Applied Neuro-pharmacology

Question 1

Describe the sequence of events in synaptic transmission?

Answer 1

Question 2

What are the different receptor types for neurotransmitters?

Answer 2

Ionotropic (respond to ligand binding)

Metabotropic (acts through a second messenger. It may be located at the surface of the cell or in vesicles)

Question 3

Is acetylcholine uptaked into glia/neural cells or is it inactivated by breakdown?

Answer 3

Inactivated by enzymatic breakdown in the synaptic cleft

Question 4

What are some methods of pharmacological manipulation to reduce synaptic transmission?

Answer 4

Inhibit synthesis and packaging of neurotransmitter

Activate presynaptic inhibitory receptors

Block postsynaptic receptors (such as competitive antagonists or non-competitive antagonists)

Block voltage gated calcium channels

Increase breakdown of transmitter

Block release machinery

Increase uptake of transmitter

Block voltage-gated sodium channels

Question 5

What are some methods of pharmacological manipulation to increase synaptic transmission?

Answer 5

Increase synthesis and packaging of neurotransmitter (by increasing availability of precursors)

Activate postsynaptic receptors with an agonist

Potentiate effects of transmitter on receptor (ie increase channel open time)

Block breakdown of transmitter

Block uptake of transmitter

Question 6

What are examples of different neurotransmitters?

Answer 6

• Acetylcholine
• Monoamines
  
  • Noradrenaline
  • Dopamine
  • Serotonin (5-HT)
• Amino acids
  
  • Glutamate
  • GABA
  • Glycine
• Purines
  
  • ATP
  • Adenosine
• Neuropeptides
  
  • Endorphins
  • CCK
  • Substance P
• NO

Question 7

What are examples of monoamines that act as neurotransmitters?

Answer 7

• Noradrenaline
• Dopamine
• Serotonin (5-HT)

Question 8

What does 5-HT stand for?

Answer 8

Serotonin

Question 9

What are examples of amino acids that act as neurotransmitters?

Answer 9

• Glutamate
• GABA
• Glycine

Question 10

What are examples of purines that act as neurotransmitters?

Answer 10

• ATP
• Adenosine

Question 11

What are examples of neuropeptides that act as neurotransmitters?

Answer 11

• Endorphins
• CCK
• Substance P

Question 12

A limited range of neurotransmitters means what in terms of function?

Answer 12

Each one has multiple functions, often in the brain and in the peripheral nervous system which are separated by the blood brain barrier

Question 13

What things about neurotransmitters are unique?

Answer 13

Each neurotransmitter has:

• Its own anatomical distribution
• Its own range of receptors it acts on
• Its own range of functions in different regions (some separated by the blood brain barrier)

Question 14

What is the anatomical distribution of dopamine?

Answer 14

• Brain stem
• Basal ganglia
• Limbic system and frontal cortex

Question 15

What physiological functions are affected by dopamine?

Answer 15

• Voluntary movement
• Emotions/reward
• Vomiting

Question 16

What pathways does dopamine act in?

Answer 16

• Mesolimbic
  
  • Projects VTA to nucleus accumbens and other limbic structures
  • Role in reward and addiction
  • Overactivity leads to schizophrenia and hallucinations
• Mesocortical
  
  • Projects to frontal cortex
  • Involved in executive function
  • Impairment relevant for cognitive symptoms (sx) in PD
• Tubero-infundibular
  
  • Inhibits prolactin

Question 17

What is the mesolimbic pathway?

Answer 17

Projects VTA to nucleus accumbens and other limbic structures

Question 18

What does overactivity of the mesolimbic pathway lead to?

Answer 18

Schizophrenia and hallucinations

Question 19

What is the mesocortical pathway?

Answer 19

Projects to frontal cortex

Question 20

The mesolimbic pathway has a role in what?

Answer 20

• Role in reward and addiction

Question 21

The mesocortical pathway has a role in what?

Answer 21

• Involved in executive function

Question 22

What does the tubero-infudibular pathway do?

Answer 22

• Inhibits prolactin

Question 23

What is PD caused by?

Answer 23

Degeneration of DA cells in the SN (nigrostriatal)

Question 24

How does PD impact dopamine?

Answer 24

Caused by degeneration of DA cells in the nigrostriatal so causes dopamine deficiency in the basal ganglia

Question 25

Describe the synthesis of dopamine?

Answer 25

Question 26

How can dopamine synthesis be modulated in vivo?

