Natural Phenolic Compounds against Trichothecenes: From Protective Mechanisms to Future Perspectives DOI
Aimei Liu, Kan Zhu,

Chenchen Song

et al.

Journal of Agricultural and Food Chemistry, Journal Year: 2025, Volume and Issue: unknown

Published: April 2, 2025

Trichothecenes (TCNs), Fusarium-derived mycotoxins exemplified by deoxynivalenol and T-2 toxin, threaten global health through multisystem toxicity widespread contamination. Natural phenolic compounds (NPCs), leveraging their intrinsic safety natural abundance, demonstrate multimechanistic efficacy in counteracting TCN toxicity. This article reviews both domestic international research on the protective mechanisms of NPCs against TCN-induced exert effects multitiered mechanisms: (1) molecular regulation via Nrf2-centric antioxidant activation MAPK/NF-κB inflammatory axis suppression, coupled with coordinated inhibition programmed cell death pathways (apoptosis/ferroptosis/pyroptosis) autophagy modulation, where GPX4 emerges as a critical ferroptosis regulator; (2) restoring microbiome balance, enhancing intestinal barrier function, optimizing nutrient transport. Gut microflora may also serve an additional target for mitigating TCNs. further inhibit Fusarium proliferation mycotoxin biosynthesis. While there is demonstrated potential food sustainable feed development, challenges persist bioavailability optimization, pharmacokinetic profiling, microbiota-metabolite crosstalk. analysis advances NPC-based strategies detoxification agriculture.

Language: Английский

Natural Phenolic Compounds against Trichothecenes: From Protective Mechanisms to Future Perspectives DOI
Aimei Liu, Kan Zhu,

Chenchen Song

et al.

Journal of Agricultural and Food Chemistry, Journal Year: 2025, Volume and Issue: unknown

Published: April 2, 2025

Trichothecenes (TCNs), Fusarium-derived mycotoxins exemplified by deoxynivalenol and T-2 toxin, threaten global health through multisystem toxicity widespread contamination. Natural phenolic compounds (NPCs), leveraging their intrinsic safety natural abundance, demonstrate multimechanistic efficacy in counteracting TCN toxicity. This article reviews both domestic international research on the protective mechanisms of NPCs against TCN-induced exert effects multitiered mechanisms: (1) molecular regulation via Nrf2-centric antioxidant activation MAPK/NF-κB inflammatory axis suppression, coupled with coordinated inhibition programmed cell death pathways (apoptosis/ferroptosis/pyroptosis) autophagy modulation, where GPX4 emerges as a critical ferroptosis regulator; (2) restoring microbiome balance, enhancing intestinal barrier function, optimizing nutrient transport. Gut microflora may also serve an additional target for mitigating TCNs. further inhibit Fusarium proliferation mycotoxin biosynthesis. While there is demonstrated potential food sustainable feed development, challenges persist bioavailability optimization, pharmacokinetic profiling, microbiota-metabolite crosstalk. analysis advances NPC-based strategies detoxification agriculture.

Language: Английский

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