Back

Bisphenol S causes deficits in social behaviour by disrupting serotonergic and BDNF-CREB1 signaling pathways

Hasan, A. K. M. M.; Rachamalla, M.; Nigoyi, S.; Chivers, D. P.

2026-06-25 animal behavior and cognition
10.64898/2026.06.20.733535 bioRxiv
Show abstract

Bisphenol S (BPS), a widely used substitute for bisphenol A, is increasingly detected in aquatic environments; however, its neurodevelopmental effects remain insufficiently understood. This study investigated whether developmental exposure to an environmentally relevant concentration of BPS disrupts social behaviour and underlying neurobiological pathways in zebrafish (Danio rerio). At 21 days post-fertilization, BPS-exposed larvae exhibited a significant reduction in social preference, indicating impaired conspecific interactions. Neurochemical analysis revealed a marked increase in serotonin (5-HT) levels, whereas lipid peroxidation (MDA) remained unchanged, suggesting the absence of overt oxidative damage. Gene expression profiling demonstrated a dysregulated antioxidant response, suppression of apoptotic signaling, and pronounced upregulation of serotonergic receptors and transporters. To resolve system-level mechanisms, protein-protein interaction (PPI) network analysis identified BDNF and CREB1 as dominant regulatory hubs, with the serotonergic synapse pathway as the most significantly enriched term. Molecular docking further demonstrated direct binding of BPS to multiple serotonergic targets, including HTR1A and TPH2, supporting receptor-level interference. Expanded network and pathway analyses revealed coordinated enrichment of monoamine GPCR, oxidative stress, and inflammatory pathways. These findings demonstrate that BPS induces serotonergic dysregulation and network-level reprogramming rather than significant oxidative damage, leading to behavioural impairment. This study provides a multi-scale mechanistic framework linking molecular perturbations to neurobehavioural outcomes, identifying serotonergic signaling and BDNF-CREB1 pathways as central targets of BPS neurotoxicity.

Matching journals

The top 11 journals account for 50% of the predicted probability mass.

1
Scientific Reports
3612 papers in training set
Top 2%
13.2%
2
PLOS ONE
5266 papers in training set
Top 21%
8.1%
3
Progress in Neuro-Psychopharmacology and Biological Psychiatry
48 papers in training set
Top 0.1%
5.6%
4
Environmental Science & Technology
64 papers in training set
Top 0.3%
4.1%
5
Translational Psychiatry
260 papers in training set
Top 2%
3.6%
6
Neuropharmacology
68 papers in training set
Top 0.4%
3.3%
7
Chemosphere
17 papers in training set
Top 0.1%
3.3%
8
Toxicological Sciences
41 papers in training set
Top 0.2%
3.3%
9
Science of The Total Environment
186 papers in training set
Top 1%
2.8%
10
Environmental Research
49 papers in training set
Top 0.4%
2.7%
11
Journal of Hazardous Materials
21 papers in training set
Top 0.2%
2.4%
50% of probability mass above
12
eLife
5828 papers in training set
Top 43%
2.2%
13
iScience
1154 papers in training set
Top 12%
2.2%
14
Molecular Psychiatry
282 papers in training set
Top 3%
1.8%
15
Psychoneuroendocrinology
36 papers in training set
Top 0.3%
1.8%
16
Neurobiology of Disease
148 papers in training set
Top 2%
1.7%
17
NeuroToxicology
14 papers in training set
Top 0.2%
1.4%
18
Nature Communications
5641 papers in training set
Top 48%
1.4%
19
Environment International
43 papers in training set
Top 0.5%
1.4%
20
Neuropsychopharmacology
153 papers in training set
Top 2%
1.2%
21
International Journal of Biological Macromolecules
76 papers in training set
Top 1%
1.2%
22
eneuro
439 papers in training set
Top 6%
1.2%
23
Frontiers in Pharmacology
111 papers in training set
Top 2%
1.2%
24
Behavioural Brain Research
77 papers in training set
Top 1%
1.1%
25
European Neuropsychopharmacology
20 papers in training set
Top 0.4%
1.1%
26
Communications Biology
993 papers in training set
Top 27%
0.9%
27
Genes, Brain and Behavior
30 papers in training set
Top 0.4%
0.9%
28
Antioxidants
25 papers in training set
Top 0.6%
0.9%
29
General and Comparative Endocrinology
21 papers in training set
Top 0.2%
0.9%
30
PLOS Biology
486 papers in training set
Top 11%
0.9%