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Thiram induces myocardial oxidative damage and apoptosis in broilers via interfering their cardiac metabolism

Quan Mo, Muhammad Fakhar‐e‐Alam Kulyar, Yanmei Ding, Yan Zhang, Huachun Pan, Jiakui Li

2022Ecotoxicology and Environmental Safety25 citationsDOIOpen Access PDF

Abstract

), a decrease in T-AOC, and antioxidant activity enzymes (T-SOD, GST and GPX) were also noticed, all of which led to oxidative stress and activation of Nrf2 signal pathway by up-regulating key target genes (HO-1 and SODs). Thiram-induced metabolites were further identified via non-targeted metabonomic analysis. Correlation analysis revealed eighteen differentially expressed metabolites, closely related to cardiac injury. Importantly, thiram primarily affected the taurine and hypotaurine metabolism, pyrimidine metabolism as well as glycerol metabolism. Collectively, our study suggests that thiram could cause cardiotoxicity by interfering with taurine and hypotaurine metabolism, pyrimidine metabolism, and glycerolipid metabolism, which further induce oxidative stress via triggering Nrf2 signal pathway. This study may provide new evidence for the molecular mechanism of cardiotoxicity caused by thiram and resonate the alarm for animals and workers who have been exposed to thiram for a long time.

Topics & Concepts

ThiramOxidative stressPharmacologyLipid peroxidationChemistryNitric oxideHeat shock proteinNitric oxide synthaseToxicityAntioxidantInternal medicineEndocrinologyBiochemistryBiologyMedicinePesticideGeneAgronomyPesticide Exposure and ToxicityEnvironmental Toxicology and EcotoxicologyToxic Organic Pollutants Impact
Thiram induces myocardial oxidative damage and apoptosis in broilers via interfering their cardiac metabolism | Litcius