N-acetyl cysteine treatment mitigates biomarkers of oxidative stress in different tissues of bile duct ligated rats.
Mohammad Mehdi OmmatiAli AmjadiniaKhadijeh MousaviNegar AzarpiraAkram JamshidzadehReza HeidariPublished in: Stress (Amsterdam, Netherlands) (2020)
Cholestasis is a multifaceted clinical complication. Obstructive jaundice induced by bile duct ligation (BDL) is known as an animal model to investigate cholestasis and its associated complications. N-acetyl cysteine (NAC) is an antioxidant, radical scavenger, and thiol reductant widely investigated for its cytoprotective properties. The current investigation was designed to evaluate the role of NAC treatment on biomarkers of oxidative stress and organ histopathological alterations in a rat model of cholestasis/cirrhosis. BDL animals were supplemented with NAC (100 and 300 mg/kg, i.p, 42 consecutive days). Biomarkers of oxidative stress in the liver, brain, heart, skeletal muscle, lung, serum, and kidney tissue, as well as organ histopathological changes, were monitored. A significant increase in reactive oxygen species, lipid peroxidation, and protein carbonylation were detected in different tissues of BDL rats. Moreover, tissue antioxidant capacity was hampered, glutathione (GSH) reservoirs were depleted, and oxidized glutathione (GSSG) levels were significantly increased in the BDL group. Significant tissue histopathological alterations were evident in cirrhotic animals. It was found that NAC treatment (100 and 300 mg/kg, i.p) significantly mitigated biomarkers of oxidative stress and alleviated tissue histopathological changes in cirrhotic rats. These data represent NAC as a potential protective agent with therapeutic capability in cirrhosis and its associated complications.HIGHLIGHTSCholestasis is a multifaceted clinical complication that affects different organsOxidative stress plays a pivotal role in cholestasis-associated complicationsTissue antioxidant capacity is hampered in different tissues of cholestatic animalsAntioxidant therapy might play a role in the management of cholestasis-induced organ injuryNAC alleviated biomarkers of oxidative stress in cholestatic animalsNAC significantly improved tissues histopathological alterations in cholestatic rats.
Keyphrases
- oxidative stress
- drug induced
- liver injury
- diabetic rats
- transcription factor
- dna damage
- skeletal muscle
- gene expression
- induced apoptosis
- ischemia reperfusion injury
- reactive oxygen species
- insulin resistance
- stem cells
- genome wide analysis
- radiation therapy
- climate change
- type diabetes
- risk assessment
- atrial fibrillation
- deep learning
- blood brain barrier
- big data
- white matter
- heat shock
- single molecule
- high speed