How Does Isocarboxazid Work?
Isocarboxazid belongs to a class of medications called monoamine oxidase inhibitors (MAOIs).
To better understand how these medications work, it is important to understand how brain cells communicate with each other. Monoamines are special chemicals that carry messages from one brain cell to another. These messages can include information about many things, including your emotions. Some examples of the monoamines that help transmit these messages include:
- Several others.
When a message (electrical impulse) reaches the end of one brain cell, monoamines are released into the gap between the cells. Here, they quickly travel across the gap until they reach a receptor on the next cell, settling in like a key in a lock. This triggers the electrical impulse to continue through the next cell and on to its final destination.
Once the message has been transmitted, the monoamines in the gap are either reabsorbed by the first cell or broken down by an enzyme called monoamine oxidase.
If a person has low levels of monoamines in the brain, it can reduce the amount of communication between the brain cells and cause the person to feel depressed.
MAOI medications improve the communication between the brain cells by blocking the action of monoamine oxidase. This increases the amount of monoamines in the brain and thus improves a person's depression
Unfortunately, monoamine oxidase is also responsible for breaking down tyramine, a naturally occurring chemical that affects blood pressure
. MAOI medications stop the body's ability to break down tyramine and can cause a person's tyramine levels to become too high (which can be extremely dangerous). Because tyramine is found in many foods and beverages, people taking MAOI medications must follow a strict diet (see Marplan Food Interactions for more information)