CPTP 3.4 Neuropharmacology 2 (Antipsychotics)

Question 1

When is the onset of schizophrenia?

Answer 1

Adolescence & young adulthood

Question 2

There is a ‘spectrum of symptoms’ for schizophrenia. What does this divide the symptoms into?

Answer 2

• Positive symptoms
• Negative symptoms

Question 3

What are the ‘positive’ symptoms of schizophrenia?

Answer 3

• Disorders of thought
• Hallucinations
• Paranoia

Question 4

What are the ‘negative’ symptoms of schizophrenia?

Answer 4

Catatonic Behaviour

• Blunted emotions
• Social withdrawal
• Apathy

Question 5

What is the importance of positive and negative symptoms?

Answer 5

They respond differently to different medications.

Question 6

What brain differences are seen in those with schizophrenia?

Answer 6

• Developmental abnormalities in the limbic system
• Smaller temporal lobes
• Enlarged ventricles

Question 7

Describe a theory of schizophrenia.

Answer 7

Dopamine theory of Schizophrenia: “Schizophrenia is caused by overactive MESOLIMBIC AND MESOCORTICAL dopamine systemS in the brain”

Question 8

What are the three main dopamine systems in the brain?

Answer 8

• Nigrostriatal
• Mesolimbic/Mesocortical
• Tuberoinfundibular

Question 9

Where does the tuberoinfundubular pathway run from and to? What does dopamine do at the destination?

Answer 9

Hypothalamus –> pituitary stalk Dopamine acts tonically as prolactin release inhibiting factor (PRIF)

Question 10

Outline prolactin regulation

Answer 10

Stimulating:

• Suckling
• Hypothalamic nuclei release prolactin releasing factor (PRF)
• PRF Stimulates anterior pituitary to release prolacin

Inhibiting:

• Dopamine from tuberoinfundibular tract inhibits anterior pituitary prolactin release

Question 11

What does prolactin do?

Answer 11

Stimulates milk production and differentiation of mammary tissue

Question 12

Where is prolactin released from?

Answer 12

Anterior pituitary

Question 13

What is released from the posterior pituitary?

Answer 13

Oxytocin

Vasopressin

Question 14

Where does the nigrostriatal pathway run from and to? What does dopamine do at the destination?

Answer 14

substantia nigra –> dorsal striatum Involved in the initiation and control of movement (extrapyramidal pathway of movement)

Question 15

What are the diseases of the nigrostriatal pathway?

Answer 15

• Parkinson’s disease
• Huntington’s chorea

Question 16

What is the relevance of the nigrostriatal pathway with schizophrenia?

Answer 16

No direct relationship, but the drugs used to treat schizophrenia have side effects which affect this pathway

Question 17

Where does the mesolimbic pathway run from and to? What does dopamine do at the destination?

Answer 17

Ventral tegmentum –> Ventral striatum & hippocampus Reward, addiction, sensory processing

Question 18

Where does the mesocortical pathway run from and to? What does dopamine do at the destination?

Answer 18

Ventral tegmentum –> frontal cortex Cognition, mood

Question 19

What causes dopamine imbalance in schizophrenia?

Answer 19

Increased synthesis of dopamine

Question 20

How do antipsychotic drugs work?

Answer 20

They block D2 receptors in limbic and cortical areas

Question 21

What were the first antipsychotic drug classes to be high-affinity D2 receptor antagonists? What are the side effects of this and why?

Answer 21

Phenothiazines and thioxanthenes Have tri-cyclic structures (like TCAs but arent) which means its not selective, and has affinity for many receptors:

H1:

• Weight gain
• Sedation

M1:

• Dry mouth
• Blurred vision
• Constipation
• Urinary retention

a1:

• Postural hypotension

D2 (nigrostriatal):

• Extrapyrimidal side effects

D2 (tuberoinfundibular)

• Galactorrhoea
• Gynaecomastea

NB: D2 for mesocortical and mesolimbic pathways is the therapeutic target

Question 22

Antipsychotics which are specific to D2 receptors may still cause side effects. What are these? Why does this occur?

Answer 22

D2 (nigrostriatal):

• Extrapyrimidal side effects

D2 (tuberoinfundibular):

• Galactorrhoea
• Gynaecomastia

Question 23

What does ‘tardive’ mean in tardive dyskinesia?

Answer 23

Tardive, because it begins 6 months after initiation of treatment

Question 24

Is tardive dyskinesia permanent?

Answer 24

Yes

Question 25

What are the extrapyramidal side effects?

Answer 25

• Parkinson’s symptoms (rigidity, tremor, etc)
• Tardive dyskinesia (repetitive involuntary movement)

Question 26

What are the side effect profiles of phenothiazines and thioxanthenes?

Answer 26

Group I: Sedation (H1)

Group II: Anticholinergic (M1)

Group III: Extrapyrimidal (D2)

Question 27

What drug class ditched the tricyclic structure, and were more selective for just D2 receptors? Give an example.

Answer 27

Butyrophenones

• Haloperidol

Question 28

What are the side effects of butyrophenones?

Answer 28

Extrapyramidal side effects remain

Prolactin side effect remain (galactorrhea and gynaecomastia)

Question 29

Summarise the 1st generation antipsychotic classes and an example of each

Answer 29

Tricyclic compounds:

• Phenothiazines
• Thioxanthenes

Selective:

• Butyrophenones

Question 30

What are 2nd generation antipsychotics also known as?

Answer 30

Atypical antipsychotics

Question 31

Name the 2nd generation antipsychotics. What are the benefits of these?

Answer 31

• Clozapine
• Olanzapine
• Risperidone
• Amisulpiride
• Aripiprazole
• Quetiapine

They have a better EPS profile, and do not have any affinity for M1, a1 or H1

Question 32

What is the main side effect of:

1) Clozapine?
2) Olanzapine?
3) Risperidone?

Answer 32

Clozapine = agranulocytosis

Olanzapine and risperidone = weight gain and insulin resistant diabetes

Question 33

Which drugs are good at treating positive and negative symptoms?

Answer 33

Treating positive symptoms –> 1st generation antipsychotics

Treating negative symptoms –> 2nd generation antipsychotics

Question 34

What are the affinities of 2nd generation antipsychotics?

Answer 34

D2: low

D3: High

D4: High

5-HT2A: High

Question 35

Recall the D1-like family

Answer 35

D1 & D5

Question 36

How do atypical (2nd generation) antipsychotics reduce their EPS side effects, while still maintaining therapeutic efficacy?

Answer 36

They have loose binding for D2 receptors, because their dissociation rate is much higher.

In the nigrostriatal pathway, dopamine is released PHASICALLY (lots released infrequently).

Here, the phasic dopamine is enough to displace the drug. (therefore less ‘distortion’ of dopamine signalling here)

However, in the cortex, from the mesocortical pathway (the target), the release of dopamine is tonic (constant, lower levels), therefore the drug is not displaced as much, and can have its antagonistic effect.

There is also a role in the 5-HT2A antagonism having antidepressant effects

Question 37

What are 1st generation antipsychotics also known as?

Answer 37

Classical, typical

Question 38

What are the practical distinctions between typical and atypical antpsychotic use?

Answer 38

Atypical have:

• Fewer extrapyrimidal side effects
• More efficacy in treating drug-resistant patients
• Better at treating negative symptoms