Environmental and
Sublethal Concentrations of Polystyrene
Nanoplastics Induced Antioxidant System, Transcriptomic Responses,
and Disturbed Gut Microbiota in Oyster Magallana Hongkongensis
posted on 2024-06-04, 13:05authored byBin Wang, Muhammad Junaid, Muhammad Imran, Liangfu Wei, Guanglong Chen, Jun Wang
Nanoplastics (NPs) are emerging contaminants
having persistent
nature, diverse ecological impacts, and potential food safety risks.
Here, we examined the ecotoxicity of 80 nm polystyrene nanoplastics
(PS-NPs) at environmentally relevant concentrations (ERCs, 10 and
100 μg/L), and sublethal concentrations (SLCs, 500 and 2500
μg/L) in Magallana hongkongensis. Results showed that SLCs significantly (p <
0.05) increased superoxide dismutase (SOD), catalase (CAT), and alkaline
phosphatase (AKP) activities and altered tnfα, cat,
gst, sod, and se-gpx genetic expressions.
Further, PS-NP exposure at both levels reduced beneficial bacteria
and increased potentially pathogenic bacteria in the gut. In transcriptomic
analysis, 5118 and 4180 differentially expressed genes (DEGs) were
identified at ERCs, while 5665 and 4817 DEGs were found at SLCs, respectively.
Upregulated DEGs enriched lysosomes, ABC transporters, and apoptosis
pathways, while downregulated DEGs enriched ribosomal pathways. Overall,
ERCs significantly altered gut microbiota and transcriptomic responses,
while SLCs, in addition, also impacted the antioxidant and immune
systems.