False neurotransmitter: Difference between revisions

False neurotransmitter

False neurotransmitters are chemical compounds that can be taken up by neurons and stored in synaptic vesicles but do not activate the postsynaptic receptors effectively. These compounds can interfere with normal neurotransmission by displacing true neurotransmitters from their storage sites, leading to altered synaptic function.

Mechanism of Action

False neurotransmitters are typically analogs of true neurotransmitters. They are taken up by the same transport proteins and stored in the same synaptic vesicles as the true neurotransmitters. However, when released into the synaptic cleft, they either do not bind to the postsynaptic receptors or bind with much lower efficacy, resulting in reduced or altered synaptic signaling.

Examples

One of the most well-known examples of a false neurotransmitter is octopamine, which can be taken up by adrenergic neurons in place of norepinephrine. Another example is tyramine, which can be converted into octopamine in the body.

Clinical Significance

False neurotransmitters can play a role in various neurological disorders and psychiatric conditions. For instance, the accumulation of false neurotransmitters has been implicated in the pathophysiology of certain types of depression and schizophrenia. Additionally, false neurotransmitters can affect the efficacy of certain pharmacological treatments by interfering with normal neurotransmitter function.

Related Concepts

• Neurotransmitter
• Synaptic transmission
• Synaptic vesicle
• Postsynaptic receptor
• Neurological disorder
• Psychiatric condition

See Also

• Neurotransmitter
• Synaptic transmission
• Synaptic vesicle
• Postsynaptic receptor
• Neurological disorder
• Psychiatric condition

   This article is a neuroscience stub. You can help WikiMD by expanding it!