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Activated hedgehog and insulin ligands by decreased transcriptional factor DAF-16 mediate transgenerational nanoplastic toxicity in Caenorhabditis elegans

Journal of Hazardous Materials 2024 23 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 65 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Xin Hua, Yuting Shao, Yuting Shao, Yuting Shao, Jingwei Wu, Jingwei Wu, Jingwei Wu, Jingwei Wu, Xin Hua, Xin Hua, Xin Hua, Xin Hua, Xin Hua, Yuting Shao, Dayong Wang Dayong Wang Yuting Shao, Dayong Wang Yuting Shao, Dayong Wang Xin Hua, Xin Hua, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Xin Hua, Xin Hua, Xin Hua, Xin Hua, Xin Hua, Xin Hua, Xin Hua, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Yuting Shao, Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang Dayong Wang

Summary

Researchers demonstrated that polystyrene nanoplastics inhibit the insulin-signaling transcription factor DAF-16 in C. elegans, which in turn activates hedgehog and insulin ligand genes that mediate toxicity — including locomotion and reproductive impairment — across multiple generations via a self-reinforcing feedback loop.

In Caenorhabditis elegans, transcriptional factor DAF-16 in insulin signaling pathway played important role in regulating transgenerational nanoplastic toxicity. Activation of insulin signals mediated transgenerational toxicity of polystyrene nanoparticle (PS-NP) by inhibiting DAF-16. Among identified germline ligands, expression of wrt-3 encoding hedgehog ligand was increased by RNAi of daf-16 in PS-NP exposed C. elegans. In PS-NP exposed C. elegans, expressions of 4 other germline hedgehog ligand genes and 10 hedgehog receptor genes were increased by daf-16 RNAi. Among these candidate genes, expressions of hedgehog ligand genes (grl-15, grl-16, qua-1, and wrt-1) and hedgehog receptor genes (ptr-23, scp-1, ptd-2, and ncr-1) could be increased by PS-NP (1-100 μg/L), and their transgenerational expressions were observed after PS-NP exposure. RNAi of grl-15, grl-16, qua-1, wrt-1, ptr-23, scp-1, ptd-2, and ncr-1 caused resistance to transgenerational PS-NP toxicity. In nematodes exposed to PS-NPs, RNAi of wrt-3, grl-15, grl-16, qua-1, and wrt-1 at parental generation (P0-G) inhibited expressions of ptr-23, scp-1, ptd-2, and ncr-1 in their offspring. Moreover, we observed increased expressions of insulin peptides genes (ins-3, ins-39, and daf-28) in PS-NP exposed daf-16(RNAi) nematodes, suggesting formation of feedback loop. We raise the molecular basis for formation of toxicity on multiple generations after nanoplastic exposure at P0-G.

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