Triclosan promotes neurotoxicity in diabetic conditions: an in vivo molecular assessment using zebrafish model

Author First name, Last name, Institution

Sankar Dakshitha, Saveetha Dental College And Hospitals
Rym Ghimouz, Zayed University
Raghul Murugan, Saveetha Dental College And Hospitals
Vanitha Marunganathan, Saveetha Dental College And Hospitals
Raghunandhakumar Subramanian, Saveetha Dental College And Hospitals
Anitha Roy, Saveetha Dental College And Hospitals
Ajay Guru, Saveetha Dental College And Hospitals
Jesu Arockiaraj, SRM Institute of Science and Technology

Document Type

Article

Source of Publication

3 Biotech

Publication Date

6-1-2025

Abstract

The widespread environmental presence of triclosan (TC), a common antimicrobial agent, has raised concerns about its potential metabolic and neurological effects, particularly in susceptible populations such as individuals with diabetes. This study investigated the neuronal effects of TC in streptozotocin (STZ)-induced diabetic zebrafish larvae using network pharmacology, toxicity assays, and gene expression analysis. Network pharmacology identified 99 overlapping diabetes-related targets, with KEGG analysis implicating AGE-RAGE signaling and cholinergic synapse pathways in diabetic and neuronal complications. Acute toxicity testing revealed that TC and STZ co-exposure caused developmental abnormalities, including pericardial edema, and reduced survival (48%) compared to TC (76%) or STZ (68%) alone. Oxidative stress assays demonstrated synergistic reactive oxygen species elevation in the TC + STZ group, supported by upregulated antioxidant enzymes and glutathione-related genes. Neuronal toxicity assessments showed reduced acetylcholinesterase (AChE) activity and impaired locomotor behavior in diabetic larvae exposed to TC, indicating disrupted cholinergic signaling and cognitive dysfunction. Behavioral analyses confirmed hypoactivity and erratic swimming patterns, aligning with oxidative stress and neuroinflammation. These findings suggest that TC exacerbates diabetes-associated hyperglycemia, oxidative stress, and neurotoxicity, with synergistic effects under diabetic conditions. The study highlights the need for diabetes-specific therapeutic strategies, such as antioxidant and neuroprotective interventions, and stricter safety guidelines for TC use in diabetic populations.

DOI Link

10.1007/s13205-025-04352-z

ISSN

2190-572X

Volume

15

Issue

6

Disciplines

Life Sciences

Keywords

Acetylcholine esterase, Neurotoxicity, Oxidative stress, Triclosan, Zebrafish

Scopus ID

05005234135

Recommended Citation

Dakshitha, Sankar; Ghimouz, Rym; Murugan, Raghul; Marunganathan, Vanitha; Subramanian, Raghunandhakumar; Roy, Anitha; Guru, Ajay; and Arockiaraj, Jesu, "Triclosan promotes neurotoxicity in diabetic conditions: an in vivo molecular assessment using zebrafish model" (2025). All Works. 7324.
https://zuscholars.zu.ac.ae/works/7324

Indexed in Scopus

yes

Open Access

no