Anti-Parkinsonian drugs and neuroleptics

Question 1

What dopaminergic pathways are there?

Answer 1

Nigrostriatal
Mesolimbic
Tuberoinfundibular system

Question 2

What is the nigrostriatal pathway and what is it involved in?

Answer 2

Cell bodies originate in the substantia nigra compact (black pigment can be viewed with eye) and projects to striatum-
Control of movement and is affected in parkinsons

Question 3

What is the mesolimbic pathway and what is it involved in?

Answer 3

Cell bodies originate in the ventral segmental area and project to the nucleus accumbens, frontal cortex, limbic cortex and olfactory tubercle- involved in emotion and affected in schizophrenia

Question 4

What is the tuberoinfundibulnar system and what is it involved in?

Answer 4

Short neurones running from arcuate nucleus of the hypothalamus to medial eminence and pituitary gland- Regulates hormone secretion

Question 5

How is dopamine synthesised?

Answer 5

It starts with tyrosine which is converted by tyrosine hydroxylase to DOPA, DOPA decarboxylase then converts DOPA to dopamine

Question 6

What receptors does dopamine act on?

Answer 6

D1 family (D1+D5) and D2 family (D2,3+4)

Question 7

What is reuptake of dopamine followed by?

Answer 7

Either recycling, negative feedback on DA release or metabolism by MAO

Question 8

What is the epidemiology of Parkinson’s like?

Answer 8

3rd most prevalent neurological disorder

4:1 males:females (oestrogen is protective)

Question 9

What percentage is familial and idiopathic?

Answer 9

Familial- 5-7%

Idiopathic- 93%

Question 10

What is the definition of Parkinson’s?

Answer 10

Progressive neurodegenerative disorder of movement. First describe by James Parkinson

Question 11

What does diagnosis require at least 2 of?

Answer 11

Resting tremor- shaking of limbs when released
Rigidity- stiffness, limbs feel heavy
Bradykinesia- Slowness of movement and initiating movement after thought
Postural abnormality e.g. loss of arm swing

Question 12

What other presenting symptoms are there for Parkinson’s?

Answer 12

Difficulty with fine movements- micrographic
Poverty of blinking
Impassive face
Monotony of speech and loss of volume of voice
Loss of balance

Question 13

What are secondary manifestations of Parkinsons?

Answer 13

Non-motor signs:
Depression (approximately 45%)
Pain in limbs due to build up of lactic acid from tremor
Taste disturbances and loss of olfaction
Dementia
Autonomic dysfunction: Constipation, postural hypotension, urinary frequency, importance, increased sweating

Question 14

What is the neuropathology of Parkinson’s?

Answer 14

Putamen-projecting pathways degenerate significantly. Lewy bodies also present
Cell loss in substantia nigra
Cell loss in locus coeruleus
Dorsal vagus nucleus, nucleus basalts of miners and other sub nuclei affected in some cases

Question 15

What is thought to be the role of Lewy bodies?

Answer 15

They are large circular structures with bright core and white surrounding, packed with alpha synuclein and thought to be defensive mechanism to protect against toxic altered proteins

Question 16

What percentage of dopaminergic neurones and stratal dopamine has to be depleted before symptoms appear?

Answer 16

Lose 80-85% of dopaminergic neurones and deplete 70% of striatal dopamine

Question 17

What prevents appearance of symptoms in Parkinson’s?

Answer 17

Compensatory mechanisms such as neurone overactivity and up regulation of DA receptors

Question 18

What is L-DOPA?

Answer 18

Dopamine replacement therapy

Question 19

What is the difference between DOPA and L-DOPA?

Answer 19

L-DOPA can cross BBB

Question 20

What does L-DOPA require to allow L-DOPA to cross BBB be centrally converted to dopamine?

Answer 20

Dopa-decarboxylase inhibitor

Question 21

What is L-DOPA used for

Answer 21

Hypokinesia, rigidity and tremor

Question 22

What are the acute side effects of L-DOPA?

Answer 22

Nausea- prevented by doperidone
Hypotension
Psychological effects- schizophrenia like

Question 23

What are the chronic side effects of L-DOPA?

Answer 23

Dyskinesia- abnormal movement of limbs and face

On-off effects- rapid fluctuation in clinical state

Question 24

What do DA-agonists target?

Answer 24

The receptors directly, principally the D2 receptors

Question 25

Give examples of DA agonists

Answer 25

Bromocriptine, pergolide and ropinerol

Question 26

How do DA agonists compare to L-DOPA?

