Chapter 18: Problem 5
Which one of the following drugs acts by inhibiting neurotransmitter reuptake? (A) lithium (B) morphine (C) fluoxetine (D) levodopa (E) donepezil
Short Answer
Expert verified
Fluoxetine (C) inhibits neurotransmitter reuptake.
Step by step solution
01
Identify Common Drug Functions
We begin by recognizing the general actions each of the drugs listed might have. Lithium is often used as a mood stabilizer, morphine is a pain reliever that works by mimicking endorphins, fluoxetine is known as an antidepressant that works by selective serotonin reuptake inhibition, levodopa is a precursor to dopamine used in Parkinson's disease, and donepezil is used to manage Alzheimer's disease by inhibiting acetylcholinesterase.
02
Focus on Reuptake Inhibition
The key point of this problem is to identify which drug works by inhibiting the reuptake of neurotransmitters. Common drugs that inhibit reuptake work on neurotransmitters like serotonin, norepinephrine, or dopamine. Known classes include SSRIs (Selective Serotonin Reuptake Inhibitors), SNRIs, and others.
03
Match Mechanisms with Options
From the above options, fluoxetine is known to be an SSRI, which stands for Selective Serotonin Reuptake Inhibitor. Its primary mechanism of action involves inhibiting the reuptake of the neurotransmitter serotonin, thus increasing its availability and function in the synaptic cleft.
04
Conclude the Answer
Based on the above analysis, the drug that acts by inhibiting neurotransmitter reuptake is fluoxetine, as it specifically blocks the reuptake of serotonin, which is its primary mechanism of action as an SSRI.
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Key Concepts
These are the key concepts you need to understand to accurately answer the question.
Fluoxetine
Fluoxetine is a well-known antidepressant, most commonly recognized by its brand name, Prozac. It belongs to a category of drugs known as Selective Serotonin Reuptake Inhibitors (SSRIs). This medication is often prescribed for treating major depressive disorders, obsessive-compulsive disorder (OCD), and even bulimia nervosa. The function of fluoxetine is to adjust the balance of serotonin in the brain, which is believed to enhance mood and emotional stability.
When someone takes fluoxetine, it works by blocking the reuptake of serotonin, a chemical messenger, or neurotransmitter, in the brain. By doing so, more serotonin remains available in the synaptic cleft, the space between neurons, leading to improved transmission of 'feel-good' signals. This increase in serotonin availability is thought to help ameliorate mood, reduce anxiety, and improve overall emotional function.
Fluoxetine is typically introduced in low doses and gradually increased, depending on a person's needs and response. It’s important for individuals taking this medication to adhere to their prescribed schedule and communicate regularly with their healthcare provider to ensure optimal effectiveness and minimize potential side effects. Common side effects can include nausea, dizziness, drowsiness, or insomnia, although these often diminish with continued use.
When someone takes fluoxetine, it works by blocking the reuptake of serotonin, a chemical messenger, or neurotransmitter, in the brain. By doing so, more serotonin remains available in the synaptic cleft, the space between neurons, leading to improved transmission of 'feel-good' signals. This increase in serotonin availability is thought to help ameliorate mood, reduce anxiety, and improve overall emotional function.
Fluoxetine is typically introduced in low doses and gradually increased, depending on a person's needs and response. It’s important for individuals taking this medication to adhere to their prescribed schedule and communicate regularly with their healthcare provider to ensure optimal effectiveness and minimize potential side effects. Common side effects can include nausea, dizziness, drowsiness, or insomnia, although these often diminish with continued use.
Selective Serotonin Reuptake Inhibitors
SSRIs, or Selective Serotonin Reuptake Inhibitors, represent a class of drugs primarily used to treat depression and anxiety disorders. The cornerstone of SSRIs' action is their ability to block the reuptake of serotonin, a crucial neurotransmitter linked to mood regulation and emotional wellness.
Serotonin plays an important role in the brain by transmitting signals between nerve cells. Once it's released into the synaptic cleft, it's typically reabsorbed by the neurons in a process known as reuptake. SSRIs work by inhibiting this process, allowing serotonin to remain active in the synaptic cleft for a longer period, ultimately enhancing neurotransmission in pathways critical to mood and emotional processing.
These medications are popular because they generally have fewer side effects compared to older classes of antidepressants, like tricyclic antidepressants (TCAs) or monoamine oxidase inhibitors (MAOIs). This makes them more tolerable for a broad range of patients. However, treatment must be tailored to each individual, as the effectiveness and side effects can vary. Common SSRIs include fluoxetine, sertraline, escitalopram, and paroxetine.
Serotonin plays an important role in the brain by transmitting signals between nerve cells. Once it's released into the synaptic cleft, it's typically reabsorbed by the neurons in a process known as reuptake. SSRIs work by inhibiting this process, allowing serotonin to remain active in the synaptic cleft for a longer period, ultimately enhancing neurotransmission in pathways critical to mood and emotional processing.
These medications are popular because they generally have fewer side effects compared to older classes of antidepressants, like tricyclic antidepressants (TCAs) or monoamine oxidase inhibitors (MAOIs). This makes them more tolerable for a broad range of patients. However, treatment must be tailored to each individual, as the effectiveness and side effects can vary. Common SSRIs include fluoxetine, sertraline, escitalopram, and paroxetine.
Neuropharmacology
Neuropharmacology is the branch of pharmacology focused on the study of how drugs affect the nervous system. This area delves into the mechanisms of drug action, exploring how various substances influence the function of neurons and therefore affect behavior and mood.
Neuropharmacology covers various substances, including therapeutics for neuropsychiatric disorders and recreational drugs. When examining SSRIs like fluoxetine through a neuropharmacological lens, the interest centers on their influence on serotonin pathways. By modulating neurotransmitter levels, SSRIs help balance chemical reactions in the brain, contributing to the remediation of symptoms associated with depression and anxiety.
This field is vital for developing new treatments and understanding existing ones. Research in neuropharmacology helps determine the appropriate dosages, the timing of medications, the interaction with other drugs, and how best to minimize side effects while maximizing therapeutic effects. The ultimate goal is to provide treatment pathways that offer relief from symptoms while supporting overall mental health and well-being. As our understanding of the brain's complexity deepens, neuropharmacology continues to evolve, guiding the creation of more effective and personalized therapeutics.
Neuropharmacology covers various substances, including therapeutics for neuropsychiatric disorders and recreational drugs. When examining SSRIs like fluoxetine through a neuropharmacological lens, the interest centers on their influence on serotonin pathways. By modulating neurotransmitter levels, SSRIs help balance chemical reactions in the brain, contributing to the remediation of symptoms associated with depression and anxiety.
This field is vital for developing new treatments and understanding existing ones. Research in neuropharmacology helps determine the appropriate dosages, the timing of medications, the interaction with other drugs, and how best to minimize side effects while maximizing therapeutic effects. The ultimate goal is to provide treatment pathways that offer relief from symptoms while supporting overall mental health and well-being. As our understanding of the brain's complexity deepens, neuropharmacology continues to evolve, guiding the creation of more effective and personalized therapeutics.
