Journal of Extracellular Vesicles (Sep 2022)

Liver‐originated small extracellular vesicles with TM4SF5 target brown adipose tissue for homeostatic glucose clearance

  • Jae Woo Jung,
  • Ji Eon Kim,
  • Eunmi Kim,
  • Hyejin Lee,
  • Haesong Lee,
  • Eun‐Ae Shin,
  • Jung Weon Lee

DOI
https://doi.org/10.1002/jev2.12262
Journal volume & issue
Vol. 11, no. 9
pp. n/a – n/a

Abstract

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Abstract Transmembrane 4 L six family member 5 (TM4SF5) is involved in chronic liver disease, although its role in glucose homeostasis remains unknown. TM4SF5 deficiency caused age‐dependent glucose (in)tolerance with no link to insulin sensitivity. Further, hepatic TM4SF5 binding to GLUT1 promoted glucose uptake and glycolysis. Excessive glucose repletion caused hepatocytes to secrete small extracellular vesicles (sEVs) loaded with TM4SF5 (hep‐sEVTm4sf5), suggesting a role for sEVTm4sf5 in glucose metabolism and homeostasis. Hep‐sEVTm4sf5 were smaller than sEVControl and recruit proteins for efficient organ tropism. Liver‐derived sEVs, via a liver‐closed vein circuit (LCVC) using hepatic TM4SF5‐overexpressing (Alb‐Tm4sf5 TG) mice (liv‐sEVTm4sf5), improved glucose tolerance in Tm4sf5−/− KO mice and targeted brown adipose tissues (BATs), possibly allowing the clearance of blood glucose as heat independent of UCP1. Taken together, hep‐sEVTm4sf5 might clear high extracellular glucose levels more efficiently by targeting BAT compared with hep‐sEVControl, suggesting an insulin‐like role for sEV™4SF5 in affecting age‐related metabolic status and thus body weight (BW).

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