Serotonin and Dopamine

Question 1

Describe the major features of serotonin and dopamine neurotransmission.

Answer 1

SEROTONIN
1. L-tryptophan => 5-HTP via tryptophan hydroxylase RLE
=> tryptophan is NOT synthesized by the body; essential AA
=> TH is not normally saturated, thus increasing dietary intake of tryptophan can increase 5-HTP production
=> 5-HTP is an OTC nutraceutical used to treat depression
2. 5-HTP => serotonin
3. serotonin => 5-HIAA (inactive excreted metabolite)

DOPAMINE

1. tyrosine => L-DOPA via tyrosine hydroxylase RLE
2. L-DOPA => dopamine via dopamine decarboxylase
   * dopamine canNOT cross BBB*

Question 2

Describe how tryptophan manipulations are thought to affect brain function.

Answer 2

• requires appropriate ratio of W to other AAs b/c W competes with other neutral AAs to cross the BBB
• common foods = whole milk, dried prunes, semi-sweet chocolate

Question 3

Where on the neurons are each 5-HT1 receptor found?

Answer 3

5-HT1a

• found on both pre- and post-synaptic
• on the pre-synaptic neuron, it is found on the soma/dendrites to act as an autoreceptor to limit AP generation
• on the post-synaptic neuron, it is found on the synaptic membrane to receive signals

5-HT1b

• found on both pre- and post-synaptic
• pre-synaptic receptors are found on the axon terminal to inhibit phosphorylation of calcium channels (no cAMP => no PKA) => inhibits serotonin release

5-HT1d
- only found on post-synaptic neurons

Question 4

Describe the following for each serotonin receptor family

• MOA
• location on the neuron

Answer 4

5-HT1a, b, d

• MOA => Gi => inhibits NT release and activates K channels
• 1a = presynaptic cell body and postsynaptic membrane
• 1b = presynaptic nerve terminal and postsynaptic membrane
• 1d = postsynaptic only

5-HT2a, b, c

• MOA = Gq => PLC => IP3/DAG => Ca2+
• post-synaptic

5-HT3

• MOA = ligand gated cation influx when activated by SE
• post-synaptic

5-HT4

• MOA = Gas => cAMP => PKA
• post-synaptic

Question 5

Describe the following for each serotonin receptor family:

• location in the body
• effects

Answer 5

5-HT1a

• cortex, hypothalamus => mood and cognitive function
• Raphe nuclei => inhibit 5-HT release

5-HT1d
- cerebral VSM nerve terminal => inhibit NT release

5-HT2a/c

• striatum => hallucinations
• frontal cortex => inhibit DA release

5-HT3

• enteric chromaffin cells => gut motility
• area postrema/esmetic center => N/V

5-HT4
- myenteric plexus => gut motility

Question 6

What is the role of the 5-HT transporter?

Answer 6

reuptake of 5-HT from the nerve terminal

Question 7

Describe the following for buspirone:

• MOA
• effects
• use
• side effects

Answer 7

MOA
- partial agonist for 5-HT1a receptors located on the post-synaptic receptors in the cortex

EFFECTS
- INHIBIT the INHIBITORY activity of 5-HT1 => ACTIVATE serotonin release => more endogenous serotonin

USE

• GAD
• depression (when used in conjunction with SSRIs)

SIDE EFFECTS

• anxiety, drowsiness, nausea
• associated with initial suppression of endogenous serotonin release before the receptor has become desensitized

Question 8

Describe the following for sumatriptan:

• MOA
• effects
• use
• side effects
• contraindications

Answer 8

MOA
- 5-HT1d agonist

EFFECTS

• inhibits release of nociceptive and inflammatory NTs (CGRP, NKA, and substance P)
• activates MLCK => cerebrovascular vasoconstriction

USE
- migraines

SIDE EFFECTS
- cerebrovascular vasoconstriction

CONTRAINDICATIONS
- coronary artery disease

Question 9

Describe the following for the use of SSRIs:

• MOA
• effects
• use
• side effects
• contraindications
• prototype drugs

Answer 9

MOA
- prevent reuptake at the axon terminal

EFFECTS

1. reuptake inhibition causes an increase in serotonin in the presynaptic cleft
2. initially, there is continued inhibition of the post-synaptic serotonin producing neuron because of continued activation of 5-HT1a inhibition
3. 2-4 weeks later (time it takes for anti-depressants to start working, there has been a downregulation of 5-HT1a because of all the serotonin activation
4. less 5-HT1a receptors => less inhibition => more serotonin release => antidepressive effects

USE

• depression
• anxiety from PTSD, OCD

SIDE EFFECTS

• sexual dysfunction
• insomnia
• due to enhanced activation of other receptors

CONTRAINDICATIONS

• pts taking MAOIs => enhance effects of serotonin since it is not being broken down to its inactive metabolite 5-HIAA
• can lead to serotonin-syndrome (hyperthermia, muscle tremors, twitching, agitation, arrhythmia, seizure)

PROTOTYPE DRUGS

• fluoxetine
• sertraline

Question 10

Describe the following for the therapeutic use of SARIs:

• MOA
• effects
• use
• side effects
• contraindications
• prototype drugs.

