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Pb Toxicity on Gut Physiology and Microbiota
Summary
This review summarizes the effects of lead toxicity on gut physiology and the intestinal microbiota across animal models and humans. Researchers found that lead exposure disrupts the gut barrier, alters microbial community composition, and can promote inflammation in the gastrointestinal tract. The study highlights the gut as an important but often overlooked target of lead toxicity, with implications for understanding how heavy metal exposure affects overall health.
Lead (Pb) is a toxic heavy metal, having profound threats to the global population. Multiple organs such as kidney, and liver, as well as nervous, hematologic, and reproductive systems, are commonly considered the targets of Pb toxicity. Increasing researches reported that the effects of Pb on gastrointestinal tracts are equally intensive, especially on intestinal microbiota. This review summarized Pb toxicity on gut physiology and microbiota in different animal models and in humans, of which the alterations may further have effects on other organs in host. To be more specific, Pb can impair gut barrier and increase gut permeability, which make inflammatory cytokines, immunologic factors, as well as microbial metabolites such as bile acids (BA) and short-chain fatty acids (SCFAs) enter the enterohepatic circulation easily, and finally induce multiple systematic lesion. In addition, we emphasized that probiotic treatment may be one of the feasible and effective strategies for preventing Pb toxicity.
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