Developmental and organ toxicity of fenpropimorph in zebrafish: Involvement of apoptosis and inflammation

Abstract

Pesticides are increasingly the focus as a prominent factor in environmental pollution. Fenpropimorph, a widely utilized morpholine fungicide, is a significant water pollutant. Because of its extensive usage, fenpropimorph is readily detected in diverse aquatic ecosystems. Despite its well-known toxicity to aquatic organisms, its toxicity to zebrafish development and accompanying mechanics remain unexplored. To assess fenpropimorph's toxicity and potential mechanism, we employed the zebrafish model, a representative tool in toxicological studies. Our results showed that exposure to fenpropimorph reduced embryonic viability during the early stages of development and reduced head and body size. Moreover, fenpropimorph triggered apoptosis, DNA fragmentation, and inflammation. Aberrations in the vascular network were observed in the fli1:eGFP transgenic zebrafish model. Additionally, neurotoxic impacts were further assessed using transgenic olig2:dsRed zebrafish, accompanied by a reduction of liver size and fluorescence intensity of fabp10a:dsRed zebrafish. mRNA expression analysis related to corresponding organ development further supported our data. Overall, our research suggests that fenpropimorph may cause aberrations in aquatic organisms.