Antidepressant Drugs

Question 1

Emotional/psychological symptoms of depression

Answer 1

• Misery, apathy, pessimism
• Low self-esteem
• Loss of motivation
• Anhedonia (loss of enjoyment from activities)

Question 2

Biological/somatic symptoms of depression?

Answer 2

• Slowing of though & action
• Loss of libido
• Loss of appetite, sleep disturbance

Question 3

2 broad types of depression?

Answer 3

(1) Unipolar depression/depressive disorder

(2) Bipolar depression/manic depression

Question 4

Explain the (1) type of depression

Answer 4

Unipolar depression (depressive disorder)

• Mood swings in SAME direction
• Relatively LATE onset

Types of unipolar depression:
• Reactive depression - stressful live events, non-familial inheritance

• Endogenous depression - unrelated to external stresses, familial pattern

ALL types of unipolar depression respond in the SAME WAY to the same drug treatments

Question 5

Explain the (2) type of depression

Answer 5

Bipolar depression (manic depression)

• Oscillating depression/mania
• LESS common
• EARLY adult onset
• STRONG hereditary tendency

Drug treatment includes LITHIUM
• can stabilise swings between mania & depression BUT has a narrow therapeutic window

Question 6

Define the Monoamine theory of depression

Answer 6

Depression is a functional DEFICIT of central MA transmission

Mania is a functional EXCESS of MA transmission

Question 7

What is MA related to?

Answer 7

Related to

• NA & 5-HT (serotonin) deficits/excesses

Question 8

What evidence supports the MA theory of depression?

Answer 8

Pharmacological evidence

onenote table!!

Question 9

What evidence does NOT support the MA theory of depression and explain why

Answer 9

Biological evidence

A reduction in NA metabolites is NOT concurrent with a worse depression

Delayed onset of the clinical effect of drugs (a few weeks sometimes)
– possibly due to adaptive changes and not MA theory:
• there is a downregulation of - alpha2, beta & 5-HT receptors

Question 10

What other conclusions are made along with the MA theory

Answer 10

Could be due to:
• increased CRH (and thus cortisol)?
• hippocampal neurodegeneration?

Question 11

What drugs provide the pharmacological evidence supporting the MA hypothesis of depression?

Answer 11

• TCAs (tricyclic antidepressants)
• MAO inhibitors
• Reserpine
• alpha-Methyltyrosine
• Methyldopa
• ECT

Question 12

Example of a TCA drug?

Answer 12

Amitriptyline

Question 13

MOA of TCAs?

Answer 13

Monoamine re-uptake inhibitor
– NA=5-HT&raquo_space; DA.

Also acts on:
 • alpha2 
  – block pre-synaptic inhibition of NA release)
 • mAChR
 • H2 (histamine) receptors
 • 5-HT receptors

TCAs down-regulate:
• BETA-adrenoceptors
• 5-HT2 receptors

The time-course of this down-regulation correlates well with the clinical onset of symptom relief.

Question 14

Pharmacokinetics of TCAs?

Answer 14

o Oral administration

o Highly PPB – 90-95%

o Hepatic metabolism
– to ACTIVE metabolites –> excreted in the urine (glucuronide conjugates)

o Plasma T1/2 = 10-20 hours
– dose once daily

Question 15

What are some unwanted effects associated with TCAs?

Answer 15

Therapeutic doses:

 Atropine-like effects
– anti-PNS effects such as dry mouth, constipation, etc

 Postural hypotension
– due to effects on vasomotor centre

 Sedation
– due to effects on H1 antagonism

Acute toxicity:

 CNS
– excitement, delirium, seizures –> coma, respiratory depression

 CVS
– cardiac dysrhythmias –> VF & sudden death

Often used for attempted suicide!

Question 16

TCAs can interact with drugs, causing its effects to increase - explain this

Answer 16

1. PPB
   • INCREASE TCA effects
   • as very PPB, there is a massive increase of bioavailability if co-administered with something that displaces it from the PP
   • e.g. aspirin, phenytoin
2. Hepatic enzymes
   • INCREASE TCA effects
   • drugs that compete with the metabolising hepatic enzymes
   •e.g. neuroleptics, oral contraceptives
3. Potentiation
   • drugs that potentiate the effects of the CNS depression
   • e.g. alcohol
4. Antihypertensive drugs

Question 17

Example MAOI drug?