Answer 10

MOA

• blocks serotonin reuptake
• blocks 5-HT2a and 5-HT2c

EFFECTS

• increased serotonin in the synapse => increased production and release of serotonin
• block 5-HT2a => block alertness
• block 5-HT2c => block sexual behavior and anxiety

USE

• depression (rarely used for this anymore; in combination with SSRIs)
• anxiety
• insomnia w/o depression

SIDE EFFECTS
- drowsiness

CONTRAINDICATIONS
- black box warning for suicidality in young adults

DRUG
- trazadone

Question 11

Describe the following for risperidone:

• MOA
• effects
• use
• side effects

Answer 11

MOA

• 5-HT2a antagonist
• blocks D2 and D3

EFFECTS

• reduces DA release in mesolimbic (too high in psychosis)
• increases DA release in mesocortical (too low in psychosis)

USE

• anti-psychotic
• schizophrenia
• manic episodes of bipolar disorder

SIDE EFFECTS

• weight gain
• akathisia (constant need to move)

Question 12

Describe the following for ondansetron:

• MOA
• effects
• use
• side effects
• notes

Answer 12

MOA
- 5-HT3 antagonist

EFFECTS
- block 5-HT3 => block serotonin release on vagal afferents => block activation of area postrema and emetic center => inhibit N/V

USE
- prevent N/V in chemotherapy patients

SIDE EFFECTS

• few
• well tolerated

NOTES

• 90% of serotonin release occurs in the gut from the enterochromaffin cells
• acts on vagal efferents to induce N/V in response to detection of a toxin in the gut

Question 13

Describe the following for metoclopramide:

• MOA
• effects
• use
• side effects
• notes

Answer 13

MOA

• dopamine antagonist
• 5-HT4 agonist

EFFECTS
- promotes gastric motility by increases activity of IPAN

USE
- short term stimulation of gastric motility in diabetics and post-surgical patients

SIDE EFFECTS
- dopamine agonist effects

NOTES
- 5-HT4 => serotonin => intrinsic primary afferent neurons (IPAN) => ACh => longitudinal and circular gut muscles

Question 14

List the 4 dopaminergic pathways. Indicate where excess/deficit dopamine occurs and what conditions it can lead to.

Answer 14

1. mesolimbic (VTA to limbic)
   => excess DA leads to psychosis
2. mesocortical (VTA to prefrontal cortex)
   => deficit DA leads to schizophrenia and lack of motivation
3. tuberoinfundibular pathway (arcuate nucleus of hypothalamus to median eminence of the pituitary)
   => deficit DA leads to parkinson’s
4. chemotrigger zone (brainstem)

Question 15

Describe the MOA and members of the D1 receptor family.

Answer 15

MOA
- Gas => cAMP => increase DA release

FAMILY

• D1 = frontal cortex, arcuate nucleus, hypothalamus
• D5 = hypothalamus, striatum

ACTIONS
- renal and splanchnic vasodilation

Question 16

Describe the MOA and members of the D2 receptor family.

Answer 16

MOA

• Gi => decreased cAMP
• activates K channels
• decreased voltage gated Ca channels

FAMILY

• D2 = striatum, pit
• D3 = VTA
• D4 = hypo, amygdala, hippo

Question 17

Describe the following for the therapeutic use of L-DOPA:

• MOA
• effects
• use
• side effects
• adjunctive therapy

Answer 17

MOA
- precursor loading

EFFECTS

• increased synthesis of dopamine, norepinephrine, epinephrine in the CNS and PNS
• crosses BBB

USE
- parkinson’s

SIDE EFFECTS
- limbic = hallucinations
- dyskinesia
can be alleviated with reduced doses and cocktail drugs

ADJUNCTIVE THERAPY

• carbidopa blocks dopamine carboxylase to prevent L-DOPA => dopamine
• cannot cross BBB so reduces toxic side effects in the periphery to allow more L-DOPA to enter the brain rather than be metabolized in the gut

Question 18

Describe the following for bromocriptine:

• MOA
• effects
• use
• side effects

Answer 18

MOA
- D2 receptor agonist in basal ganglia

EFFECTS

• reduces oxidative damage in dopaminergic cells
• increased dopamine in system

USE
- parkinson’s

SIDE EFFECTS

• valvular fibrosis with long-term use
• decreased impulse control leading to atypical risky behaviors

Question 19

Describe the following for selegiline:

• MOA
• effects
• use
• side effects
• notes

Answer 19

MOA
- MAO-b inhibitor

EFFECTS
- selective for one type of MAO

USE

• parkinson’s (low dose)
• depression (high dose)

SIDE EFFECTS

• dizziness due to hypotension (low dose)
• hypertension and serotonin syndrome (high dose)
• dry mouth due to increased sympathetic activity

NOTES

• doesn’t require strict monitoring of dietary tyramine since it is selective
• but should be mindful at higher doses

Question 20

Describe the following for tolcapone:

• MOA
• effects
• use
• side effects

Answer 20

MOA
- COMT inhibitor

EFFECTS

• prolongs L-DOPA half-life
• decreases “off time”
• able to reduce dose needed of L-DOPA

USE
- parkinson’s in conjunction with L-DOPA

SIDE EFFECTS

• oscillations in motor function due to off time
• excess dopamine effects: dyskinesia, hallucinations, nausa

Question 21

Describe the following for haloperidol:

• MOA
• use
• side effects

Answer 21

MOA
- D2 receptor antagonist => increases DA

USE
- antipsychotics

SIDE EFFECTS

• extra motor movement
• akathisia, tics

Question 22

Describe the following for methylphenidate: (RECALL)

• MOA
• effects
• use
• side effects

Answer 22

MOA
- DE and NE reuptake inhibitor

USE
- ADHD

SIDE EFFECTS
- tachycardia

CONTRAINDICATIONS

• arrhythmia
• HTN
• TCAs (further exacerbate concentrations of catecholamines)