Your search keyword '"Geng, Qianqian"' showing total 5 results

1. Insights into the combined toxicity and mechanisms of BDE-47 and PFOA in marine blue mussel: An integrated study at the physiochemical and molecular levels.

Author

Geng, Qianqian, Zou, Liang, Guo, Mengmeng, Peng, Jixing, Li, Fengling, Bi, Yujie, Jiang, Shuqi, Qin, Hanlin, and Tan, Zhijun

Subjects

*EMERGING contaminants, *MYTILUS edulis, *AMINO acid metabolism, *MYTILIDAE, *PERFLUOROOCTANOIC acid

Abstract

• BDE-47/PFOA co-exposure altered their individual accumulation and distribution patterns. • Co-exposure exacerbated oxidative stress and histopathological impacts. • DEGs and DEMs were found to be annotated to different metabolic pathways. • The Nrf2-keap1 pathway participated in the acclimation to stress caused by ROS. The coexistence of multiple emerging contaminants imposes a substantial burden on the ecophysiological functions in organisms. The combined toxicity and underlying mechanism requires in-depth understanding. Here, marine blue mussel (Mytilus galloprovincialis L.) was selected and exposed to 2,2′,4,4′-tetrabromodiphenyl ether (BDE-47) and perfluorooctanoic acid (PFOA) individually and in combination at environmental related concentrations to elucidate differences in stress responses and potential toxicological mechanisms. Characterization and comparison of accumulation, biomarkers, histopathology, transcriptomics and metabolomics were performed. Co-exposure resulted in differential accumulation patterns, exacerbated histopathological alterations, and different responses in oxidative stress and biomarkers for xenobiotic transportation. Moreover, the identified differentially expressed genes (DEGs) and differential metabolites (DEMs) in mussels were found to be annotated to different metabolic pathways. Correlation analyses further indicated that DEGs and DEMs were significantly correlated with the above biomarkers. BDE-47 and PFOA altered the genes and metabolites related to amino acid metabolism, energy and purine metabolism, ABC transporters, and glutathione metabolism to varying degrees, subsequently inducing accumulation differences and combined toxicity. Furthermore, the present work highlighted the pivotal role of Nrf2-keap1 detoxification pathway in the acclimation of M. galloprovincialis to reactive oxygen species (ROS) stress induced by BDE-47 and PFOA. This study enabled more comprehensive understanding of combined toxic mechanism of multi emerging contaminants pollution. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

2. Uptake, Tissue Distribution, and Elimination of 8:2 Polyfluoroalkyl Phosphate Diesters in Mytilus galloprovincialis.

Author

Cui, Wenjie, Tan, Zhijun, Chen, Jiaqi, Wu, Haiyan, Geng, Qianqian, Guo, Mengmeng, and Zhai, Yuxiu

Subjects

MYTILUS galloprovincialis, CARBOXYLIC acids, BIOCONVERSION, TISSUES, PHOSPHATES, FLUOROALKYL compounds, PERFLUOROOCTANOIC acid

Abstract

Although the distribution of 8:2 polyfluoroalkyl phosphate diester (8:2 diPAP) in aquatic environments has been reported, details on its uptake, tissue specificity, and elimination in bivalve mollusks remain to be clarified. The present study is the first report on the accumulation and elimination of 8:2 diPAP in mussels (Mytilus galloprovincialis). The tissue‐specific accumulation and depuration of 8:2 diPAP and its metabolites were investigated via semistatic seawater exposure (8:2 diPAP at a nominal concentration of 10 μg/L), through water‐borne exposure with static daily renewal over a 72‐h exposure period and a 360‐h depuration period. The digestive gland was found to be the target organ where accumulation and biotransformation primarily occur. The bioaccumulation factor values (mL/g dry wt) in different organs were in the following order: digestive gland (1249) > adductor muscle (315) > gills (289) > gonad (82.9) > mantle (33.0). Moreover, the distribution of 8:2 diPAP among tissues may be related to the total protein content. The 8:2 diPAP tended to be excreted in feces. The compounds 8:2 fluorotelomer carboxylic acid, 8:2 fluorotelomer unsaturated carboxylic acid, 7:3 fluorotelomer carboxylic acid, perfluorooctanoic acid, and perfluoroheptanoic acid were detected and quantified as phase I metabolites, and the concentration of all phase I metabolites relative to the 8:2 diPAP concentration (72 h) was 0.304 mol%. A phase II metabolite, 8:2 fluorotelomer alcohol conjugated with sulfate, was detected but not quantitated in the digestive gland. A biotransformation pathway of 8:2 diPAP in M. galloprovincialis was proposed on the basis of the results obtained in the present study and previous studies. These findings improve our understanding of the accumulation of perfluorocarboxylic acids in bivalve mollusks. Environ Toxicol Chem 2021;40:1992–2004. © 2021 SETAC [ABSTRACT FROM AUTHOR]

