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Arsenic Ingested Early in Life Is More Readily Absorbed: Mechanistic Insights from Gut Microbiota, Gut Metabolites, and Intestinal Morphology and Functions

Authors :
Hong-Yu Wang
Shan Chen
Rong-Yue Xue
Xin-Ying Lin
Jin-Lei Yang
Yao-Sheng Zhang
Shi-Wei Li
Albert L. Juhasz
Lena Q. Ma
Dongmei Zhou
Hong-Bo Li
Wang, Hong Yu
Chen, Shan
Xue, Rong Yue
Lin, Xin Ying
Yang, Jin Lei
Zhang, Yao Sheng
Li, Shi Wei
Juhasz, Albert L
Ma, Lena Q
Zhou, Dongmei
Li, Hong Bo
Source :
Environmental Science & Technology. 57:1017-1027
Publication Year :
2022
Publisher :
American Chemical Society (ACS), 2022.

Abstract

Early-life arsenic (As) exposure is a particular health concern. However, it is unknown if As ingested early in life is more readily absorbed from the gastrointestinal (GI) tract, i.e., higher in oral bioavailability. Here, weanling (3-week) and adult (6-week-old) female mice were exposed to arsenate in the diet (10 mu g g-1) over a 3-week period with As oral bioavailability estimated using As urinary excretion as the bioavailability endpoint. The As urinary excretion factor was 1.54-fold higher in weanling mice compared to adult mice (82.2 +/- 7.29 versus 53.1 +/- 3.73%), while weanling mice also showed 2.28-, 1.50-, 1.48-, and 1.89-fold higher As concentration in small intestine tissue, blood, liver, and kidneys, demonstrating significantly higher As oral bioavailability of early-life exposure. Compared to adult mice, weanling mice significantly differed in gut microbiota, but the difference did not lead to remarkable differences in As biotransformation in the GI tract or tissue and in overall gut metabolite composition. Although the expression of several metabolites (e.g., atrolactic acid, hydroxyphenyllactic acid, and xanthine) was up-regulated in weanling mice, they had limited ability to elevate As solubility in the intestinal tract. Compared to adult mice, the intestinal barrier function and intestinal expression of phosphate transporters responsible for arsenate absorption were similar in weanling mice. However, the small intestine of weanling mice was characterized by more defined intestinal villi with greater length and smaller width, providing a greater surface area for As to be absorbed across the GI barrier. The results highlight that early-life As exposure can be more readily absorbed, advancing the understanding of its health risk. Refereed/Peer-reviewed

Details

ISSN :
15205851 and 0013936X
Volume :
57
Database :
OpenAIRE
Journal :
Environmental Science & Technology
Accession number :
edsair.doi.dedup.....eb037f7d6da3abb0b162e8fe58c6c1d5
Full Text :
https://doi.org/10.1021/acs.est.2c04584