Metabolic and residual characteristic of different arsenic species contained in laver during mouse digestion

Laver is one of the major arsenic contributors to human diets. The study on metabolic and residual characteristic of each arsenic species contained in laver is important to scientifically assess the intake risk of arsenic in the laver. The metabolic and residual characteristic of main arsenic specie...

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Bibliographic Details
Published in:The Science of the total environment 2021-11, Vol.793, p.148434-148434, Article 148434
Main Authors: Wu, YongChen, Zhang, Huang, Wang, KaiTeng, Chen, Wei, Liu, ZhiFeng, Chen, Lian, Wang, XuSheng, Fu, FengFu, Yang, GuiDi
Format: Article
Language:English
Subjects:
Arsenic
Arsenosugars
Edible seaweed
Intake risk
Metabolism
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Summary:Laver is one of the major arsenic contributors to human diets. The study on metabolic and residual characteristic of each arsenic species contained in laver is important to scientifically assess the intake risk of arsenic in the laver. The metabolic and residual characteristic of main arsenic species in laver, namely arsenate [As(V)], dimethylarsinic acid [DMA(V)] and two arsenosugars, was investigated by mouse experiments in this study. The results showed that the intake of higher-dose laver did not lead to a notable increase of As(V) concentration in mouse muscle/organs and feces. In contrast, DMA(V) excretion in feces and DMA(V) residue in muscle/organs showed a close correlation with laver-dose intake. Most DMAsSugarMethoxy was translated into other arsenic species and then was together excreted out via mouse feces; two dominant arsenic species, arsenosugar DMAsSugarMethoxy and DMAsSugarPhosphate, were not detected in mouse muscle/organs after 20-Day or 30-Day feeding whether in lower-dose laver groups containing 1/36 (mass ratio) of the laver in mouse feed or higher-dose laver groups containing 1/6 (mass ratio) of the laver in mouse feed. About 65–77% of total arsenic digested by mouse was excreted out via feces; only 0.12–0.78% of it was accumulated in mouse organs/muscle. The results of this study provided valuable knowledge for comprehending the stability and metabolic characteristics of different arsenic species from Fujian laver in vivo, also for more scientifically assessing the intake risk of arsenic in laver. [Display omitted] •Metabolic and residual traits of As species in laver was studied by mouse experiment.•DMA(V) residue in muscle/organs showed correlation with laver-dose intake.•Arsenosugar DMAsSugarMethoxy and DMAsSugarPhosphate in laver didn't accumulate in mouse.•Result of the study is helpful for accurately assessing the intake risk of As in laver.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.148434