Delivering miR-23b-3p by small extracellular vesicles to promote cell senescence and aberrant lipid metabolism

Aging is a natural process that affects the majority of organs within the organism. The liver, however, plays a pivotal role in maintaining the organism's homeostasis due to its robust regenerative and metabolic capabilities. Nevertheless, the liver also undergoes the effects of aging, which can result in a range of metabolic disorders. The function of extracellular vesicles and the signals they convey represent a significant area of interest within the field of ageing research. However, research on liver ageing from the perspective of EVs remains relatively limited.

Our findings suggest that miR-23b-3p plays a pivotal role in liver aging and is associated with abnormal lipid metabolism. The upregulation of miR-23b-3p in liver EVs may serve as a potential biomarker for aging and metabolic disorders. Targeting miR-23b-3p could provide new therapeutic strategies for ameliorating age-related liver dysfunction and associated metabolic abnormalities.

In the present study, we extracted liver tissue small extracellular vesicles (sEVs) of mice at different ages and performed transcriptome and proteome analyses to investigate the senescence-associated secretory phenotype (SASP) and mechanisms. sEVs in the older group were rich in miR-23b-3p, which was abundant in the sEVs of induced aging cells and promoted cell senescence by targeting TNF alpha induced protein 3 (Tnfaip3). After injecting adeno-associated virus (AAV) expressing miR-23b-3p into mice, the liver of mice in the experimental group displayed a more evident inflammatory response than that in the control group. Additionally, we found elevated miR-23b-3p in blood-derived-sEVs from patients with familial hypercholesterolemia. Conclusions: Our findings suggest that miR-23b-3p plays a pivotal role in liver aging and is associated with abnormal lipid metabolism. The upregulation of miR-23b-3p in liver EVs may serve as a potential biomarker for aging and metabolic disorders. Targeting miR-23b-3p could provide new therapeutic strategies for ameliorating age-related liver dysfunction and associated metabolic abnormalities.