Anti-Parkinson's Drugs & Neuroleptics

Question 1

what are the 4 prinicipal dopaminergic pathways of the brain?

Answer 1

• nigrostriatal
• mesolimbic
• mesocorticol
• tubero-infundubular

Question 2

what is the nigrostriatal pathway?

Answer 2

substanstia nigra pars compacta –>corpus striatum.

Question 3

what is the role of the nigrostriatal pathway? which condition is it impacted in?

Answer 3

control of movement (initiating and fine tuning and ending movement control)

impacted in Parkinsons

Question 4

what is the role of mesolimbic pathway?

which condition is it impacted in?

Answer 4

brain reward pathway

affected in schizophrenia

Question 5

what is the mesolimbic pathway?

Answer 5

ventral tegmental area (VTA) –> NAcc (ventral striatum)

Question 6

what is the mesocortical pathway?

Answer 6

VTA–> cortical areas like frontal cortex, limbic cortex

Question 7

what is the role of the mesocortical pathway?

Answer 7

executive function

Question 8

what is the tubero-infundibular pathway?

Answer 8

arcuate nucleus–> median eminence–> pituitary gland

arcuate nucleus is in the hypothalamus
used in appetite control via orexinergic pathways

Question 9

what is the role of the tubero- infundibular pathway?

Answer 9

hormone secretion regulation (endocrine)

e.g prolactin (inhibited by dopamine)

Question 10

what are the precursors of dopamine?

Answer 10

L-tyrosine to L-DOPA via Tyrosine hydroxylase

L-Dopa to DA via DOPA decarboxylase

Question 11

what are the 2 families of DA receptors? which are the members?

Answer 11

o D1 family – D1, D5.

o D2 family – D2, D3, D4.

Question 12

what is the mean age of onset of PD?

Answer 12

65
4:1 males to females

can affect younger people however

Question 13

what is the main pathogenesis of PD?

Answer 13

degeneration of the nigrostriatal pathway (dopaminergic projections) from the substantial niagra to the corpus striatum

Question 14

what are the 2 main causes of PD?

Answer 14

o Familial cases (8%) geneslead to earlier onset of the disease

• SNCA (alpha synuclein)
• LRRK2

o Idiopathic (92%)

Question 15

what are the clinical signs of PD?

Answer 15

o Resting tremor (early)
– shaking of the limbs when relaxed (opposite of intention tremor).

o Rigidity (late)
 – stiffness, limbs feel heavy/weak.

o Bradykinesia
– slowness of movement.

o Postural abnormalities.

features can be unilateral and spread bilaterally

Question 16

what are the motor symptoms of PD?

Answer 16

o Pill-rolling tremor at rest.					
o Difficulty with fine movements 
– micrographia.			
o No blinking and a blank face.					
o Monotone speech.						
o Disorder of posture 
– flexion of neck and trunk.			
o Lack of arm swing.						Postural hypotension.
o Loss of balance
 – lack of a righting reflex.			
o Short steps, shuffling gait.

Question 17

what are the non-motor/autonomic symptoms of PD?

Answer 17

o Depression.
o Sleep disturbances.
o Taste/smell disturbances.
o Dementia.
o Constipation.
o Postural hypotension.
o Urinary urgency.
o Impotence and hyper-hydrosis.

Question 18

what is the main area affected in PD?

Answer 18

Substantia nigra (pars compacta)

loss of neuro-pigment and degeneration

Question 19

what does the Substantia nigra project into?

Answer 19

Caudate and the Putamen

dorsal striatum

Question 20

what visible change occurs in the SubNig in PD?

Answer 20

neuro-melanin pigment is lost

Question 21

what physical change in the brain leads to the motor features of PD?

Answer 21

Substantia nigra degeneration

other: Locus Coeruleus (LC), dorsal vagus nucleus, Nucleus Basalis of Mynert.

Question 22

what proteins can be found in the brain with PD?

Answer 22

• Lewy Bodies (contain Synuclein and Ubiquitin)
• Neurites
• abnormally phosphorylated neurofilaments (altered proteins)

these are not targeted in therapy

Question 23

what are the sets of symptoms in PD?

Answer 23

• motor

- non-motor/ autonomic

Question 24

how does PD progress (pathological changes with stage)?

Answer 24

Synuclein is part of Lewy Bodies (also ubiquitin)
characteristic to Parkinsons

Stages 1 & 2 
– Synuclein deposition in the 
Dorsal motor nucleus of Vagus
Raphe Nucleus
Locus Coerulus 
– pre-symptomatic.

Stages 3
– Synuclein deposition in Substantia Nigra – onset of motor deficits.

Stage 4, 5, 6
– deposition in the amygdala and cortical areas e.g. cingulate cortex, frontal, temporal etc

Question 25

how much damage has been done to neurones before symptoms of PD appear?

Answer 25

damage to at least 80-85% DA neurones and 70% of the striatal DA before symptoms appear

due to the compensatory mechanisms of the body which prevent the appearance of clinical symptoms.

