C. elegans. This was accompanied by a transcriptome-wide modulation of genes involved in detoxification and immune defense pathways. These findings demonstrate the efficacy of our C. elegans-based screening method for identifying fungi with nematocidal potential. CQMa421&rsquo:s virulence against M. incognita suggests its promise for pest management, while molecular insights highlight pathways that may contribute to the future design of future nematicides. This study advances fungal biocontrol agents and offers a sustainable strategy for agriculture.
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