N-acetylcysteine and endothelial cell injury by sulfur mustard

Keyphrases

• N-acetylcysteine 100%
• Endothelial Cell Injury 100%
• Sulfur mustard 100%
• Endothelial Cells 35%
• Buthionine Sulfoximine 21%
• GSH Synthesis 21%
• Induced Activation 14%
• Protective Effect 14%
• Nuclear Transcription Factor 14%
• Electrophoretic Mobility Shift Assay 14%
• Tumor Necrosis Factor-α 7%
• Transcription Factor 7%
• Apoptosis 7%
• Gene Expression 7%
• Cell Death 7%
• Cell Injury 7%
• Inflammatory Response 7%
• Toxic Effects 7%
• Apoptotic Cell Death 7%
• Endothelium 7%
• Fold Increase 7%
• Glutathione 7%
• Consensus Sequence 7%
• Active Agent 7%
• Necrosis 7%
• Endothelial Injury 7%
• Nuclear Extract 7%
• Cytokine Genes 7%
• Oxidizing Agent 7%
• Nuclear Features 7%
• Redox-active 7%
• Endothelial Viability 7%
• Terror 7%
• Endothelial Cell Death 7%
• Oxidative Activation 7%
• Vesicant 7%
• Chemical Warfare 7%
• Scanning Densitometry 7%

Pharmacology, Toxicology and Pharmaceutical Science

• Cysteine 100%
• Acetic Acid Derivative 100%
• Sulfur Mustard 100%
• N-Acetylcysteine 100%
• Transcription Factors 23%
• Buthionine Sulfoximine 23%
• Cytokine 15%
• Electrophoretic Mobility Shift Assay 15%
• Tumor Necrosis Factor 7%
• Inflammation 7%
• Oxidizing Agent 7%
• Necrosis 7%
• Glutathione 7%
• Endothelium Injury 7%

Neuroscience

• Cysteine 100%
• Cell Damage 100%
• Acetylcysteine 100%
• Transcription Factors 23%
• Buthionine Sulfoximine 23%
• Cell Death 15%
• Necrosis 15%
• Electrophoretic Mobility Shift Assay 15%
• Programmed Cell Death 15%
• Cytokine 15%
• Gene Expression 7%
• Consensus Sequence 7%
• Glutathione 7%
• Densitometry 7%
• Oxidizing Agent 7%