RESUMO
The fifth muscarinic receptor (M5), the last one of the muscarinic receptor family to be cloned, has the same basic formation characterization as G-protein coupled receptor family. M5 transduces signals by coupling with G-proteins, which then modulate the activities of a number of effector enzymes and ion channels. As M5 also plays a variety of prominent physiological roles by regulating central transmitters NO and DA, it has been considered as a novel drug therapy target for drug addiction, dysfunction of dopamine-ergic nervous system, Alzheimers disease and cerebral ischemia.
RESUMO
The fifth muscarinic receptor (M5), the last one of the mus ca rinic receptor family to be cloned, has the same basic formation characterizatio n as G-protein coupled receptor family. M5 transduces signals by coupling with G-proteins, which then modulate the activities of a number of effector enzymes and ion channels. As M5 also plays a variety of prominent physiological roles by regulating central transmitters NO and DA, it has been considered as a novel dr ug therapy target for drug addiction, dysfunction of dopamine-ergic nervous sys tem, Alzheimers disease and cerebral ischemia.