Mechanism of Ivermectin Facilitation of Human P2X₄ Receptor Channels

Keyphrases

• Antiparasitic Agents 11%
• Apparent Affinity 11%
• ATP Concentration 11%
• Cell-attached Patch 11%
• Channel Activity 11%
• Complex Kinetics 11%
• Concentration-response 11%
• Current Amplitude 11%
• Deactivation 44%
• Desensitization 11%
• EC50 33%
• HEK293 Cells 11%
• High Affinity 22%
• High Concentration 11%
• Hillslope 11%
• Human Medicine 11%
• Ivermectin 100%
• Low Affinity 22%
• Maximum Current 22%
• Multiple Components 11%
• Open Conformation 11%
• Open Time 11%
• P2X4 Receptor 100%
• Patch-clamp Recording 11%
• Patch-clamp Technique 11%
• Single-unit Recording 11%
• Time Component 11%
• Transmembrane Current 11%
• Veterinary Medicine 11%

Pharmacology, Toxicology and Pharmaceutical Science

• Adenosine Triphosphate 44%
• Antiparasitic Agent 11%
• Desensitization 11%
• EC50 33%
• Ivermectin 100%
• Purinergic P2X4 Receptor 100%

Neuroscience

• Adenosine Triphosphate 44%
• Antiparasitic Agent 11%
• Ivermectin 100%
• Membrane Current 11%
• Patch Clamp 11%
• Purinergic P2X4 Receptor 100%