Oligodendrogliopathy in Multiple Sclerosis: Low Glycolytic Metabolic Rate Promotes Oligodendrocyte Survival.
Malena B RoneQiao-Ling CuiJun FangLi-Chun WangJi ZhangDamla KhanMelissa BedardGuillermina AlmazanSamuel K LudwinRussel JonesTimothy E KennedyJack P AntelPublished in: The Journal of neuroscience : the official journal of the Society for Neuroscience (2017)
The neurologic deficits that characterize multiple sclerosis (MS) reflect disruption of myelin (demyelination) within the CNS and failure of repair (remyelination). We define distinct energy utilization properties of human adult brain-derived oligodendrocytes and oligodendrocyte progenitor cells under conditions of metabolic stress that model the initial relapsing and subsequent progressive phases of MS. The observed changes in energy utilization affect both cell survival and myelination capacity. These processes may be amenable to therapeutic interventions to limit the extent of cumulative tissue injury and to promote repair in MS.