Pietro Sica, Maria Antonia Domingues, Layna Amorim Mota, Alana Uchôa Pinto, Ana Angelita Sampaio Baptista, Jorge Horii, Adibe Luiz Abdalla, Antonio Sampaio Baptista
{"title":"补充活性酵母如何减少黄曲霉毒素对 Wistar 大鼠的有害影响?放射性标记检测和组织病理学研究","authors":"Pietro Sica, Maria Antonia Domingues, Layna Amorim Mota, Alana Uchôa Pinto, Ana Angelita Sampaio Baptista, Jorge Horii, Adibe Luiz Abdalla, Antonio Sampaio Baptista","doi":"10.1007/s11274-024-03981-5","DOIUrl":null,"url":null,"abstract":"<p>The aim of this study was to investigate the mechanisms by which yeasts (<i>Saccharomyces cerevisiae)</i> control the toxic effects of aflatoxins, which are not yet fully understood. Radiolabeled aflatoxin B<sub>1</sub> (AFB<sub>1</sub><sup>3</sup>H) was administered by gavage to Wistar rats fed with aflatoxin (AflDiet) and aflatoxin supplemented with active dehydrated yeast Y904 (AflDiet + Yeast). The distribution of AFB<sub>1</sub><sup>3</sup>H and its metabolites were analyzed at 24, 48 and 72 h by tracking back of the radioactivity. No significant differences were observed between the AflDiet and AflDiet + Yeast groups in terms of the distribution of labeled aflatoxin. At 72 h, for the AflDiet group the radiolabeled aflatoxin was distributed as following: feces (79.5%), carcass (10.5%), urine (1.7%), and intestine (7.4%); in the AflDiet + Yeast the following distribution was observed: feces (76%), carcass (15%), urine (2.9%), and intestine (4.9%). These values were below 1% in other organs. These findings indicate that even after 72 h considerable amounts of aflatoxins remains in the intestines, which may play a significant role in the distribution and metabolism of aflatoxins and its metabolites over time. The presence of yeast may not significantly affect this process. Furthermore, histopathological examination of hepatic tissues showed that the presence of active yeast reduced the severity of liver damage caused by aflatoxins, indicating that yeasts control aflatoxin damage through biochemical mechanisms. These findings contribute to a better understanding of the mechanisms underlying the protective effects of yeasts against aflatoxin toxicity.</p><h3 data-test=\"abstract-sub-heading\">Graphical abstract</h3>","PeriodicalId":23744,"journal":{"name":"World Journal of Microbiology and Biotechnology","volume":"48 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-04-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"How does active yeast supplementation reduce the deleterious effects of aflatoxins in Wistar rats? A radiolabeled assay and histopathological study\",\"authors\":\"Pietro Sica, Maria Antonia Domingues, Layna Amorim Mota, Alana Uchôa Pinto, Ana Angelita Sampaio Baptista, Jorge Horii, Adibe Luiz Abdalla, Antonio Sampaio Baptista\",\"doi\":\"10.1007/s11274-024-03981-5\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>The aim of this study was to investigate the mechanisms by which yeasts (<i>Saccharomyces cerevisiae)</i> control the toxic effects of aflatoxins, which are not yet fully understood. Radiolabeled aflatoxin B<sub>1</sub> (AFB<sub>1</sub><sup>3</sup>H) was administered by gavage to Wistar rats fed with aflatoxin (AflDiet) and aflatoxin supplemented with active dehydrated yeast Y904 (AflDiet + Yeast). The distribution of AFB<sub>1</sub><sup>3</sup>H and its metabolites were analyzed at 24, 48 and 72 h by tracking back of the radioactivity. No significant differences were observed between the AflDiet and AflDiet + Yeast groups in terms of the distribution of labeled aflatoxin. At 72 h, for the AflDiet group the radiolabeled aflatoxin was distributed as following: feces (79.5%), carcass (10.5%), urine (1.7%), and intestine (7.4%); in the AflDiet + Yeast the following distribution was observed: feces (76%), carcass (15%), urine (2.9%), and intestine (4.9%). These values were below 1% in other organs. These findings indicate that even after 72 h considerable amounts of aflatoxins remains in the intestines, which may play a significant role in the distribution and metabolism of aflatoxins and its metabolites over time. The presence of yeast may not significantly affect this process. Furthermore, histopathological examination of hepatic tissues showed that the presence of active yeast reduced the severity of liver damage caused by aflatoxins, indicating that yeasts control aflatoxin damage through biochemical mechanisms. 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How does active yeast supplementation reduce the deleterious effects of aflatoxins in Wistar rats? A radiolabeled assay and histopathological study
The aim of this study was to investigate the mechanisms by which yeasts (Saccharomyces cerevisiae) control the toxic effects of aflatoxins, which are not yet fully understood. Radiolabeled aflatoxin B1 (AFB13H) was administered by gavage to Wistar rats fed with aflatoxin (AflDiet) and aflatoxin supplemented with active dehydrated yeast Y904 (AflDiet + Yeast). The distribution of AFB13H and its metabolites were analyzed at 24, 48 and 72 h by tracking back of the radioactivity. No significant differences were observed between the AflDiet and AflDiet + Yeast groups in terms of the distribution of labeled aflatoxin. At 72 h, for the AflDiet group the radiolabeled aflatoxin was distributed as following: feces (79.5%), carcass (10.5%), urine (1.7%), and intestine (7.4%); in the AflDiet + Yeast the following distribution was observed: feces (76%), carcass (15%), urine (2.9%), and intestine (4.9%). These values were below 1% in other organs. These findings indicate that even after 72 h considerable amounts of aflatoxins remains in the intestines, which may play a significant role in the distribution and metabolism of aflatoxins and its metabolites over time. The presence of yeast may not significantly affect this process. Furthermore, histopathological examination of hepatic tissues showed that the presence of active yeast reduced the severity of liver damage caused by aflatoxins, indicating that yeasts control aflatoxin damage through biochemical mechanisms. These findings contribute to a better understanding of the mechanisms underlying the protective effects of yeasts against aflatoxin toxicity.
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