Answer 17

Phenelzine

Question 18

Explain the MOA of MAOI

Answer 18

MAO enzymes:
• MAO-A breaks down NA & 5-HT – key MoA!
• MAO-B: breaks down DA – e.g. Selegiline

o Most are non-selective MAOIs
o Irreversible inhibition leads to a long duration of action

Effects:
 Rapid effects
– increase cytoplasmic (not enhanced release but more leakage) NA, 5-HT

 Delayed effects
– delayed clinical response due to down-regulation of beta-adrenoceptors & 5-HT2 receptors
– again, fits with delayed clinical effect

o Inhibits other enzymes – leads to side effects.

Question 19

Pharmacokinetics of MAOI?

Answer 19

o Oral absorption

o Short plasma T1/2 but a longer DoA

o Metabolised in the liver, excreted in the urine

Question 20

Unwanted effects associated with MAOI?

Answer 20

o Atropine-like effects (anti-PNS effects)
– but less so than TCAs

o Postural hypotension
– common

o Sedation
– causes seizures in OD

o Weight gain
– possibly excessive

o Hepatotoxicity
– hydrazines, rare

Question 21

Why is the drug interactions of MAOI a serious problem?

Answer 21

‘Cheese reaction’

Tyramine-containing foods + MAOI = hypertensive crisis

 Tyramine is metabolised by MAO and so high levels of tyramine compete with NA and so higher levels of NA leading to the hypertensive episodes

o MAOIs + TCAs = hypertensive episodes

o MAOIs + pethidine (opioid analgesic) = hyperpyrexia, restlessness, coma & hypotension

Question 22

What are the hypertensive crisis in relation to the ‘cheese reaction’

Answer 22

• Throbbing headache
• Increase BP
• Intracranial haemorrhage

Question 23

Example of a MAO-A inhibitor?

Answer 23

Moclobemide

Reversible, MAO-A inhibitor (RIMA)
• reduced drug interactions
• reduced DoA

Question 24

SSRIs - example drug?

Answer 24

Fluoxetine

Question 25

MoA of SSRIs?

Answer 25

• 5-HT re-uptake inhibitor

• Has LESS bad SEs so safer in ODs
- BUT, less effective vs. severe depression

Question 26

Pharmacokinetics of SSRIs?

Answer 26

o Oral administration

o Plasma T1/2 = 18-24 hours

o Delayed onset of action
– 2-4 weeks

Question 27

What should we avoid giving fluoxetine with and why?

Answer 27

Fluoxetine competes with TCAs for hepatic enzymes so avoid co-administration

Question 28

Unwated effects associated with Fluoxetine?

Answer 28

Nausea, diarrhoea, insomnia, loss of libido
• fewer side effects than TCAs/MAOIs (currently the most prescribed antidepressant)

o Interacts with MAOIs
– avoid co-administration
o Increases suicidality in the <18s

Question 29

2 other ADs?

Answer 29

(1) Venlafaxine

(2) Mertazapine

Question 30

Explain the (1) AD

Answer 30

Venlafaxine

Dose-dependent re-uptake inhibitor
– 5-HT>NA>DA

2nd line for severe depression

Question 31

Explain the (2) AD

Answer 31

Mertazapine

a2 receptor antagonist
– inhibits negative inhibition of NA release

o Increases NA and 5-HT release
o Useful in SSRI intolerant patients

Question 32

Tricyclic antidepressant drugs (TCAs) work largely by:

A: Antagonism at 5HT receptors
B: Inhibiting central DA reuptake
C: Blocking VSCCs
D: Inhibition of central NA & 5HT reuptake 
E: Enhancement of the action of GABA

Answer 32

D

Question 33

The ‘cheese reaction’ is most likely to be caused by:

A: Tricyclic antidepressants (TCAs)
B: Selective serotonin reuptake inhibitors (SSRIs)
C: Monoamine oxidase inhibitors (MAOIs)
D: Reversible MAO-A inhibitors (RIMAs)
E: α2-Adrenoceptor antagonists

Answer 33

C