Parkinson's Disease

Question 1

Name the 3 main categories of PD symptoms

Answer 1

Premotor
Motor
Postmotor

Question 2

Name the premotor symptoms of PD

Answer 2

Depression
Loss of olfaction
REM sleep disorder

Question 3

Name the motor symptoms of PD

Answer 3

Bradykinesia
Rigidity
Resting tremor
Masked face

Question 4

Name the postmotor symptoms of PD

Answer 4

Dementia

Visual hallucinations

Question 5

What are the two main pathologies seen in PD?

Answer 5

Progressive loss of DAergic neurons in SNpc

Lewy bodies in remaining SN neurons

Question 6

What are the 2 main treatment types for PD currently?

Answer 6

Deep brain stimulation

Drugs

Question 7

Which drugs are currently used to treat PD?

Answer 7

L-Dopa
MAOB/COMT inhibitors
DA agonists

Question 8

Through which brain areas do LBs spread?

Answer 8

Brainstem -> midbrain via SN -> cerebral cortex

Question 9

Where in the periphery can LBs be found in PD?

Answer 9

Enteric neurons
Vagus nerve
Autonomic ganglia

Question 10

What is the main component of LBs?

Answer 10

Alpha-synuclein

Question 11

What is incidental LB disease?

Answer 11

LBs mainly in brainstem
Mild DAergic neuronal loss
Clinically normal
Diagnosed postmortem - could be presymptomatic PD

Question 12

What are the 3 main types of PD risk factors?

Answer 12

Increased age
Environment
Genetics

Question 13

Name 5 genes that increase familial PD risk

Answer 13

SNCA
Parkin
PINK1
LRRK2
GBA

Question 14

Name 2 environmental factors that increase PD disease risk

Answer 14

Living near metal alloy industries

Well water drinking

Question 15

Name 2 environmental factors that decrease PD disease risk

Answer 15

Smoking

Coffee drinking

Question 16

What is the effect of MPTP?

Answer 16

Destroys SN DAergic neurons

Causes permanent Parkinsonian symptoms

Question 17

What is the physiological function of alpha-synuclein?

Answer 17

Unknown

Question 18

What is the effect of alpha-synuclein KO in mice?

Answer 18

Fairly normal
Altered DA release
Some neuronal dysfunction

Question 19

Name an autosomal dominant cause of PD

Answer 19

SNCA

Question 20

What is the effect of an SNCA locus duplication?

Answer 20

3 copies of gene - increased alpha-syn

PD development in 40s

Question 21

What is the effect of an SNCA locus triplication?

Answer 21

4 copies of gene - greatly increased alpha-syn

PD development in 30s

Question 22

What are the steps of alpha-synuclein aggregation?

Answer 22

Soluble monomer (normal/B-sheet-rich)
Soluble oligomer (normal/B-sheet-rich)
Protofibril
Fibril
LB (inclusion/aggregate)

Question 23

Which alpha-synuclein species are thought to be toxic?

Answer 23

Soluble oligomers

Protofibrils

Question 24

What is the effect of transplanting foetal tissue into PD patients and what could explain this?

Answer 24

LBs form in graft

Could be LB transmission - could be host environment causes dysfunction in graft causing alpha-syn aggregation

Question 25

What are the structures of the normal and mutant alpha-synuclein monomers?

Answer 25

Normal - alpha-helices

Mutant - beta-sheets

Question 26

What is permissive templating?

Answer 26

Exposing normal alpha-syn to misfolded B-sheet alpha-syn decreases energy required for normal protein unfolding
Increases chance of refolding
Increases chance of aggregate formation

Question 27

Name 3 ways in which alpha-syn can be transferred between cells

Answer 27

Exosomes
Free in solution
Tunneling nanotubes

Question 28

What is the effect of DA on alpha-synuclein?

Answer 28

Causes protofibril formation

Question 29

How does MPTP cause parkinsonism?

Answer 29

Uncharged - crosses BBB
Metabolised to MPP+ - substrate for DAT - uptake into DAergic neurons
Opposite charge to -ve mito matrix - crosses mito membrane
Inhibits complex I function
Decreases ATP production, increases ROS (oxi stress)
DAergic neuron death

Question 30

How does alpha-synuclein interact with lysosome functioning?

Answer 30

Alpha-syn degraded by chaperone-mediated autophagy

Alpha-syn aggregates removed by macroautophagy

Question 31

How is mitochondrial function altered in idiopathic PD patients?

Answer 31

Decreased complex I activity

In SN tissue, platelet mitochondria

Question 32

Which mitochondrial ageing phenomenon is further increased in PD SN neurons?

Answer 32

Higher mtDNA levels with deletion

Question 33

How is the sensitivity of DAergic SN neurons to mitochondrial respiratory chain toxins altered in PD and why might this be?

Answer 33

Increased
Could be due to oxidative stress
Could be due to defective degradation of damaged mitos - due to autophagy/lysosome defects

Question 34

What is the overall role of parkin and PINK1?

Answer 34

Prevent fusion back of damaged mitos fragmented by fission

Question 35

Why might DAergic neurons be so vulnerable to mitochondrial dysfunction in PD?

Answer 35

High spontaneous burst/pacemaking activity - high energy demands
High Ca2+ fluxes - more vulnerable to Ca2+ dysregulation

Question 36

How might alpha-synuclein affect mito function?

Answer 36

Inhibit mitochondrial respiratory chain - possibly complex I

Question 37

What are the 4 main methods of alpha-synuclein degradation?

Answer 37

Ubiquitin proteasome system
Macroautophagy
Chaperone-mediated autophagy
Mitophagy

Question 38

What does the ubiquitin proteasome system involve?

Answer 38

Unfolded protein tagged with ubiquitin

Sent to proteasome for degradation

Question 39

What does macroautophagy involve?