Question 26

by which 3 mechanisms can we treat PD symptoms?

Answer 26

1) dopamine replacement to account for neurodegeneration (increase DA supply)
2) activation of DA receptors (induce DA effects)
3) reducing DA metabolism (to increase DA survival)

Question 27

what drug can be given to replace dopamine in PD?

Answer 27

Levodopa (L-DOPA)

precursor of dopamine
NB L-tyrosine–> DOPA–> Dopamine

Question 28

how does Levodopa enable replacement of dopamine?

Answer 28

provides the DA precursor L-DOPA so it can be converted by DOPA decarboxylase to DA

this drug is capable of crossing the BBB to enter the CNS and work given that the DA receptors are intact (PD affects presynaptic transmission)

Dopamine CAN NOT cross the BBB

Question 29

why is L-DOPA precursor given rather than more DA?

why not more tyrosine?

Answer 29

L-DOPA can cross the BBB while DA can NOT cross the BBB

Giving more tyrosine has no effect as the amount of tyrosine hydroxylase is constant

Question 30

how is dopamine replacement therapy (Levodopa) provided?

Answer 30

Levodopa is given with an adjuvant Carbidopa

combo known as Sinamet

Question 31

what is carbidopa and why is it given with Levodopa?

Answer 31

carbidopa is a DOPA decarboxylase inhibitor

this will ensure that L-DOPA (Levodopa) is not metabolise into DA in the periphery and enables the maximum amount of L-DOPA to cross the BBB.

summary: increase L-DOPA in the CNS

Question 32

examples of combined dopamine replacement drugs?

Answer 32

• Sinamet (Carbidopa + L-DOPA)

- Madopar (Benserazide + L-DOPA).

Question 33

what effect does L-DOPA have on symptoms?

Answer 33

Treats – hypokinesia, rigidity and tremor

if symptoms do not improve with Levodopa , the PD diagnosis needs to be questioned

however effectiveness does decrease with time

Question 34

why are adjuvants given with Levodopa?

Answer 34

to reduce side effects namely nausea and vomiting

DA can bind to receptors of CTZ

Question 35

what drugs are used to replace DA (increase initial supply) in the CNS?

Answer 35

Levodopa along with carbidopa (enhancer)

DA is indirectly increased by reducing metabolism (not by boosting DA supply)
- COMT inhibitors
- MAO inhibitors
COMT and MAO degrade monoamines like DA so their inhibition means there is more DA available

Question 36

what do COMT inhibitors do in the CNS? example of drug

Answer 36

prevent breakdown of DA

Tolocapone (works periphery aswell)

Question 37

what does COMT usually do in the periphery?
what effect would inhibition of COMT have?
example of drug

Answer 37

• peripheral COMT converts L-DOPA to 3-OMD
• 3-OMD competes with L-DOPA to cross the BBB
• therefore inhibition means more L-DOPA can cross the BBB

example: Entacapone

Question 38

what are the side effects of L-DOPA/Levodopa treatment?

Answer 38

o Acute
– nausea (DA to CTZ)
(treat with D2-receptor antagonists), hypotension, psychological effects (e.g. confusion)

o Chronic
– dyskinesias (abnormal movements of limbs/face)
“On-Off” effects (fluctuations in clinical state).

Question 39

what drug is given to increase DA receptor activation (one of the methods in treating PD)?

Answer 39

Dopamine Receptor Agonists
D2 specifically

e.g. bromocriptine

Question 40

MAO inhibitor drug example

Answer 40

Selegiline: MAO-B inhibitor
MAO-B preferentially degrades DA therefore inhibition is ideal for PD

MAO-A degrades 5HT and NA therefore inhibition would be ideal for anti-depressants where serotonin and noradrenaline are in deficit especially

Question 41

what are side effects of MAOi?

Answer 41

orthostatichypotension
nausea
confusion
agitation.

at overdose: limited by the Cheese Reaction involving tyramine (competes with NA for MAO so enhanced NA in the cleft leading to a hypertensive crisis)

Question 42

name examples of D2 receptor agonists and their categories

Answer 42

Bromocriptine, Pergolide
- Ergot Derivatives

Ropinerol, Rotigotine
- Non-Ergot Derivatives

Question 43

why do D2 receptor agonist work in treating PD?

Answer 43

in PD, the postsynaptic receptors are intact. Degeneration of PREsynaptic transmission is the problem so receptors can be stimulated by agonists

Question 44

what is the different in side effects between Ergot derivative D2R agonists and Non-Ergot derivative drugs in terms of side effect?

Answer 44

Non-Ergot derivatives don’t have the cardiac fibrosis side effect (valve issue) unlike Ergot derivatives

however Non-Ergot derivatives lead to addictive behaviours (general impulse control)

Question 45

what is the advantage of using D2 receptor agonists over L-DOPA?

