L-ascorbyl-2-phosphate alleviates white matter injury caused by chronic hypoxia through the PRMT5/P53/NF-κB pathway.
Bingqing DingJia LouTianqi QinWeiwei XieDi LiPeijun LiXingyun WangZhen-Lang LinXiaoling GuoJiang-Hu ZhuPublished in: Journal of neurochemistry (2024)
White matter injury (WMI) is one of the most serious complications associated with preterm births. Damage to oligodendrocytes, which are the key cells involved in WMI pathogenesis, can directly lead to myelin abnormalities. L-ascorbyl-2-phosphate (AS-2P) is a stable form of vitamin C. This study aimed to explore the protective effects of AS-2P against chronic hypoxia-induced WMI, and elucidate the underlying mechanisms. An in vivo chronic hypoxia model and in vitro oxygen-glucose deprivation (OGD) model were established to explore the effects of AS-2P on WMI using immunofluorescence, immunohistochemistry, western blotting, real-time quantitative polymerase chain reaction, Morris water maze test, novel object recognition test, beaming-walking test, electron microscopy, and flow cytometry. The results showed that AS-2P resulted in the increased expression of MBP, Olig2, PDGFRα and CC1, improved thickness and density of the myelin sheath, and reduced TNF-α expression and microglial cell infiltration to alleviate inflammation in the brain after chronic hypoxia. Moreover, AS-2P improved the memory, learning and motor abilities of the mice with WMI. These protective effects of AS-2P may involve the upregulation of protein arginine methyltransferase 5 (PRMT5) and downregulation of P53 and NF-κB. In conclusion, our study demonstrated that AS-2P attenuated chronic hypoxia-induced WMI in vivo and OGD-induced oligodendrocyte injury in vitro possibly by regulating the PRMT5/P53/NF-κB pathway, suggesting that AS-2P may be a potential therapeutic option for WMI.
Keyphrases
- white matter
- signaling pathway
- oxidative stress
- poor prognosis
- lps induced
- flow cytometry
- multiple sclerosis
- induced apoptosis
- pi k akt
- drug induced
- rheumatoid arthritis
- adipose tissue
- spinal cord injury
- inflammatory response
- electron microscopy
- bone marrow
- risk factors
- nuclear factor
- high resolution
- single cell
- small molecule
- cell cycle arrest
- binding protein
- weight loss
- metabolic syndrome
- neuropathic pain
- mass spectrometry
- cell therapy
- insulin resistance
- lower limb
- stress induced
- amino acid
- protein protein