Answer 26

Longer duration of action so smoother and more sustained response- less dyskinesia

Question 27

What are the adverse effects of DA agonists?

Answer 27

Common- confusion, dizziness, nausea/vomiting and hallucinations
Rare- Constipation, headache, dyskinesias

Question 28

What is monoamine oxidase involved in?

Answer 28

Breakdown of DA- stored in synaptic vesicles and will be released into synaptic cleft

Question 29

What is deprenyl (selegiline)

Answer 29

Selective inhibitor for MAO-B- predominates in dopaminergic areas of CNS, no peripheral side effects

Question 30

What are the side effects of deprenyl?

Answer 30

They are rare- hypotension, nausea/vomiting, confusion and agitation

Question 31

How does resagiline have neuroprotective properties?

Answer 31

It inhibits apoptosis

Question 32

Where is catechise-O-methyl transferase present?

Answer 32

In the CNS and periphery

Question 33

What does COMT do in the CNS?

Answer 33

Prevents breakdown of dopamine in the brain

Question 34

What does COMT do in the periphery?

Answer 34

It converts L-DOPA to 3-0-methyl-DOPA- they compete for the same transport system into the brain so less L_DOPA will cross BBB and there will be a smaller effect

Question 35

What do COMT inhibitors e.g. Tolocapone do?

Answer 35

They stop 3-OMD formation thus increasing the bioavailability of L-DOPA so more is converted to dopamine in CNS and it allows you to reduce L-DOPA dosage
Unfortunately they have marked side effect profile including CVS effects

Question 36

What percentage of the population is affected by schizophrenia?

Answer 36

1%

Question 37

What are the clinical features of schizophrenia?

Answer 37

Positive- Delusions, hallucinations, thought disorders

Negative- withdrawal, flattening of emotional responses

Question 38

What is the aetiology of schizophrenia strongly linked to?

Answer 38

It has a strong hereditary tendency with first degree relatives suffering in 10% and monozygotic twin risk rises to 50%

Question 39

What is the onset of schizophrenia like?

Answer 39

It is in adolescence following one of two types:
Relapsing and remitting (most common)
Chronic progressive

Question 40

What causes the positive and negative symptoms in schizophrenia?

Answer 40

Excessive dopamine transmission in the mesolimbic and stratal region lead to positive symptoms- mediated through D2 receptors
Whilst dopamine deficit in pre-frontal region, mediate by D1 receptors leads to negative symptoms

Question 41

What is the evidence to support the mechanism of schizophrenia?

Answer 41

Dopamine agonists e.g. bromocriptine can induce psychotic reactions
Typical anti-schizophrenic drugs are dopamine receptor antagonists

Question 42

What do typical neuroleptics include and what are they like?

Answer 42

They include chlorpromazine and are potent antagonists at many receptors therefore have big side effect profile

Question 43

What do atypical receptors include and why are they not preferable?

Answer 43

They include clozapine and aren’t preferable as they have smaller antagonist activity at other receptors

Question 44

What is he mechanism of all neuroleptic drugs?

Answer 44

They are antagonists at dopamine D2 like receptors. Most block other receptors e.g. 5-HT which accounts for side effects

Question 45

Why is clozapine effective at treating schizophrenia?

Answer 45

It is relatively non-selective between D1 and D2 but has high affinity for D4 receptors which are increased in schizophrenia

Question 46

What do drugs treat in schizophrenia?

Answer 46

The positive symptoms but not negative

Question 47

Why do neuroleptics have delayed effects?

Answer 47

Neuroleptics initially induce an increase in DA synthesis and neuronal activity i.e. compensatory mechanism to increase DA to overcome blockade (declines with time

Question 48

What other actions of neuroleptics are there?

Answer 48

Anti-emetic effect (blocks receptors in CTZ)
Blocking action at histamine receptors
Effective at controlling motion sickness
Endocrine effects- DA is involved in tuberoinfundibular system that regulates prolactin secretion. They increase serum prolactin concentrations which can lead to breast swelling and sometimes lactation in women
Blockade of cholinergic muscarinic receptors- typical peripheral anti-muscarinic side effects

Question 49

What are the side effects of neuroleptics?

Answer 49

Extrapyramidal side effects- Blockade of dopamine receptors in nigrostriatal system can induce Parkinson like side effects
Acute dyskinesias- related to blockade of dopamine receptors in striatum which leads to increased cholinergic function
Tardive dyskinesia- involuntary movements often involving face and tongue