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Oligodendroglial Energy Metabolism and (re)Myelination

Vanja Tepavčević

2021Life50 citationsDOIOpen Access PDF

Abstract

Central nervous system (CNS) myelin has a crucial role in accelerating the propagation of action potentials and providing trophic support to the axons. Defective myelination and lack of myelin regeneration following demyelination can both lead to axonal pathology and neurodegeneration. Energy deficit has been evoked as an important contributor to various CNS disorders, including multiple sclerosis (MS). Thus, dysregulation of energy homeostasis in oligodendroglia may be an important contributor to myelin dysfunction and lack of repair observed in the disease. This article will focus on energy metabolism pathways in oligodendroglial cells and highlight differences dependent on the maturation stage of the cell. In addition, it will emphasize that the use of alternative energy sources by oligodendroglia may be required to save glucose for functions that cannot be fulfilled by other metabolites, thus ensuring sufficient energy input for both myelin synthesis and trophic support to the axons. Finally, it will point out that neuropathological findings in a subtype of MS lesions likely reflect defective oligodendroglial energy homeostasis in the disease.

Topics & Concepts

NeuroscienceMyelinNeurodegenerationBiologyMultiple sclerosisOligodendrocyteRegeneration (biology)Central nervous systemHomeostasisDemyelinating DisorderNeuroregenerationEnergy metabolismEnergy homeostasisNeurogliaRemyelinationDiseaseCell biologyPathologyMedicineImmunologyEndocrinologyObesityNeurogenesis and neuroplasticity mechanismsMultiple Sclerosis Research StudiesNeuroinflammation and Neurodegeneration Mechanisms
Oligodendroglial Energy Metabolism and (re)Myelination | Litcius