Advancing the understanding of PFAS-induced reproductive toxicity in key model species
By Ran Tao, Mingliang Sun, Jiateng Ma, Jiali Li, Xinni Yao, Minjie Li, and Liang-Hong Guo
Environ Sci Process Impacts
September 29, 2025
DOI: 10.1039/d5em00145e
Perfluoroalkyl substances (PFASs) are widely used and resistant to degradation, leading to their frequent detection in both humans and animals. These substances are believed to be associated with a range of toxic effects. Reproductive toxicity warrants greater attention due to its potential impact on offspring development. This article reviews and summarizes the literature from the past fifteen years on the studies of reproductive toxicity in model organisms induced by PFASs. This article organizes the studies according to the five most commonly used model organisms including mice, rats, zebrafish, , and . By reviewing the literature, it was found that PFASs primarily induced reproductive toxicity through gonadal damage, disruption of sex hormones, and effects on offspring development. Moreover, mammals, rats and mice possess many conserved signaling pathways with humans, making them valuable models for studying various diseases and metabolic pathways. Zebrafish and are well-suited for examining chronic toxicity at environmentally relevant exposure levels, with their high-throughput screening capacity enabling efficient and low-cost assessment of transgenerational effects. In summary, this study systematically reviews the reproductive toxicity of PFASs in model organisms, offering a scientific foundation for optimizing model selection, exploring intervention strategies, and shaping future research directions.
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