Applied Neuro-Pharmacology

Question 1

Sequence of events in synaptic transmission?

Answer 1

1. Packaging of neurotransmitter in presynaptic terminals
2. Na AP in presynaptic terminal
3. AP opens Ca gated channels
4. Ca triggers package of neurotransmitter exocytosis
5. Transmitter diffuses across cleft, binds receptors
6. Transmitter inactivated by uptake or by extracellular breakdown
7. Transmitter metabolized

Question 2

What sort of manipulations to synaptic transmission could reduce synaptic transmission?

Answer 2

1. Block AP (local anaesthetics)
2. Block Ca channels
3. Block transmitter release
4. Block postsynaptic receptors (allows for selectivity)
5. Increase transmitter breakdown / uptake
6. Inhibit transmitter synthesis

Question 3

What sort of manipulations to synaptic transmission could increase synaptic transmission?

Answer 3

1. Use a transmitter agonist

2. Block transmitter break down / uptake

Question 4

What class of transmitter is dopamine?

Answer 4

Monoamine

• along with noradrenaline & serotonin

Question 5

What can help separate transmitters in the brain from having adverse actions elsewhere in the body (eg. in the PNS)?

Answer 5

The blood brain barrier

Question 6

Where is dopamine anatomically distributed in the brain?

Answer 6

• Brain stem
• Basal Ganglia
• Limbic system and Frontal cortex

Question 7

Which physiological functions are affected by dopamine?

Answer 7

• Voluntary movement
• Emotions / reward
• vomiting

Question 8

Where does the mesolimbic pathway run between? What brain functions is it involved in?
Consequences of overactivity?

Answer 8

• Ventral Tegmental Area (VTA) of midbrain to Ventral Striatum of the basal ganglia
• Involved in motivation and reward
• Overactivity leads to positive schizophrenia sx and hallucinations in PD

Question 9

Where does the mesocortical pathway run between? What brain functions is it involved in?
Consequences of impairment?

Answer 9

• Connects VTA of midbrain to prefrontal cortex
• Involved in executive function and cognition
• Impairment causes reduced cognition in PD and effects in schizophrenia

Question 10

What are the four main dopaminergic pathways of the brain?

Answer 10

• Mesocortical
• Mesolimbic
• Nigrostriatal
• Tubero-infundibular

Question 11

What is the Tubero-infundibular pathway involved in?

Answer 11

• Inhibition of prolactin

hormone for producing breastmilk

Question 12

Where does the nigrostriatal pathway extend from?

What is its main function?

Answer 12

• Connects the substantia nigra with the basal ganglia

- Critical in the production of movement as part of the basal ganglia motor loop

Question 13

What causes the effects of Parkinson’s Disease (PD)?

Answer 13

Degeneration of dopaminergic cells in the substantia nigra (SN)

• Therefore dopamine deficiency in basal ganglia

Question 14

Precursors during dopamine synthesis?

Answer 14

1. Glycine
2. Alanine
3. Phenylalanine
4. Tyrosine
5. DOPA (dihydroxyphenylalanine)
6. Dopamine

Question 15

What type of receptor does dopamine act on? How many subtypes of receptor are there for dopamine?

Answer 15

• Metabotropic (G-protein coupled)

- 5 different subtypes of receptor (all either activate or inhibit adenylate cyclase)

Question 16

What is the consequence of dopamine having multiple different receptors?

Answer 16

• Dopamine can have many effects, and produce different effects in different brain regions depending on which receptors are expressed

Question 17

What are the key enzymes in dopamine breakdown?

Answer 17

• Monoamine oxidase B (MAO-B)

- Catechol-O-methyltransferase (COMT)

Question 18

What effects does the loss of dopamine cause in PD?

Answer 18

• Stiffness
• Slow movements
• Change in posture
• Tremor

Question 19

What are some dopaminergic drugs?

Answer 19

Dopamine Precursor:
- Levodopa

Dopamine Agonists:

• Ergots (bromocriptine, pergolide)
• Non-Ergots (ropinirole, pramipexole)
• Apomorphine

(improve some symptoms of PD)

Question 20

What enzyme converts DOPA to Dopamine? Where can it be blocked? Effects of blockage?

Answer 20

• AAAD
• Can be blocked in the PNS (carbidopa),
• reduces peripheral side effects of PD and allows more DOPA to reach CNS

Question 21

What is the effect of MAOB and COMT inhibitors?

Answer 21

Reduce the metabolism of dopamine

• Therefore increase effectiveness of levodopa

Question 22

What are the positive effects of dopaminergic drugs?

Answer 22

Improve:

- Some motor features of PD, eg: limb rigidity, bradykinesia and tremor

Question 23

What are the negative effects of dopaminergic drugs?

Answer 23

• Nausea
• Vomiting
• Psychosis
• Impulsivity / abnormal behaviours

Question 24

What symptoms of Parkinson’s are not helped by dopaminergic drugs?

Answer 24

Midline Features, eg:
- Dysarthria (unclear speech)

• Balance
• Cognition

Question 25

What is the effect of dopamine antagonists?

Answer 25

Opposite of dopaminergic drugs:
- Improve: vomiting, nausea and psychosis

• Worsen: Parkinsonism

Question 26

Where is the vomiting centre of the brain? How can this help vomiting treatment?

Answer 26

• The area postrema (vom centre) is in the medulla, but is functionally OUTSIDE the BBB
• Allows possibility for Dopamine antagonist that doesn’t cross BBB to be used to treat vomiting

Question 27

What is the dopamine antagonist that doesn’t cross the BBB and so can be used to treat vomiting? Is it safe to use in PD patients?

Answer 27

Domperiodne

• Relatively safe for PD patients, no antipsychotic properties though

Question 28

What is a drug that induces vomiting called? What is one that stops vomiting called?

Answer 28

• Emetic

- Anti-emetic

Question 29

What is a dyskinesia?

How do dopaminergic drugs and dopamine antagonists relate to dyskinesia?

Answer 29

• Dyskinesia: abnormal involuntary movements
• Dopaminergic drugs may cause dyskinesia (too much movement)
• DA antagonists may cause parkinsonism (not enough movement)

Question 30

What are dopamine agonists usually used to treat? What can their long term use cause?

Answer 30

• Function as Antipsychotics / anti-dizziness drugs
• Can cause Parkinsonism (receptor blockade in basal ganglia)
• Can cause dyskinesia (complicated - due to increased sensitivity of certain dopamine receptors)