Ring finger protein 216 loss-of-function induces white matter hyperintensities by inhibiting oligodendroglia proliferation.
Wenqing XuKeliang ChenYiwen YuanMin GuoQiang DongMei CuiPublished in: Cell biochemistry and function (2024)
White matter hyperintensities (WMHs) refer to a group of diseases with numerous etiologies while oligodendrocytes remain the centerpiece in the pathogenesis of WMHs. Ring Finger Protein 216 (RNF216) encodes a ubiquitin ligase, and its mutation begets WMHs, ataxia, and cognitive decline in patients. Yet no study has revealed the function of RNF216 in oligodendroglia and WHIs before. In this study, we summarized the phenotypes of RNF216-mutation cases and explored the normal distribution of RNF216 in distinct brain regions and neuronal cells by bioinformatic analysis. Furthermore, MO3.13, a human oligodendrocyte cell line, was applied to study the function alteration after RNF216 knockdown. As a result, WMHs were the most common symptom in RNF216-mutated diseases, and RNF216 was indeed relatively enriched in corpus callosum and oligodendroglia in humans. The downregulation of RNF216 in oligodendroglia remarkably hampered cell proliferation by inhibiting the Akt pathway while having no significant effect on cell injury and oligodendrocyte maturation. Combining clinical, bioinformatical, and experimental evidence, our study implied the pivotal role of RNF216 in WMHs which might serve as a potent target in the therapy of WMHs.
Keyphrases
- white matter
- cell proliferation
- signaling pathway
- cognitive decline
- dna damage response
- end stage renal disease
- induced apoptosis
- mild cognitive impairment
- ejection fraction
- bone marrow
- cell cycle
- dna damage
- brain injury
- prognostic factors
- subarachnoid hemorrhage
- peritoneal dialysis
- pi k akt
- amino acid
- cerebral ischemia