Extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition
Abstract Malnutrition impacts approximately 50 million children worldwide and is linked to 45% of global mortality in children below the age of five. Severe acute malnutrition (SAM) is associated with intestinal barrier breakdown and epithelial atrophy. Extracellular vesicles including exosomes (EVs...
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Nature Publishing Group
2021-04-01
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| Series: | Scientific Reports |
| Online Access: | https://doi.org/10.1038/s41598-021-86920-w |
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doaj-b60688e4190a4b43bfa850b3d11dbccf2021-04-11T11:33:11ZengNature Publishing GroupScientific Reports2045-23222021-04-0111111410.1038/s41598-021-86920-wExtracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutritionMohamed Karim Maghraby0Bo Li1Lijun Chi2Catriona Ling3Abderrahim Benmoussa4Patrick Provost5Andrea C. Postmus6Abdirahman Abdi7Agostino Pierro8Celine Bourdon9Robert H. J. Bandsma10Department of Nutritional Sciences, School of Graduate Studies, University of TorontoTranslational Medicine Program, Hospital for Sick ChildrenTranslational Medicine Program, Hospital for Sick ChildrenDepartment of Nutritional Sciences, School of Graduate Studies, University of TorontoCentre de Recherche du CHU Sainte-JustineDepartment of Microbiology-Infectious Disease and Immunity, Faculty of Medicine, CHUQ Research Center/CHUL, Université LavalFaculty of Medical Sciences, University of GroningenKEMRI-Wellcome Trust Research ProgrammeTranslational Medicine Program, Hospital for Sick ChildrenTranslational Medicine Program, Hospital for Sick ChildrenTranslational Medicine Program, Hospital for Sick ChildrenAbstract Malnutrition impacts approximately 50 million children worldwide and is linked to 45% of global mortality in children below the age of five. Severe acute malnutrition (SAM) is associated with intestinal barrier breakdown and epithelial atrophy. Extracellular vesicles including exosomes (EVs; 30–150 nm) can travel to distant target cells through biofluids including milk. Since milk-derived EVs are known to induce intestinal stem cell proliferation, this study aimed to examine their potential efficacy in improving malnutrition-induced atrophy of intestinal mucosa and barrier dysfunction. Mice were fed either a control (18%) or a low protein (1%) diet for 14 days to induce malnutrition. From day 10 to 14, they received either bovine milk EVs or control gavage and were sacrificed on day 15, 4 h after a Fluorescein Isothiocyanate (FITC) dose. Tissue and blood were collected for histological and epithelial barrier function analyses. Mice fed low protein diet developed intestinal villus atrophy and barrier dysfunction. Despite continued low protein diet feeding, milk EV treatment improved intestinal permeability, intestinal architecture and cellular proliferation. Our results suggest that EVs enriched from milk should be further explored as a valuable adjuvant therapy to standard clinical management of malnourished children with high risk of morbidity and mortality.https://doi.org/10.1038/s41598-021-86920-w |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Mohamed Karim Maghraby Bo Li Lijun Chi Catriona Ling Abderrahim Benmoussa Patrick Provost Andrea C. Postmus Abdirahman Abdi Agostino Pierro Celine Bourdon Robert H. J. Bandsma |
| spellingShingle |
Mohamed Karim Maghraby Bo Li Lijun Chi Catriona Ling Abderrahim Benmoussa Patrick Provost Andrea C. Postmus Abdirahman Abdi Agostino Pierro Celine Bourdon Robert H. J. Bandsma Extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition Scientific Reports |
| author_facet |
Mohamed Karim Maghraby Bo Li Lijun Chi Catriona Ling Abderrahim Benmoussa Patrick Provost Andrea C. Postmus Abdirahman Abdi Agostino Pierro Celine Bourdon Robert H. J. Bandsma |
| author_sort |
Mohamed Karim Maghraby |
| title |
Extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition |
| title_short |
Extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition |
| title_full |
Extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition |
| title_fullStr |
Extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition |
| title_full_unstemmed |
Extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition |
| title_sort |
extracellular vesicles isolated from milk can improve gut barrier dysfunction induced by malnutrition |
| publisher |
Nature Publishing Group |
| series |
Scientific Reports |
| issn |
2045-2322 |
| publishDate |
2021-04-01 |
| description |
Abstract Malnutrition impacts approximately 50 million children worldwide and is linked to 45% of global mortality in children below the age of five. Severe acute malnutrition (SAM) is associated with intestinal barrier breakdown and epithelial atrophy. Extracellular vesicles including exosomes (EVs; 30–150 nm) can travel to distant target cells through biofluids including milk. Since milk-derived EVs are known to induce intestinal stem cell proliferation, this study aimed to examine their potential efficacy in improving malnutrition-induced atrophy of intestinal mucosa and barrier dysfunction. Mice were fed either a control (18%) or a low protein (1%) diet for 14 days to induce malnutrition. From day 10 to 14, they received either bovine milk EVs or control gavage and were sacrificed on day 15, 4 h after a Fluorescein Isothiocyanate (FITC) dose. Tissue and blood were collected for histological and epithelial barrier function analyses. Mice fed low protein diet developed intestinal villus atrophy and barrier dysfunction. Despite continued low protein diet feeding, milk EV treatment improved intestinal permeability, intestinal architecture and cellular proliferation. Our results suggest that EVs enriched from milk should be further explored as a valuable adjuvant therapy to standard clinical management of malnourished children with high risk of morbidity and mortality. |
| url |
https://doi.org/10.1038/s41598-021-86920-w |
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