期刊
GLIA
卷 71, 期 5, 页码 1333-1345出版社
WILEY
DOI: 10.1002/glia.24341
关键词
clemastine; diabetes mellitus; myelination; optic nerve; oligodendroglia
Visual impairment in diabetes is a growing public health concern. Studies show that apart from diabetic retinopathy, disturbed myelin sheath in the optic nerve is also a key factor in visual impairment. Using a diabetic mouse model, researchers discovered that the deposition of new myelin is reduced during the development of the disease. Suppressing the production of new myelin delayed the signal transmission in the adult optic nerve, while enhancing myelination using a certain compound restored the function of the optic nerve in diabetic mice. These findings highlight the importance of myelin deposition and offer a potential target for therapeutic intervention.
Visual impairment in diabetes is a growing public health concern. Apart from the well-defined diabetic retinopathy, disturbed optic nerve function, which is dependent on the myelin sheath, has recently been recognized as an early feature of visual impairment in diabetes. However, the underlying cellular mechanisms remain unclear. Using a streptozotocin-induced diabetic mouse model, we observed a myelin deficiency along with a disturbed composition of oligodendroglial lineage cells in diabetic optic nerve. We found that new myelin deposition, a continuous process that lasts throughout adulthood, was diminished during pathogenesis. Genetically dampening newly generated myelin by conditionally deleting olig2 in oligodendrocyte precursor cells within this short time window extensively delayed the signal transmission of the adult optic nerve. In addition, clemastine, an antimuscarinic compound that enhances myelination, significantly restored oligodendroglia, and promoted the functional recovery of the optic nerve in diabetic mice. Together, our results point to the role of new myelin deposition in optic neuropathy under diabetic insult and provide a promising therapeutic target for restoring visual function.
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