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Age-related injury responses of human oligodendrocytes to metabolic insults: link to BCL-2 and autophagy pathways

Milton Guilherme Forestieri Fernandes, Julia Xiao Xuan Luo, Qiao‐Ling Cui, Kelly Perlman, Florian Pernin, Moein Yaqubi, Jeffery A. Hall, Roy Dudley, Myriam Srour, Charles Couturier, Kevin Petrecca, Catherine Larochelle, Luke M. Healy, Jo Anne Stratton, Timothy E. Kennedy, Jack P. Antel

2021Communications Biology37 citationsDOIOpen Access PDF

Abstract

Myelin destruction and oligodendrocyte (OL) death consequent to metabolic stress is a feature of CNS disorders across the age spectrum. Using cells derived from surgically resected tissue, we demonstrate that young (<age 5) pediatric-aged sample OLs are more resistant to in-vitro metabolic injury than fetal O4+ progenitor cells, but more susceptible to cell death and apoptosis than adult-derived OLs. Pediatric but not adult OLs show measurable levels of TUNEL+ cells, a feature of the fetal cell response. The ratio of anti- vs pro-apoptotic BCL-2 family genes are increased in adult vs pediatric (<age 5) mature OLs and in more mature OL lineage cells. Lysosomal gene expression was increased in adult and pediatric compared to fetal OL lineage cells. Cell death of OLs was increased by inhibiting pro-apoptotic BCL-2 gene and autophagy activity. These distinct age-related injury responses should be considered in designing therapies aimed at reducing myelin injury.

Topics & Concepts

AutophagyLink (geometry)Cell biologyOligodendrocyteNeuroscienceBiologyMedicineApoptosisCentral nervous systemGeneticsComputer scienceMyelinComputer networkNeuroinflammation and Neurodegeneration MechanismsAutophagy in Disease and TherapyImmune cells in cancer
Age-related injury responses of human oligodendrocytes to metabolic insults: link to BCL-2 and autophagy pathways | Litcius