Plant-Derived Exosomes as Novel Nanotherapeutics Contrive Glycolysis Reprogramming-Mediated Angiogenesis for Diabetic Ulcer Healing.
Minhong TanYuda LiuYang XuGe YanNan ZhouHaoran ChenZhi-Hong JiangLi-Hua PengPublished in: Biomaterials research (2024)
Reversal of endothelial cell (EC) dysfunction under high-glucose (HG) conditions to achieve angiogenesis has remained a big challenge in diabetic ulcers. Herein, exosomes derived from medicinal plant ginseng (GExos) were shown as excellent nanotherapeutics with biomimetic cell membrane-like structures to be able to efficiently transfer the encapsulated active substances to ECs, resulting in a marked reprogramming of glycolysis by up-regulating anaerobic glycolysis and down-regulating oxidative stress, which further restore the proliferation, migration, and tubule formation abilities of ECs under HG conditions. In vivo, GExos enhance the angiogenesis and nascent vessel network reconstruction in full-thickness diabetic complicated skin ulcer wounds in mice with high biosafety. GExos were shown as promising nanotherapeutics in stimulating glycolysis reprogramming-mediated angiogenesis in diabetic ulcers, possessing wide application potential for reversing hyperglycemic dysangiogenesis and stimulating vascular regeneration.
Keyphrases
- wound healing
- endothelial cells
- high glucose
- oxidative stress
- stem cells
- mesenchymal stem cells
- type diabetes
- wastewater treatment
- dna damage
- microbial community
- high resolution
- signaling pathway
- risk assessment
- insulin resistance
- skeletal muscle
- metabolic syndrome
- machine learning
- adipose tissue
- human health
- drinking water
- artificial intelligence
- heat shock
- high fat diet induced