Litcius/Paper detail

Polychlorinated biphenyls induce oxidative stress and metabolic responses in astrocytes

Mondona S. McCann, Harvey R. Fernandez, Sarah A. Flowers, Kathleen A. Maguire‐Zeiss

2021NeuroToxicology50 citationsDOIOpen Access PDF

Abstract

Exposure to environmental toxicants is prevalent, hazardous and linked to varied detrimental health outcomes and disease. Polychlorinated biphenyls (PCBs), a class of hazardous organic chlorines once widely used for industrial purposes, are associated with neurodegenerative disease and oxidative stress in both in vitro and in vivo models. Here, we investigated the impact of Aroclor 1254, a commercially available PCB mixture, on primary murine astrocytes to determine the response to this once ubiquitously used toxicant on the most numerous cells of the central nervous system (CNS). Astrocytes are a critical component of homeostasis throughout the CNS, including at the blood-brain barrier, where they serve as the primary defense against xenobiotics entering the CNS, and at the synapse, where they are closely coupled to neurons through several metabolic pathways. We hypothesized that PCBs cause astrocytic oxidative stress and related dysfunction including altered metabolism. We exposed primary murine cortical astrocytes to PCBs and report an increased expression of antioxidant genes (Prdx1, Gsta2, Gfap, Amigo2) in response to oxidative stress. Our data show increased ATP production and spare respiratory capacity in astrocytes exposed to 10 μM (∼ 3 ppm) PCBs. This dose also causes an increase in glucose uptake that is not seen at a higher dose (50 μM) suggesting that, at a lower dose, astrocytes are able to engage compensatory mechanisms to promote survival. Together, these data suggest that exposure to PCBs impact astrocytic metabolism, which is important to consider both in the context of human health and disease and in in vitro and in vivo disease models.

Topics & Concepts

Oxidative stressToxicantContext (archaeology)AstrocyteBiologyCentral nervous systemIn vivoToxicityCell biologyPharmacologyChemistryImmunologyNeuroscienceEndocrinologyInternal medicineMedicineGeneticsPaleontologyNeuroinflammation and Neurodegeneration MechanismsNeuroscience and Neuropharmacology ResearchTryptophan and brain disorders