Answer 45

• long T1/2 (longer than L-DOPA)
• have a smoother and more sustained response
• the action is independent of condition of DA neurones (doesn’t rely on synthesis if DA)
• dyskinesia incidence is less.

Question 46

what are the negative side effects of D2 receptor agonists?

Answer 46

e.g Bromocriptine, Pergolide, Ropinerol

commom: confusion, dizziness, nausea, hallucinations,
rare: constipation, headache, dyskinesias

dyskinesia is impairment of voluntary movement

Question 47

what are the positive symptoms of schizophrenia? what causes these symptoms?

Answer 47

increased mesoLIMBIC DA activity via D2 :

• Hallucinations
• delusions
• disorganised thoughts (though disorder)

[mesolimbic: VTA–> NAcc]

positive symptoms are added aspects

Question 48

what are the negative symptoms of schizophrenia?

Answer 48

decreased mesoCORTICAL DA activity via D1
- alogia= Reduced speech
- affective flattening= lack of expression
- avolition= diminished ability to begin and sustain activities (motivation)
- anhedonia=
decreased ability to find pleasure in everyday activities
- asociality= social withdrawal

Question 49

what is meant by a positive and negative symptom in schizophrenia?

Answer 49

positive: adds a behaviour/feeling/thought
negative: takes away a behaviour/feeling/thought

Question 50

what are the negative symptoms of schizophrenia?

Answer 50

• alogia
• affective flattening
• avolition
• anhedonia
• asociality

Question 51

what are the cognitive deficits associated with schizophrenia?

Answer 51

deficits in – memory, attention, planning and decision making.

Question 52

what causes the positive symptoms of schizophrenia?

Answer 52

increased mesolimbic DA activity via D2 receptors

Question 53

what causes the negative symptoms of schizophrenia?

Answer 53

decreased mesocortical DA activity (DA deficit is seen in pre-frontal regions mediated by D1 receptors )

Question 54

what symptoms of schizophrenia do anti-schizophrenia drugs usually target?
how do these drugs specifically address these symptoms?

Answer 54

the positive symptoms

• anti-schizophrenic drugs are normally dopamine antagonists
• easily targets positive symptoms as they are caused by dopamine hyperactivity in the mesolimbic system
• via D2 receptors

negative symptoms are hard to target (due to dopamine hyPOactivity, therefore antagonism would make these symptoms worse)

Question 55

what is schizophrenia?

Answer 55

a long-term mental disorder of a type involving a breakdown in the relation between thought, emotion, and behaviour, leading to faulty perception, inappropriate actions and feelings, withdrawal from reality and personal relationships into fantasy and delusion, and a sense of mental fragmentation.

Question 56

what are the neurochemical theories for schizophrenia?

Answer 56

1) Dopamine theory

2) Glutamate theory

Question 57

what classes of drugs are used in treating schizophrenia?

Answer 57

Neuroleptics

1) D2-receptor antagonists
– ALL neuroleptics.

2) Block other receptors e.g. 5-HT
– MOST neuroleptics.

Antipsychotics/Neuroleptics:-apine, -idone, -azole.

Question 58

what are the first generation of drugs treat the positive symptoms of Schizophrenia?

what are the side effects?

Answer 58

D2 receptor antagonists:
1) chlorpromazine
side effect: sedative & anti-muscarinic effects

2) haloperidol
side effect: extrapyramidal

Question 59

what drug can be used for negative symptoms of schizophrenia?

Answer 59

clozapine (only one)
5HT2a receptor antagonist

side effects: potentially fatal neutropenia, agranulocytosis, myocarditis & weight gain side effect

Question 60

what are the 2nd generation of drugs used to treat the positive symptoms of schizophrenia?

Answer 60

1) Risperidone [5-HT2A & D2 receptors antagonist]
side effect: EPS & hyperprolactinaemia

2) Quetiapine
[H1 receptors antagonist]
side effect: Lower incidence of EPS

3) Aripiprazole
[partial AGONIST of D2 & 5-HT1A receptors]
side effect: Reduced incidences of hyperprolactinaemia & weight gain

Question 61

what are the general side effects of neuroleptics (schiz)?

• due to DA receptor blockage
• due to blockage of other receptors

Answer 61

1) effect of blocking DA receptors:
- extrapyramidal effects aka Parkinson’s like symptoms (Block DA-R in nigro-striatal system )
- sedation
- hyperglycaemia
- prolactin secretion (DA inhibition removed)

2) effect of blocking other receptors:
- orthostatic hypotension (blocking alpha-adrenoceptors)
- peripheral anti-muscarinic side effects (blocking mAChr)
- weight gain (blocking 5-HTr)

Question 62

which is the only partial agonist neuroleptic?

Answer 62

aripiprazole
partial AGONIST of D2 & 5-HT1A receptors

no more efficacious

Question 63

where is synuclein deposition seen in stage 1 of PD progression?

Answer 63

Dorsal motor nucleus of Vagus
Raphe nucleus
Locus Coerulus

all pre synaptic