Answer 26

Pharmacologically block the conversion of DOPA to dopamine in the periphery, so DOPA crosses the blood brain barrier into the brain and is converted to dopamine there

Question 27

Are any dopamine receptors ionotropic?

Answer 27

No (so dopamine cannot evoke fast EPSPs or IPSPs)

Question 28

What class of receptors are dopamine receptors?

Answer 28

Metabotropic (ie g-protein coupled)

Question 29

How many different subtypes of metabotropic dopamine receptors are there?

Answer 29

5 subtypes named D₁ - D₅

Question 30

Dopamine can produce many different effects, and different effects in different brain regions. What does this depend on?

Answer 30

Which receptors are expressed

Question 31

What protein are dopamine receptors coupled to?

Answer 31

Adenylate cyclase

Question 32

What dopamine receptors activate adenylate cyclase?

Answer 32

D1 and D5

Question 33

What dopamine receptors inhibite adenylate cyclase?

Answer 33

D2, D3 and D4

Question 34

Describe the metabolic breakdown of dopamine?

Answer 34

Question 35

What are key enzymes in the breakdown of dopamine?

Answer 35

Monoamine oxidase B (MAO-B)

Catechol-O-methyltransferase (COMT)

Question 36

What is dopamine ultimately broken down into?

Answer 36

Homovanillic acid

Question 37

What are symptoms of PD?

Answer 37

• Stiffness
• Slow movements
• Change in posture
• Tremor

Question 38

What are examples of dopaminergic drugs?

Answer 38

• DA precursor
  
  • Levodopa
• DA agonists
  
  • Ergots
    
    • Bromocriptine, pergolide, cabergoline
  • Non-ergots
    
    • Ropinirole, pramipexole, rotigotine
  • Apomorphine

Question 39

Why are dopaminergic drugs used in the treatment of PD?

Answer 39

Ease PD symptoms

Question 40

What are some enzyme inhibitors used for preserve dopamine levels?

Answer 40

• Peripheral AAAD inhibitors
  
  • Such as carbidopa and benserazide
  • Decreases peripheral side effects of levodopa and allows greater proportion of oral dose to reach CNS
• MAOB inhibitors
  
  • Such as selegiline, rasagiline and safinamide
• COMT inhibitors
  
  • Such as entacapone and opicapone
  • Decreased metabolism of dopamine and increased effectiveness of levodopa

Question 41

Drug treatment of PD targets what?

Answer 41

Dopaminergic neurons

Question 42

What are some possible side effects of dopaminergic drugs?

Answer 42

• Worsen or cause
  
  • Nausea
  • Vomiting
  • Psychosis
  • Impulsivity/abnormal behaviours

Question 43

Dopamine antagonists improve what?

Answer 43

• Nausea
• Vomiting
• Psychosis

Question 44

Dopamine antagonists can cause what?

Answer 44

• Worsen or cause
  
  • Parkinsonism

Question 45

How can antagonitsts that do not cross the blood brain barrier improve vomiting?

Answer 45

Area postrema (vomiting centre) is in the medullar and functionally outside the blood brain barrier

Question 46

What is the vomiting centre called?

Answer 46

Area postrema

Question 47

What drug is used to treat vomiting in PD patients?

Answer 47

• Domperiodne
  
  • DA antagonist
  • Anti-emetic
  • Does not cross blood brain barrier
  • No antipsychotic properties
  • Relatively safe to use in PD
  • Has permitted the therapeutic use of apomorphine (which is a powerful emetic)

Question 48

What is dyskinesias?

Answer 48

Abnormal involuntary movements

Question 49

Which of DA agonists and DA antagonists cause dyskinesias?

Answer 49

Question 50

What can long term DA antagonist use lead to?

Answer 50

• Antipsychotics/anti-dizziness
• Often cause parkinsonism
  
  • Such as receptor blockade in basal ganglia
• Sometimes cause dyskinesias
  
  • Tardive dyskinesias (orofaciolingual)
    
    • Upregulation or increased sensitivity of certain DA (dopamine) receptors

Question 51

GABA agonists are used to treat what?

Answer 51

Anti-epilepsy drug

Also have anti-anxiety properties

Question 52

Serotonin is used to treat what?

Answer 52

• Selective serotonin reuptake inhibitors (SSRIs) are antidepressants
• Triptans (selective 5HT agonists) used for the treatment of migraine

Question 53

Noradrenaline is used to treat what?

Answer 53

• Reuptake blockers such as tricyclic drugs are antidepressants
• MAO inhibitors are antidepressants