Exam 2 Lecture 18, Anti- PD I

Question 1

Basal Ganglia

Answer 1

Caudate Nucleus
Putamen
Globus pallidus
Subthalamic nucleus
Substantia nigra

Question 2

Parkinson’s disease

Answer 2

Hypo-Dopaminergic

Due to A9 nigrostriatal dopamine neurons

Motor symptoms ie poverty of movement (bradykinesia)

Question 3

Parkinson’s Treatment strategies

Answer 3

To replace/preserve dopamine, dopamine agonists, cholinergic blockers, prevent further cell death, surgical treatments

Question 4

Schizophrenia

Answer 4

Hyper-dopaminergic disorders

Due in part to functional excess of dopamine transmission in limbic cortex and striatum (terminal areas of A10 dopamine neurons)

Psychiatric symptoms: ie disordered thinking, hallucinations

Treatment strategies: Dopamine receptor blocking drugs

Question 5

What is Tardive dyskinesia, what causes it

Answer 5

Hyper-dopaminergic disorder

due to chronic blockade of D2 dopamine receptors; a man made disease

Motor symptoms: excessive, uncontrollable movements, primarily orofacial movements such as tongue, lip, jaw

Question 6

Tardive dyskinesia mechanism

Answer 6

Exact mechanism unknown,

known that long term block of dopamine receptors causes up-regulation of striata dopamine receptors; spillover of dopamine onto supersensitive sites = increase dopamine effects on motor circuit = increase movement

in support of super sensitivity hypothesis, raising dose of the antipsychotic drug reduces symptoms of TD but worse at the end

Question 7

Evidence against supersensitivty Tardive dyskinesia

Answer 7

supersensitivity occurs within weeks, but TD takes months/years

Maybe receptor up regulation is first step in cascade of changes with later downstream changes in GPi/ SNr GABA sensitivty

Question 8

Treating Tardive Dyskinesia

Answer 8

Hard to treat or reverse, stopping antipsychotic makes symptoms worse initially, increasing reduces symptoms but ethically unacceptable;

Clozapine useful

Best approach is preventative, use lowest effective dose of antipsychotic, overdosing promotes receptor supersensitivtiy and hasten TD

Question 9

Huntington’s Disease

Answer 9

Hyper-dopaminergic

Autosomal dominant inheritance of mutant gene on chromosome 4, mid-life onset (30-50), fatal ~15 years

Rare in general pop (1 in 10,000), offspring of affected parent at risk have 50/50 of getting

Question 10

Huntington’s Disease

Motor and psychiatric symptoms:

Answer 10

constant, uncontrollable movements of a writhing or dance-like type (chorea) involving the entire body; gradual loss of intellectual/ genitive function progressing to dementia or psychosis

Question 11

Huntington’s Disease treatment

Answer 11

dopamine receptor blocking drugs reduce both motor and psychiatric symptoms; drugs do not arrest disease process; there is no cure

Question 12

Huntington’s Disease Neuropathology

Answer 12

massive loss of striata GABAergic “medium spiny” efferent neurons (striatonigral and striatopallidal cells) with shrinkage of striata volume; D1 and D2 neurons dying

dopamine neurons innervating striatum are NOT affected

Question 13

Mechanism of gene defect and striata cell loss (HD)

Answer 13

1983, discover gene locus, made presymptomatic test for at risk people

1993, discovery of gene IT15; found to contain polymorphic trinucleotide repeat sequence (CAG) expanded many times beyond normal level. CAG repeat codes for a polyglutamine sequence in the expressed protein, called huntingtin

CAG repeat length positively correlated with onset/severity of disease

IT15 mRNA present in all brain areas, but not in very high levels in striatum or neuron types that die in disease

Question 14

Function of huntingtin gene

Answer 14

Unkown, but mutation is thought to cause a “gain of function”, with expanded polyglutamine stretch

must be necessary during development because knockout mice cause embryonic death

hard to degrade, accumulates and forms insoluble aggregation

Question 15

“Knock out” Huntingtin Gene

Answer 15

causes embryonic death so huntingtin protein must be necessary during development

Question 16

“Knock in” of human HD gene >140 CAG repeats

Answer 16

mouse will have progressive neurological symptoms similar to HD polyglutamine regions of mutant huntingtin aggregate in nuclei and cytoplasm of neurons in HD brain

Question 17

Mechanism of striata cell death Huntington’s Disease

Answer 17

unknown,

unclear if huntingtin aggregates are cause of pathology or a feature of surviving neurons

mutant huntingtin is known to be susceptible to mis-folding, leading to insoluble aggregates, which escape normal cell degradation and disposal mechanism

Question 18

Balance between dopamine and acetylcholine in PD

Answer 18

Cell only sense ACh so balancing with DA is important

However in Huntington’s Disease, balance between two doesn’t matter since GABA neurons are dying and those get acted on by those.

