Gut microbiota-derived tryptophan metabolites regulated by Wuji Wan to attenuate colitis through AhR signaling activation

Keyphrases

• Gut Microbiota 100%
• Colitis 100%
• Tryptophan Metabolites 100%
• Aryl Hydrocarbon Receptor Signaling 100%
• Signaling Activation 100%
• Wuji Wan 100%
• Inflammatory Bowel Disease 42%
• Indole-3-acetic Acid 28%
• Colonic Inflammation 28%
• Therapeutic Approaches 14%
• Therapeutic Potential 14%
• Acid Activation 14%
• Therapeutic Effect 14%
• Signaling Pathway 14%
• Traditional Chinese Medicine 14%
• Pharmacological Effects 14%
• Mouse Colitis 14%
• Experimental Colitis 14%
• Tryptophan 14%
• Beneficial Effects 14%
• Receptor Activation 14%
• Aryl Hydrocarbon Receptor 14%
• Metabolic Imbalance 14%
• Indole Derivatives 14%
• Intestinal mucosa 14%
• Gut Dysbiosis 14%
• Barrier Proteins 14%
• Tryptophan Metabolism 14%
• Intestinal Barrier Function 14%
• Intestinal Microbiota 14%
• Lactobacillus 14%
• Sequence Method 14%
• Functional Metabolomics 14%
• Underlying Pathology 14%
• Gut Barrier Function 14%
• Intestinal Barrier 14%
• Preventive Approach 14%
• Aryl Hydrocarbon Receptor Antagonist 14%
• Digestive System Disorders 14%
• Indoleacrylic Acid 14%
• Aryl Hydrocarbon Receptor Pathway 14%

Pharmacology, Toxicology and Pharmaceutical Science

• Intestine Flora 100%
• Colitis 100%
• Aromatic Hydrocarbon Receptor 100%
• Tryptophan 100%
• Inflammatory Bowel Disease 75%
• Inflammation 50%
• Indoleacetic Acid 50%
• Traditional Chinese Medicine 25%
• Therapeutic Effect 25%
• Experimental Colitis 25%
• Dysbiosis 25%
• Receptor Antagonist 25%
• Lactobacillus 25%
• Indole Derivative 25%