Oleic Acid Facilitates Cd Excretion by Increasing the Abundance of Burkholderia in Cd-Exposed Mice

Fang, Zhijia; Chen, Yinyan; Li, Yongbin; Sun, Lijun; Deng, Qi; Wang, Jingwen; Gooneratne, Ravi

doi:10.3390/ijms232314718

Cited by 8 publications

(8 citation statements)

References 71 publications

(83 reference statements)

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“…In addition, oral administration of Akkermansia muciniphila was found to reduce Cd accumulation in the kidneys and livers of mice [57]. Burkholderia is able to promote Cd excretion by secreting extracellular polymeric substances [27]. Similar in vivo effects were unveiled in the current study when the GM was treated with Thr, leading to significant improvement in the proportion of Escherichia-Shigella, promotion of Cd excretion, and reduction of adverse histopathological changes in guts since fecal excretion is one of the ways for microbiota to detoxify heavy metals [58].…”

Section: Discussionmentioning

confidence: 99%

“…The abundance of the Clostridium, Lactobacillus, Pseudomonas, and Enterobacterium genus decreased in the guts of Cd-exposed mice [26]. GM also plays a significant role in inhibiting the absorption of Cd in mice [22,27]. Previous studies have described the use of probiotics such as Lactobacillus plantarum HD 48 and CCFM8610 to reduce the level of Cd in the gut [22,25,28].…”

Section: Introductionmentioning

confidence: 99%

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Threonine Facilitates Cd Excretion by Increasing the Abundance of Gut Escherichia coli in Cd-Exposed Mice

Fang

Zhou

et al. 2022

Molecules

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Cadmium (Cd) can easily enter the body through the food chain and threaten health since Cd pollution is prevalent in the environment. Gut microbiota is necessary for the reduction of metal ions. To reduce Cd-induced harmful impacts and Cd accumulation in the body, we investigated the effect of amino acids on gut microbiota and Cd excretion in (fecal Cd) Cd-exposed mice. The screening of 20 amino acids showed that threonine (Thr) effectively increased fecal Cd, and reduced Cd-induced intestinal structural damage. The abundance of Escherichia-Shigella genus and KF843036_g significantly increased after the oral administration of Thr. As the type species of the Escherichia-Shigella genus, Escherichia coli exhibited high similarity to KF843036_g species and significantly decreased Cd-induced gut damage. Cd contents in the liver, kidney, and gut of Cd-exposed mice were also significantly (p < 0.05) decreased after E. coli treatment, while the contents in the feces were increased. The results demonstrated the potential roles that gut E. coli might play in Thr-mediated Cd excretion in Cd-exposed mice. The findings may provide important data for better understanding the molecular biological mechanism of Thr in reducing Cd accumulation in the body.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Threonine Facilitates Cd Excretion by Increasing the Abundance of Gut Escherichia coli in Cd-Exposed Mice

Fang

Zhou

et al. 2022

Molecules

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“…In addition, fish oil rich in unsaturated fatty acids can regulate gut microbiota [ 13 , 14 ]. Our previous studies have shown that adding the unsaturated fatty acid oleic acid (OA) can reduce Cd accumulation, promote Cd excretion, and significantly restore the diversity of the gut microbiota, confirming the ability of OA to reduce Cd [ 15 ]. Therefore, unsaturated fatty acids can potentially treat Cd poisoning and regulate the gut microbiota.…”

Section: Introductionmentioning

confidence: 95%

“…Studies have shown that Cd exposure disrupts the gut microbiota in mice, leading to increased gut permeability [ 24 ] and a reduced abundance of probiotics such as Lactobacillus and Bifidobacteria [ 25 , 26 ]. Some gut probiotics also play an essential role in promoting Cd excretion [ 15 , 27 ]. For example, in mouse models, Lactobacillus plantarum CCFM8610 can reduce Cd accumulation in organs by increasing Cd levels in feces [ 28 , 29 ].…”

Section: Introductionmentioning

confidence: 99%

Docosahexaenoic Acid Promotes Cd Excretion by Restoring the Abundance of Parabacteroides in Cd-Exposed Mice

Liao

Fang

et al. 2023

Molecules

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As a common harmful pollutant, cadmium (Cd) can easily enter the human body through the food chain, posing a major threat to human health. Gut microbiota play a key role in Cd absorption. Docosahexaenoic acid (DHA) is thought to have a potential role in the treatment of Cd poisoning. This study investigated the therapeutic effect and mechanism of DHA in Cd-exposed mice from the perspective of the gut microbiota. The results showed that DHA significantly increased the Cd content in feces and decreased the Cd accumulation in the organs of mice. The gut microbiota results showed that DHA significantly restored the abundance of Parabacteroides in the gut microbiota of Cd-exposed mice. Parabacteroides distasonis (P. distasonis), a representative strain of the Parabacteroides, also showed Cd- and toxicity-reduction capabilities. P. distasonis significantly restored the gut damage caused by Cd exposure. At the same time, P. distasonis reduced the Cd content in the liver, spleen, lung, kidneys, gut, and blood to varying degrees and significantly increased the Cd content in feces. The succinic acid produced by P. distasonis plays an important role in promoting Cd excretion in Cd-exposed mice. Therefore, these results suggest that P. distasonis may have a potential role in DHA-mediated Cd excretion in Cd-exposed mice.

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“…Bacillus licheniformis CK1 may degrade ZEN in Lactobacillus broth by producing extracellular chitinase, cellulase, and protease enzymes [131]. Oleic acid promotes Cd excretion by increasing the abundance of Burkholderia [132]. Probiotics and postbiotics can have antioxidant properties and scavenge free radicals.…”

Section: Functional Mechanisms Of Probiotics and Postbioticsmentioning

confidence: 99%

From probiotics to postbiotics: Concepts and applications

Liu

Yuan

Zhou

et al. 2023

Animal Research and One Health

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In recent years, the important role of gut microbiota in promoting animal health and regulating immune function in livestock and poultry has been widely reported. The issue of animal health problems causes significant economic losses each year. Probiotics and postbiotics have been widely developed as additives due to their beneficial effects in balancing host gut microbiota, enhancing intestinal epithelial barrier, regulating immunity, and whole‐body metabolism. Probiotics and postbiotics are composed of complex ingredients, with different components and compositions having different effects, requiring classification for discussing their mechanisms of action. Probiotics and postbiotics have considerable prospects in preventing various diseases in the livestock industry and animal feed and medical applications. This review highlights the application value of probiotics and postbiotics as potential probiotic products, emphasizing their concept, mechanism of action, and application, to improve the productivity of livestock and poultry.

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Oleic Acid Facilitates Cd Excretion by Increasing the Abundance of Burkholderia in Cd-Exposed Mice

Cited by 8 publications

References 71 publications

Threonine Facilitates Cd Excretion by Increasing the Abundance of Gut Escherichia coli in Cd-Exposed Mice

Threonine Facilitates Cd Excretion by Increasing the Abundance of Gut Escherichia coli in Cd-Exposed Mice

Docosahexaenoic Acid Promotes Cd Excretion by Restoring the Abundance of Parabacteroides in Cd-Exposed Mice

From probiotics to postbiotics: Concepts and applications

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