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Changes in Activities of MMP in Alcohol and Thermally Oxidized Sunflower Oil-Induced Liver Damage: NAC Antioxidant Therapy.

Toxicology mechanisms and methods
May 5, 2006
Suresh Varma Penumathsa et al. (4 authors)
Journal ArticleAnimal Study
Study Details

Study Goal

The researchers aimed to investigate the hepatotoxic effects of thermally oxidized sunflower oil (rich in PUFA) and alcohol, and whether N-acetyl cysteine (NAC) could reverse liver damage.

Results Summary

Thermally oxidized sunflower oil and alcohol caused liver damage, evidenced by altered matrix metalloproteinases (MMPs), but NAC treatment effectively modulated these effects, reversing liver damage biochemically.

Population

Male Wistar rats

Effective Dosage

Thermally oxidized sunflower oil (15%), alcohol (20%), NAC (150 mg/kg body weight)

Duration

Not specified

Interactions

None mentioned

Extracted Claims (13)
InterventionDirectionEndpointPopulationDosageImpactClaim #
alcohol
increase
redox state
-
-
increase in redox state
#1
alcohol
decrease
tricarboxylic acid cycle activity
-
-
inhibits
#2
alcohol
decrease
fatty acid oxidation
-
-
inhibits
#3
alcohol
increase
fatty acid uptake
-
-
increases
#4
alcohol
increase
fatty liver
-
-
predisposing
#5
diets rich in PUFA
increase
fibrotic changes induced by alcohol
-
-
provoked
#6
Heating of oils rich in PUFA
increase
toxic volatile and nonvolatile compounds
-
-
produces
#7
toxic volatile and nonvolatile compounds
increase
liver damage
-
-
aggravate
#8
alcohol (20%) and thermally oxidized sunflower oil (Delta PUFA) (15%)
increase
Hepatotoxicity
male Wistar rats
-
induced
#9
N-acetyl cyteine (NAC) (150 mg/kg body weight)
decrease
liver damage
male Wistar rats
-
reversal
#10
alcohol, Delta PUFA, and alcohol + Delta PUFA
no change
Matrix metalloproteinases (MMPs)
-
-
altered
#11
treatment with NAC
no change
altered activities of MMPs
-
-
modulated
#12
NAC
decrease
effect of alcohol and Delta PUFA-induced liver damage
-
-
modulate
#13
Abstract

Liver fibrosis is the result of imbalance between extracellular matrix (ECM) synthesis and breakdown. Ethanol-induced increase in redox state is a sign of major change in hepatic metabolism and this inhibits tricarboxylic acid cycle activity and, fatty acid oxidation and increases fatty acid uptake, thus predisposing fatty liver. Fibrotic changes induced by alcohol are provoked by diets rich in PUFA. Heating of oils rich in PUFA produces toxic volatile and nonvolatile compounds, which aggravate liver damage. Hepatotoxicity was induced in male Wistar rats by administering alcohol (20%) and thermally oxidized sunflower oil (Delta PUFA) (15%). When N-acetyl cyteine (NAC) (150 mg/kg body weight), an ROS scavenger, was administered, there was a reversal of liver damage, which was demonstrated biochemically. Matrix metalloproteinases (MMPs), being potential biochemical indicators of fibroproliferation, were estimated in the present study, which were found to be altered in alcohol, Delta PUFA, and alcohol + Delta PUFA. The altered activities of MMPs in these groups were effectively modulated by treatment with NAC. Thus, in this study, NAC was found to modulate the effect of alcohol and Delta PUFA-induced liver damage.

Study Links
Quality Scores
Safety30
Efficacy65/10
Quality70/10
Citation Metrics
Total Citations9
Citations/Year0.5
Relative Citation Ratio0.29
NIH Percentile14.9%
Research Impact Scores
APT Score0.05
Weight Score0.42
Normalized Score0.52
Related Supplements
Changes in Activities of MMP in Alcohol and Thermally Oxidiz... | Panacea Index