5.2:

Neurochemical Transmission: Sites of Drug Action

JoVE Core
Pharmacology
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JoVE Core Pharmacology
Neurochemical Transmission: Sites of Drug Action

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01:26 min

September 22, 2023

Neurochemical transmission, the conduction of electrical impulses between neurons mediated by neurotransmitters, plays a vital role in various physiological processes. Autonomic drugs exert their effects by modulating neurotransmission within the autonomic nervous system. For instance, drugs such as hemicholinium block the precursor uptake necessary for synthesizing acetylcholine, an essential autonomic neurotransmitter. Following synthesis, neurotransmitters are stored in vesicles. Metyrosine and vesamicol inhibit acetylcholine synthesis and its storage in the vesicles. Upon the arrival of an electrical impulse at the axonal terminal, Ca2+ influx occurs, leading to the exocytosis of neurotransmitters, enzymes, and other proteins into the synaptic cleft. Latrotoxins from black widow spider venom promote uncontrolled neuro-exocytosis, whereas botulinum toxin inhibits acetylcholine release.

Following release, neurotransmitters bind to specific receptors on the postjunctional neuron and induce excitatory or inhibitory postsynaptic potential. Nicotine and similar drugs act on the nicotinic receptor as agonists and stimulate the receptor by opening the ion channel in the postsynaptic membrane. In contrast, atropine acts as a muscarinic receptor antagonist and prevents receptor stimulation. Post transmission, neurotransmitters are either taken up by the presynaptic neuron by active reuptake or undergo degradation. For instance, the enzyme acetylcholinesterase degrades acetylcholine into choline and acetate. Norepinephrine transporter reuptakes noradrenaline into the presynaptic neuron. Drugs such as hemicholinium and cocaine block this neuronal reuptake, prolonging neurotransmitter action. Understanding these complex interactions is crucial for developing treatments for neurological disorders and maintaining a healthy nervous system.