Thioredoxin 1 and Thioredoxin Reductase 1 Redox System Is Dysregulated in Neutrophils of Subjects with Autism: In Vitro Effects of Environmental Toxicant, Methylmercury

Abstract: Autism spectrum disorder (ASD) is a complex developmental disorder in children that results in abnormal communicative and verbal behaviors. Exposure to heavy metals plays a significant role in the pathogenesis or progression of ASD. Mercury compounds pose significant risk for the development of ASD as children are more exposed to environmental toxicants. Increased concentration of mercury compounds has been detected in different body fluids/tissues in ASD children, which suggests an association between mercury… Show more

“…Cadmium also decreases SOD activity and GSH concentration in rat kidneys [25]. Mercury exposure dysregulates the oxidant detoxification system, thioredoxin1, and thioredoxin reductase1 redox system in neutrophils [27]. In summary, heavy metals disrupt the balance of antioxidants, increase harmful ROS, and impair mitochondrial function, disturbing cellular redox homeostasis.…”

“…The increase in MDA levels upon Cd exposure suggests the promotion of lipid peroxidation by ROS in rat kidneys [25]. Mercury increases ROS production in erythrocytes [26] and neutrophils [27].…”

Heavy Metal Exposure: Molecular Pathways, Clinical Implications, and Protective Strategies

“…Cadmium also decreases SOD activity and GSH concentration in rat kidneys [25]. Mercury exposure dysregulates the oxidant detoxification system, thioredoxin1, and thioredoxin reductase1 redox system in neutrophils [27]. In summary, heavy metals disrupt the balance of antioxidants, increase harmful ROS, and impair mitochondrial function, disturbing cellular redox homeostasis.…”

“…The increase in MDA levels upon Cd exposure suggests the promotion of lipid peroxidation by ROS in rat kidneys [25]. Mercury increases ROS production in erythrocytes [26] and neutrophils [27].…”

Heavy Metal Exposure: Molecular Pathways, Clinical Implications, and Protective Strategies

Selenium protects against Pb-induced renal oxidative injury in weaning rats and human renal tubular epithelial cells through activating NRF2

TrxR1 is involved in the activation of Caspase-11 by regulating the oxidative-reductive status of Trx-1