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Selective Ablation of <i>Sod2</i> in Astrocytes Induces Sex-Specific Effects on Cognitive Function, d-Serine Availability, and Astrogliosis

Matthew P. Baier, Raghavendra Y. Nagaraja, Hannah P. Yarbrough, Daniel B. Owen, Anthony M. Masingale, Rojina Ranjit, Megan Stiles, Ashley R. Murphy, Martin‐Paul Agbaga, Mohiuddin Ahmad, David M. Sherry, Michael Kinter, Holly Van Remmen, Sreemathi Logan

2022Journal of Neuroscience20 citationsDOIOpen Access PDF

Abstract

Cognitive decline is a debilitating aspect of aging and neurodegenerative diseases such as Alzheimer's disease are closely associated with mitochondrial dysfunction, increased reactive oxygen species, neuroinflammation, and astrogliosis. This study investigated the effects of decreased mitochondrial antioxidant response specifically in astrocytes on cognitive performance and neuronal function in C57BL/6J mice using a tamoxifen-inducible astrocyte-specific knockout of manganese superoxide dismutase (aSOD2-KO), a mitochondrial matrix antioxidant that detoxifies superoxide generated during mitochondrial respiration. We reduced astrocyte SOD2 levels in male and female mice at 11-12 months of age and tested in an automated home cage (PhenoTyper) apparatus for diurnal patterns, spatial learning, and memory function at 15 months of age. aSOD2-KO impaired hippocampal-dependent spatial working memory and decreased cognitive flexibility in the reversal phase of the testing paradigm in males. Female aSOD2-KO showed no learning and memory deficits compared with age-matched controls despite significant reduction in hippocampal SOD2 expression. aSOD2-KO males further showed decreased hippocampal long-term potentiation, but paired-pulse facilitation was unaffected. Levels of D-serine, an NMDA receptor coagonist, were also reduced in aSOD2-KO mice, but female knockouts showed a compensatory increase in serine racemase expression. Furthermore, aSOD2-KO mice demonstrated increased density of astrocytes, indicative of astrogliosis, in the hippocampus compared with age-matched controls. These data demonstrate that reduction in mitochondrial antioxidant stress response in astrocytes recapitulates age-related deficits in cognitive function, D-serine availability, and astrogliosis. Therefore, improving astrocyte mitochondrial homeostasis may provide a therapeutic target for intervention for cognitive impairment in aging.

Topics & Concepts

AstrogliosisSOD2EndocrinologyInternal medicineAstrocyteHippocampal formationNeuroinflammationCognitive declineSuperoxide dismutaseBiologyNeuroscienceMedicineOxidative stressInflammationDementiaCentral nervous systemDiseaseAmino Acid Enzymes and MetabolismTryptophan and brain disordersNeuroscience and Neuropharmacology Research