Published

2021

3. Effects of perfluorooctanoic acid on the nutritional quality of Mytilus edulis.

Author

Zhou, Yang, Yu, Yongxing, Gong, Xiuqiong, Tan, Zhijun, Guo, Mengmeng, Geng, Qianqian, and Li, Fengling

Subjects

MYTILUS edulis, ECOLOGICAL risk assessment, PERFLUOROOCTANOIC acid, FOOD quality, POLLUTION monitoring, BIOCHEMICAL variation

Abstract

Perfluorooctanoic acid (PFOA), which widely presents in marine environment, may produce some adverse effects to aquatic organism. Mytilus edulis are popular due to their high protein and low fat content in China. However, few studies have investigated the effects of PFOA on the quality of aquatic products. Here, PFOA effects on basic nutritional indices in M. edulis were measured, and possible mechanisms were explored. PFOA caused clear variation in physiological and biochemical indices of M. edulis. The contents of some important proteins, nutrients, and amino acids etc. dropped. Integrating metabolomics data, we speculate PFOA exposure triggered inflammation and oxidative stress in mussels, interfered with the metabolic pathways related to the quality and the transport and absorption pathways of metal ions, and affected the levels of some important elements and metabolites, thus decreasing the nutritional quality of M. edulis. The study provides new insights into PFOA adverse effects to marine organism, and may offer some references for some researchers to assess food quality and ecological risk to pollutants. • PFOA exposure changes significantly the levels of some elements and metabolites related to quality in M. edulis. • PFOA exposure interfered with the metabolic pathways, transport and uptake pathways for metal ions in mussels. • PFOA exposure reduces nutritional quality in M. edulis. • Ecological risk assessments emphasize need for monitoring PFOA pollution. [ABSTRACT FROM AUTHOR]

Published

2024

4. Effects of single and combined exposure to BDE-47 and PFOA on distribution, bioaccumulation, and toxicity in blue mussel (Mytilus galloprovincialis).

Author

Geng, Qianqian, Guo, Mengmeng, Wu, Haiyan, Peng, Jixing, Zheng, Guanchao, Liu, Xiaoyu, Zhai, Yuxiu, and Tan, Zhijun

Subjects

MYTILUS galloprovincialis, MYTILUS edulis, BIOACCUMULATION, PERFLUOROOCTANOIC acid, PERSISTENT pollutants, MARINE ecology

Abstract

The contamination of 2,2',4,4'-Tetrabrmodiphenyl ether (BDE-47) and perfluorooctanoic acid (PFOA) has drawn a worldwide attention over the risks in ecological and food safety. In this work, blue mussel (Mytilus galloprpvincialis) was employed to investigate the combined effects of BDE-47 (10 ng mL-1) and PFOA (100 ng mL-1) on tissue distribution, accumulation, elimination, and toxicity. Results suggested that BDE-47 and PFOA accumulated mostly in digestive gland, followed by gills and gonad, and M. galloprovincialis displayed higher accumulation capacity to BDE-47 than PFOA. Co-exposure treatment reduced the accumulation of BDE-47, and enhanced the accumulation of PFOA. Furthermore, biochemical and histopathological tests revealed that the aggravated toxicity in co-exposure groups was mainly attributed to the oxidative stress and damage of tissue structure. This work could be helpful to get a better understanding of the combined behaviors and cumulative risks of BDE-47 and PFOA in marine ecosystem. [Display omitted] • BDE-47 and PFOA accumulated mostly in digestive gland, followed by gill and gonad. • M. galloprovincialis displayed higher accumulation capacity to BDE-47 than PFOA. • Co-exposure decreased BDE-47 accumulation, and increased PFOA accumulation. • Co-exposure aggravated the toxicity and residue risk of BDE-47 and PFOA in mussel. [ABSTRACT FROM AUTHOR]

Published

2021

5. Integrated evidence of transcriptional, metabolic, and intestinal microbiota changes in Ruditapes philippinarum due to perfluorooctanoic acid-induced immunotoxicity.

Author

Li, Fengling, Gong, Xiuqiong, Zhou, Yang, Geng, Qianqian, Jiang, Yanhua, Yao, Lin, Qu, Meng, and Tan, Zhijun

Published

2024