Assessment of Clam Ruditapes philippinarum as Heavy Metal Bioindicators Using NMR-Based Metabolomics

Assessment of Clam Ruditapes philippinarum as Heavy Metal Bioindicators Using NMR-Based Metabolomics

There are mainly distributed three pedigrees (White, Liangdao Red, and Zebra) of Manila clam Ruditapes philippinarum in Yantai population along the Bohai marine and coast. However, the biological differences to environmental stressors have been ignored in toxicology studies, which could lead to the...

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Veröffentlicht in:Clean : soil, air, water air, water, 2011-08, Vol.39 (8), p.759-766
Hauptverfasser: Liu, Xiaoli, Zhang, Linbao, You, Liping, Yu, Junbao, Cong, Ming, Wang, Qing, Li, Fei, Li, Lianzhen, Zhao, Jianmin, Li, Chenghua, Wu, Huifeng
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Bioindicator
Earth sciences
Earth, ocean, space
Exact sciences and technology
Hydrology
Hydrology. Hydrogeology
Manila clam
Mercury
Metabolomics
NMR
Ruditapes philippinarum
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container_end_page 766
container_issue 8
container_start_page 759
container_title Clean : soil, air, water
container_volume 39
creator Liu, Xiaoli
Zhang, Linbao
You, Liping
Yu, Junbao
Cong, Ming
Wang, Qing
Li, Fei
Li, Lianzhen
Zhao, Jianmin
Li, Chenghua
Wu, Huifeng
description There are mainly distributed three pedigrees (White, Liangdao Red, and Zebra) of Manila clam Ruditapes philippinarum in Yantai population along the Bohai marine and coast. However, the biological differences to environmental stressors have been ignored in toxicology studies, which could lead to the distortion of biological interpretations of toxicological effects induced by environmental contaminants. In this study, we applied a system biology approach, metabolomics to compare the metabolic profiles in digestive gland from three pedigrees of clam and characterize and compare the metabolic responses induced by mercury in clam digestive gland tissues to determine a sensitive pedigree of clam as a preferable bioindicator for metal pollution monitoring and toxicology research. The most abundant metabolites, respectively, included branched‐chain amino acids, alanine, and arginine in White samples, glutamate, dimethylglycine, and glycine in Zebra clams and acetylcholine, betaine, glucose, and glycogen in Liangdao Red clams. After 48 h exposure of 20 µg L−1 Hg2+, the metabolic profiles from the three pedigrees of clams showed differentially significant changes in alanine, glutamate, succinate, taurine, hypotaurine, glycine, arginine, glucose, etc. Our findings indicate the toxicological effects of mercury exposure in Manila clams including the neurotoxicity, disturbances in energetic metabolisms and osmoregulation in the digestive glands and suggest that Liangdao Red pedigree of clam could be a preferable bioindicator for the metal pollution monitoring based on the more sensitive classes of metabolic changes from digestive glands compared with other two (White and Zebra) pedigrees of clams. It could be shown here that the Liangdao Red clam exhibited more sensitive disturbances in the osmoregulation, energetic metabolisms, and neurotoxicities to mercury exposure. Thus, the Liangdao Red pedigree could be a bioindicator in the marine and coastal ecotoxicology.
doi_str_mv 10.1002/clen.201000410
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However, the biological differences to environmental stressors have been ignored in toxicology studies, which could lead to the distortion of biological interpretations of toxicological effects induced by environmental contaminants. In this study, we applied a system biology approach, metabolomics to compare the metabolic profiles in digestive gland from three pedigrees of clam and characterize and compare the metabolic responses induced by mercury in clam digestive gland tissues to determine a sensitive pedigree of clam as a preferable bioindicator for metal pollution monitoring and toxicology research. The most abundant metabolites, respectively, included branched‐chain amino acids, alanine, and arginine in White samples, glutamate, dimethylglycine, and glycine in Zebra clams and acetylcholine, betaine, glucose, and glycogen in Liangdao Red clams. After 48 h exposure of 20 µg L−1 Hg2+, the metabolic profiles from the three pedigrees of clams showed differentially significant changes in alanine, glutamate, succinate, taurine, hypotaurine, glycine, arginine, glucose, etc. Our findings indicate the toxicological effects of mercury exposure in Manila clams including the neurotoxicity, disturbances in energetic metabolisms and osmoregulation in the digestive glands and suggest that Liangdao Red pedigree of clam could be a preferable bioindicator for the metal pollution monitoring based on the more sensitive classes of metabolic changes from digestive glands compared with other two (White and Zebra) pedigrees of clams. It could be shown here that the Liangdao Red clam exhibited more sensitive disturbances in the osmoregulation, energetic metabolisms, and neurotoxicities to mercury exposure. 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After 48 h exposure of 20 µg L−1 Hg2+, the metabolic profiles from the three pedigrees of clams showed differentially significant changes in alanine, glutamate, succinate, taurine, hypotaurine, glycine, arginine, glucose, etc. Our findings indicate the toxicological effects of mercury exposure in Manila clams including the neurotoxicity, disturbances in energetic metabolisms and osmoregulation in the digestive glands and suggest that Liangdao Red pedigree of clam could be a preferable bioindicator for the metal pollution monitoring based on the more sensitive classes of metabolic changes from digestive glands compared with other two (White and Zebra) pedigrees of clams. It could be shown here that the Liangdao Red clam exhibited more sensitive disturbances in the osmoregulation, energetic metabolisms, and neurotoxicities to mercury exposure. 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However, the biological differences to environmental stressors have been ignored in toxicology studies, which could lead to the distortion of biological interpretations of toxicological effects induced by environmental contaminants. In this study, we applied a system biology approach, metabolomics to compare the metabolic profiles in digestive gland from three pedigrees of clam and characterize and compare the metabolic responses induced by mercury in clam digestive gland tissues to determine a sensitive pedigree of clam as a preferable bioindicator for metal pollution monitoring and toxicology research. The most abundant metabolites, respectively, included branched‐chain amino acids, alanine, and arginine in White samples, glutamate, dimethylglycine, and glycine in Zebra clams and acetylcholine, betaine, glucose, and glycogen in Liangdao Red clams. After 48 h exposure of 20 µg L−1 Hg2+, the metabolic profiles from the three pedigrees of clams showed differentially significant changes in alanine, glutamate, succinate, taurine, hypotaurine, glycine, arginine, glucose, etc. Our findings indicate the toxicological effects of mercury exposure in Manila clams including the neurotoxicity, disturbances in energetic metabolisms and osmoregulation in the digestive glands and suggest that Liangdao Red pedigree of clam could be a preferable bioindicator for the metal pollution monitoring based on the more sensitive classes of metabolic changes from digestive glands compared with other two (White and Zebra) pedigrees of clams. It could be shown here that the Liangdao Red clam exhibited more sensitive disturbances in the osmoregulation, energetic metabolisms, and neurotoxicities to mercury exposure. Thus, the Liangdao Red pedigree could be a bioindicator in the marine and coastal ecotoxicology.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><doi>10.1002/clen.201000410</doi><tpages>8</tpages></addata></record>
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source Wiley Online Library Journals Frontfile Complete
subjects Bioindicator
Earth sciences
Earth, ocean, space
Exact sciences and technology
Hydrology
Hydrology. Hydrogeology
Manila clam
Mercury
Metabolomics
NMR
Ruditapes philippinarum
title Assessment of Clam Ruditapes philippinarum as Heavy Metal Bioindicators Using NMR-Based Metabolomics
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