# Phenotypically anchored transcriptomics across diverse agrichemicals reveals conserved pathways and unique gene expression signatures in zebrafish

**Authors:** Lindsey St. Mary, Ryan McClure, Lisa Truong, Steven J. Carrell, Katrina M. Waters, Robyn L. Tanguay

PMC · DOI: 10.3389/ftox.2025.1675060 · 2025-10-17

## TL;DR

This study uses zebrafish to explore how different agrichemicals affect gene expression and development, revealing shared and unique biological responses.

## Contribution

The study provides a framework linking agrichemical structure to biological effects using transcriptomics in a vertebrate model.

## Key findings

- Differential gene expression analysis revealed 0 to 4,538 DEGs per chemical with no clear link to morphological severity.
- Chemical-specific gene expression patterns converged on shared pathways like neurodevelopment and cytoskeletal organization.
- Semantic similarity analysis highlighted gaps in neurodevelopmental process annotations in current datasets.

## Abstract

Agrichemicals such as herbicides, fungicides, insecticides, and biocides are widely used in agriculture, yet some are associated with adverse effects in humans and the environment. While many of these chemicals have been extensively studied in vitro and are included in the EPA’s ToxCast program, comprehensive in vivo comparisons using RNA sequencing across structurally diverse agrichemicals, in a single screening platform, are lacking. In this study, we examined structurally diverse agrichemicals found in the U.S. Environmental Protection Agency’s (EPA) Toxcast Phase I and II library by statically exposing early life stage zebrafish at 6 h post fertilization (hpf) until 120 hpf at concentrations ranging from 0.25 to 100 µM. Morphological outcomes were assessed at 120 hpf across 10 endpoints, including yolk sac edema, craniofacial malformations, and axis abnormalities. Chemicals that produced robust concentration-response relationships were selected for transcriptomic profiling. For transcriptomic analysis, zebrafish were statically exposed to each chemical and sampled at 48 hpf, prior to the onset of morphological effects observed at 120 hpf. Differential expression analysis identified between 0 and 4,538 differentially expressed genes (DEGs) per chemical, with no clear correlation to morphological severity. Both DEG and co-expression network analyses revealed chemical-specific expression patterns that converged on shared biological pathways, including neurodevelopment and cytoskeletal organization. Key regulatory genes such as mylpfa and krt4 were identified within co-expression modules, suggesting their potential role in conserved toxicity mechanisms. Semantic similarity analysis of enriched gene ontology (GO) terms, when compared to existing datasets, highlighted gaps in the annotation of neurodevelopmental processes, indicating that some in vivo effects may not be fully captured by current curated resources. The results provide new insights into the modes of action of diverse agrichemicals and establish a framework for understanding how agrichemical structure relates to biological function in a vertebrate model.

## Linked entities

- **Genes:** mylpfa (myosin light chain, phosphorylatable, fast skeletal muscle a) [NCBI Gene 30429], KRT4 (keratin 4) [NCBI Gene 3851]
- **Species:** Danio rerio (taxon 7955)

## Full-text entities

- **Genes:** mylpfa (myosin light chain, phosphorylatable, fast skeletal muscle a) [NCBI Gene 30429] {aka cb46, mlc2f, myl11a, mylz2, sb:cb46}, krt4 (keratin 4) [NCBI Gene 794486] {aka cb59, etID20321.6, krt8, wu:fa91a11, wu:fd19e09, wu:fl23c09}
- **Diseases:** axis abnormalities (MESH:C566610), yolk sac (MESH:D018240), toxicity (MESH:D064420), craniofacial malformations (MESH:D019465), edema (MESH:D004487)
- **Chemicals:** Chemicals (-)
- **Species:** Homo sapiens (human, species) [taxon 9606], Danio rerio (leopard danio, species) [taxon 7955]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12575134/full.md

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Source: https://tomesphere.com/paper/PMC12575134