Schizophrenia: Neurobiology and treatment

Question 1

Percentage risk of schizophrenia in monozygotic twins

Answer 1

• Up to 50%

Question 2

Genetic risk of schizophrenia

Answer 2

• 1% general population
• Partial penetrance(interaction of genes and environment)
• Likely to be polygenic - multiple susceptibility genes
• Presence of these and environmental factors triggers schizophrenia

Question 3

What does the genetics of schizophrenia overlap with

Answer 3

• Overlaps with the genetics of autism and other neurodevelopmental disorders

Question 4

Environmental causes of schizophrenia at birth

Answer 4

• Obstetric complications
• Prenatal infection
• Nutritional deficiency

Question 5

Environmental causes of schizophrenia during adolescence

Answer 5

• Adverse life events
• Substance abuse
  (cannabis use - 6x risk)

Question 6

Structural changes in the brain in schizophrenic patients

Answer 6

• Ventricular enlargement
• Reduced brain volume (less gray matter)
(temporal lobes, frontal lobes, subcortical structures)
Cytoarchitectural differences in cortex and hippocampus
- Gray matter loss: 1. Synaptic pruning + 2. Increased myelination

Question 7

What is paracingulate sulcus morphology associated with

Answer 7

• Hallucinations

Question 8

Neurodevelopmental model of schizophrenia

Answer 8

• During adolescence, grey matter is lost(pink), which may speed up in early-onset schizophrenia

Question 9

Dynamic changes in male and female teenagers with schizophrenia

Answer 9

• A consistent pattern of progressive grey matter loss, in parietal, frontal, and temporal cortices, is observed in independent groups of male and female patients
• A single pattern is observable in both boys and girls, supporting the anatomical specificity of the findings

Question 10

dIPFC significance in healthy volunteers and schizophrenics

Answer 10

Increase in activity in dIPFC seen in healthy volunteers. Absent in schizophrenics

Question 11

What is pruning and why is it relevant to schizophrenia

Answer 11

• Pruning is a sort of clean-up job conventionally thought to eliminate weak synapses and leave strong ones
• In schizophrenia, it was suspected, the pruning process hacked away indiscriminately, knocking out strong synapses along with weak ones

Question 12

Normal neurodevelopmental model of schizophrenia

Answer 12

• Proliferation
• Migration
• Arborization(circuit formation)
• Myelination

Question 13

Functional changes of the auditory cortex activation during hallucinations

Answer 13

• Auditory cortex activation during hallucinations(fMRI evidence)

Question 14

What are oscillations in the brain

Answer 14

• Important organisers of brain activity, plasticity and connectivity(maturation)

Question 15

What is neuronal synchrony

Answer 15

• Well-timed coordination and communication between neural populations

Question 16

When do high frequency oscillations and synchrony emerge

Answer 16

• Emerge during the transition from adolescence to adulthood
• Differences in neural oscillations and synchrony between controls and patients with schizophrenia

Question 17

What is hypofrontality

Answer 17

• State of decreased cerebral blood flow in the prefrontal cortex of the brain
• Hypofrontality is symptomatic of several neurological medical conditions such as schizophrenia, ADHD, bipolar disorder and major depressive disorder

Question 18

Neurophysiology summary in schizophrenics

Answer 18

• Hypofrontality
• Hyper-excitable sensory cortex
• Abnormal neural oscillations

Question 19

Features of typical antipsychotic(neuroleptic) drugs

Answer 19

• D2 receptor antagonists

- Prevent positive symptoms

Question 20

Which is a more potent antipsychotic, chlorpromazine or haloperidol

Answer 20

• Haloperidol is more potent than chlorpromazine

Question 21

Examples of DA agonists

Answer 21

• Cocaine, amphetamine, L-dopa can(in large doses) cause positive symptoms of schizophrenia(eg psychosis)
• These drug-induced psychoses can be treated with the D2 antagonist antipsychotic drugs

Question 22

Which dopamine receptors are Gs coupled

Answer 22

D1 and D5

Question 23

Location of D1 receptors

Answer 23

• Caudate putamen NAcc

- Olfactory tubercle

Question 24

Location of D5 receptors

Answer 24

• Hippocampus

- Hypothalamus

Question 25

Which dopamine receptors are Gi coupled

Answer 25

D2, D3 and D4

Question 26

Location of D2 receptors

Answer 26

• Caudate-putamen NAcc

- Olfactory tubercle

Question 27

Location of D3 receptors

Answer 27

• Olfactory tubercle
• Hypothalamus Medulla
• NAcc
• Cerebellum

Question 28

Location of D4 receptors

Answer 28

• Frontal cortex
• Amygdala
• Midbrain

Question 29

What are extrapyramidal side effects caused by

Answer 29

• Typical antipsychotics

Question 30

Examples of extrapyramidal side effects caused by typical antipsychotics

Answer 30

Parkinsonian-like symptoms (inhibition of DA action in Caudate) (slow movement, lack of facial expression) followed by 
Tardive dyskinesia (slow, faulty movements) (upregulation of D2 receptors- supersensitivity - need to keep upping the dose)

Question 31

Atypical antipsychotics

Answer 31

(e.g. clozapine - more selective to D4 - beneficial effects without EPS (plus actions at other receptors - 5HT receptors)

Question 32

Typical vs atypical antipsychotics

Answer 32

• Atypical antipsychotics can work in patients resistant to typicals
• Atypicals do not have same extra-pyramidal side effects (lower activity at D2 receptor)
Clozapine activity mainly at D4 receptors (also binds D3, D1, D2, D5)
5HT receptors improves positive and negative symptoms

Question 33

Side effects of atypical antipsychotics

Answer 33

side effects - weight gain, sedation, hypersalivation, tachycardia, hypotension, neutropenia (needs to be watched - blood tests)

Question 34

Examples of other atypical antipsychotics

Answer 34

Risperidone, Olanzapine - differing affinities for receptor subtypes, varying levels of side effects.

Question 35

What is PCP(phencyclidine, angel dust)

Answer 35

• Causes many positive, negative and cognitive symptoms of schizophrenia
• NMDA receptor antagonist

Question 36

Effects of PCP treatment in animal studies to model schizophrenia

Answer 36

1) NMDA antagonism in PFC - less glutamergic firing to VTA GABA neurons
2) Less GABAergic inhibition of VTA-NAcc DA neurons
3) Greater DA release in NAcc
4) Less activation of VTA-PFC DA neurons - less glu- hypofrontality

Question 37

Effect of dopamine agonists or boosting drugs

Answer 37

• Cause psychosis
• Action in nucleus accumbens(and amygdala)
• Glutamate antagonists(PCP) positive + negative + cognitive symptoms
• Action PFC(feedback to DA system - hyperactive in NAcc - hypoactive in PFC)

Question 38

Effect of atypical antipsychotic drugs on DA activity in PFC and in NAcc

Answer 38

• Increase DA activity in PFC

- Decrease DA in NAcc

Question 39

Effect of typical antipsychotics on neurocognitive deficits

Answer 39

• No effect

Question 40

Effect of atypicals on neurocognitive deficits

Answer 40

• Some improvement

- eg, increase verbal fluency

Question 41

Neurocognitive deficits of schizophrenia

Answer 41

• Lower IQ
• Attentional deficits(eg stroop test)
• Working memory(eg Wisconsin Card Sorting Test)
• Planning and information processing deficits