Liver-derived extracellular vesicles improve whole-body glycaemic control via inter-organ communication

Affiliations

¹ Department of Anatomy and Physiology, School of Biomedical Sciences, Faculty of Medicine Dentistry and Health Sciences, University of Melbourne, Melbourne, Victoria, Australia.
² St. Vincent's Institute of Medical Research, Fitzroy, Victoria, Australia.
³ Department of Biochemistry and Chemistry, School of Agriculture, Biomedicine and Environment, La Trobe University, Bundoora, Victoria, Australia.
⁴ Institute for Health and Sport, Victoria University, Footscray, Victoria, Australia.
⁵ Centre for Obesity Research and Education, Department of Surgery, Monash University, Melbourne, Victoria, Australia.
⁶ Department of Medicine, University of Melbourne, Fitzroy, Victoria, Australia.
⁷ Department of Anatomy and Physiology, School of Biomedical Sciences, Faculty of Medicine Dentistry and Health Sciences, University of Melbourne, Melbourne, Victoria, Australia. matt.watt@unimelb.edu.au.

PMID: 38263317
DOI: 10.1038/s42255-023-00971-z

Liver-derived extracellular vesicles improve whole-body glycaemic control via inter-organ communication

Paula M Miotto et al. Nat Metab. 2024 Feb.

. 2024 Feb;6(2):254-272.

doi: 10.1038/s42255-023-00971-z. Epub 2024 Jan 23.

Authors

Affiliations

¹ Department of Anatomy and Physiology, School of Biomedical Sciences, Faculty of Medicine Dentistry and Health Sciences, University of Melbourne, Melbourne, Victoria, Australia.
² St. Vincent's Institute of Medical Research, Fitzroy, Victoria, Australia.
³ Department of Biochemistry and Chemistry, School of Agriculture, Biomedicine and Environment, La Trobe University, Bundoora, Victoria, Australia.
⁴ Institute for Health and Sport, Victoria University, Footscray, Victoria, Australia.
⁵ Centre for Obesity Research and Education, Department of Surgery, Monash University, Melbourne, Victoria, Australia.
⁶ Department of Medicine, University of Melbourne, Fitzroy, Victoria, Australia.
⁷ Department of Anatomy and Physiology, School of Biomedical Sciences, Faculty of Medicine Dentistry and Health Sciences, University of Melbourne, Melbourne, Victoria, Australia. matt.watt@unimelb.edu.au.

PMID: 38263317
DOI: 10.1038/s42255-023-00971-z

Abstract

Small extracellular vesicles (EVs) are signalling messengers that regulate inter-tissue communication through delivery of their molecular cargo. Here, we show that liver-derived EVs are acute regulators of whole-body glycaemic control in mice. Liver EV secretion into the circulation is increased in response to hyperglycaemia, resulting in increased glucose effectiveness and insulin secretion through direct inter-organ EV signalling to skeletal muscle and the pancreas, respectively. This acute blood glucose lowering effect occurs in healthy and obese mice with non-alcoholic fatty liver disease, despite marked remodelling of the liver-derived EV proteome in obese mice. The EV-mediated blood glucose lowering effects were recapitulated by administration of liver EVs derived from humans with or without progressive non-alcoholic fatty liver disease, suggesting broad functional conservation of liver EV signalling and potential therapeutic utility. Taken together, this work reveals a mechanism whereby liver EVs act on peripheral tissues via endocrine signalling to restore euglycaemia in the postprandial state.

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References

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Liver-derived extracellular vesicles improve whole-body glycaemic control via inter-organ communication

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Liver-derived extracellular vesicles improve whole-body glycaemic control via inter-organ communication

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