Question 19

Tourettes syndrome

Answer 19

Hyper-dopaminergic disorder

Due to autosomal dominant inheritance of one or more genes, high variable expression

onset in childhood 5-15 often with remission in maturity

Question 20

Tourette’s Motor symptoms

Answer 20

Motor and vocal tics which intrude in otherwise normal behavior and speech.

ie grunts, barks, yelps, screams, swearing, blowing air in or out

can be difficult to suppress, seen in associating with OCD

Question 21

Tourettes neuropathology

Answer 21

excess number of dopamine receptors in striatum, especially D2 receptor density in head of caudate

Question 22

Tourettes treatment strategies

Answer 22

Dopamine receptor blockers (especially haloperidol or pimozide); also used are clonidine or SSRI’s (for OCD case)

Question 23

What is Restless legs syndrome

Answer 23

Hyper-dopaminergic disorders

causes irresistible urge to move legs, hard to control. Progresses worse over aging

Gets worse at rest, effects sleeping. both patient and partner

thought to affect up to 10% people in US, twice as many cases in women. Genetic links not well known

Iron deficiency is common, thought to down regulate myelin and affect RLS symptoms by altering sensorimotor integration neuronal pathways

Question 24

Restless legs syndrome (mechanisms?)

Answer 24

Morning increase Dopamine activity (due to circadian activity) can be sufficient to compensate the postsynaptic down regulation caused by hyper-dopaminergic state

Symtoms subside in morning. During daytime and night when dopaminergic activity deficit may arise, can trigger RLS symptoms. Small dose of D2 agonist in evening can correct relative evening decrease in DA.

Question 25

Restless legs syndrome treatment

Answer 25

RLS induces a hyper-dopaminergic state, but dopamine agonists (D2) show good efficacy.

Calcium channel blockers (gabapentin and pregabalin ) also prescribed and shown effective

Tolerance and augmentation due to receptor overstimulation can happen with DA agonists over time

Question 26

Progressive Death (Parkinson’s) and Neurochemical findings

Answer 26

Progressive death of A9 nigrostrital DA neurons results in loss of dopaminergic transmission in the striatum

Neurochemical findings: decreased striata DA content with possible changes in DA D2 receptor number or affinity

Question 27

Parkinson’s Etiology

Answer 27

Most cases idiopathic with onset in middle or late life, prevalent disorder

No obvious genetic component in most cases, there is a rarer inherited form (mutation in a-synuclein gene)

Normal aging process may be responsible, symptoms only occur after > 90% DA cell loss

Environmental factors may accelerate cell loss

Question 28

PD Cases attributable to infection or drug use

Answer 28

Postencephalitic Parkinsonism of 1919 - 1924 followed epidemic of encephalitis lethargica

Parkinsonism due to antipsychotic drugs DA receptor blockade

1979 - 1981 due to “designer drug” MPTP Bay Area

Question 29

Neurotoxicity of MPTP

Answer 29

MPTP converted into MPP+ by MAO-B, MPP+ neurotoxic in species

MPP+ taken up by DA neurons, kills them by inhibiting mitochondrial respiration by blocking enzyme NADH dehydrogenase. Cells die due to energy starvation

MPP+ can cross BBB

Question 30

Idiopathic PD

Answer 30

May be due to inherent, genetically based defect in energy metabolism of DA cells, making them vulnerable to certain environmental toxins which cause oxidative damage and lead to DA cell death.

Question 31

A-synuclein PD cause

Answer 31

a-synuclein causes misfolded proteins - turn into oligomers then fibrils and form Lewy bodies and neuritis on neuron causing issues

Question 32

Parkinson’s Symptoms

Answer 32

Termor
Bradykinesia and akinesia
Rigidity
Postural abnormality
Mouth slightly open and drooling
Micrographia and microphasia - issue writing

Question 33

Pharmacological basis of PD therapeutics

Answer 33

Try to restore normal functioning of striatum by…
restore DA levels to normal
Correct imbalance between ACh and DA in striatum
Directly stimulate striata D2 DA receptors with agonist drug