Answer 39

Autophagosomes (double-membrane vesicles) form around proteins
Fuse with lysosomes

Question 40

What does chaperone-mediated autophagy involve?

Answer 40

Unfolded protein associates with chaperone complex

Sent to lysosome for degradation

Question 41

What does mitophagy involve?

Answer 41

Only degradation method for misfolded alpha-syn
Whole mitochondrial engulfed by autophagosomes
Fuse with lysosomes

Question 42

How is UPS functioning altered in PD?

Answer 42

Decreased proteasomal activity in SN

Question 43

Are proteins in LBs ubiquitinated in PD?

Answer 43

Yes

Question 44

How is macroautophagy functioning altered in PD?

Answer 44

Fewer lysosomes in SN

More autophagosomes in SN

Question 45

How is CMA functioning altered in PD?

Answer 45

Decreased CMA protein levels

Question 46

How does VPS35 affect PD risk?

Answer 46

Autosomal dominant cause

Question 47

What is the physiological function of VPS35?

Answer 47

Component of retromer complex

Retromer enables retrograde transfer of MPR from endosome back to trans-Golgi network

Question 48

What is the role of the mannose-6-phosphate receptor (MPR)?

Answer 48

Transfers lysosomal enzymes from Golgi to endosomes - then lysosomes

Question 49

What is the proposed pathological mechanism of VPS35 in PD?

Answer 49

Retromer defect - MPR not returned to Golgi
Incomplete transfer of lysosomal enzymes to lysosomes
Impaired protein degradation - alpha-syn accumulation

Question 50

What is the physiological role of GBA1?

Answer 50

Encodes glucocerebrosidase - lysosomal enzyme

Catalyses glucocerebroside breakdown

Question 51

What do recessive mutations in GBA1 cause and what does this disease involve?

Answer 51

Gauchers disease

Lysosomal storage dysfunction

Question 52

What is the effect of a heterozygous recessive GBA1 mutation?

Answer 52

Increased PD risk

Question 53

What is the proposed pathological mechanism of GBA1 in Gauchers disease?

Answer 53

Loss-of-function
Accumulation of glucocerebroside in lysosomes
Lysosome dysfunction - impairs mitophagy - impairs MRC activity
Induces unfolded protein response

Question 54

What are the 2 possible mechanisms by which GBA1 mutation may lead to neuronal death in PD?

Answer 54

GBA1 misfolding in ER causes UPR - decreases translation - causes apoptosis
GBA1 misfolding in ER - targeted for degradation - decreases GBA1 in lysosome - increases glucocerebroside - causes lysosome dysfunction - decreases alpha-syn degradation

Question 55

What is the physiological role of ATP13A2?

Answer 55

Transports Zn2+ into lysosome

Question 56

What is the pathological role of ATP13A2?

Answer 56

Loss-of-function

Affects lysosomal function - impairs protein degradation

Question 57

Which LRRK2 variant increases PD risk?

Answer 57

G2019S

Question 58

What is the physiological role of LRRK2?

Answer 58

Unknown
Kinase
Linked to autophagy, microglial mobility, mito function

Question 59

What is the pathological role of LRRK2 with a G2019S mutation?

Answer 59

Increased kinase activity

Effect unknown

Question 60

What is the effect of a PINK1/parkin KO?

Answer 60

MRC defects

Question 61

What is the physiological role of DJ-1?

Answer 61

Oxidative stress sensor

Translocated to mitos in response to oxi stress - antioxidant role - protective

Question 62

What does mutant DJ-1 PD involve?

Answer 62

Abnormal symptoms - dystonia, psychiatric features

Question 63

What is the pathological role of DJ-1?

Answer 63

Loss-of-function

No translocation to mitos in response to oxi stress - impairs defence against damage

Question 64

What does oxidative damage modify?

Answer 64

Amino acids
DNA (inc. mtDNA)
Lipids

Question 65

How has oxidative stress been linked to idiopathic PD?

Answer 65

Increased oxi stress

Question 66

Mouse models deficient in the expression of which genes show increased oxi stress?

Answer 66

Parkin
PINK1
DJ-1

Question 67

What are the 3 sources of ATP in the cell and which is the main source?

Answer 67

ETC - main source
Krebs cycle
Glycolysis

Question 68

What is the effect of mito damage on mito membrane potential?

Answer 68

Depolarisation

Question 69

Why is mito function particularly important in neurons?

Answer 69

Neurons have very little glycolysis - dependent on mitos for ATP
Many energy-demanding processes in neurons

Question 70

How are ROS formed in the mitochondria?

Answer 70

Electron leak from ETC

Electrons react with free oxygen

Question 71

What are the roles of antioxidant enzymes?

Answer 71

Decrease ROS number

Decrease ROS toxicity - by converting to different ROS

Question 72

What are the 4 effects of age on mitos?

Answer 72

Decreased antioxidant levels
Decreased protein degradation
Increased mtDNA damage - by ROS
Electron leak decreases H+ gradient - decreases ATP production - decreases mito membrane potential - mPTP opening - cell death

Question 73

What causes mPTP opening?

Answer 73

Increased mito Ca2+

Mito depolarisation

Question 74

What is the effect of mPTP opening?

Answer 74

H+ efflux - loss of H+ gradient
Decreased ATP production
Cell death

Question 75

What happens to fissioned mitos?

Answer 75

Fusion or mitophagy

Question 76

What is the physiological role of PINK1?

Answer 76

Regulates mito Ca2+ efflux - via IMM Ca2+/Na+ exchanger

Question 77

What is the effect of PINK1 deficiency?

Answer 77

Impairs Na+/Ca2+ exchanger in IMM
Increased mito Ca2+ - decreases buffering capacity
Increased cytosolic Ca2+ - decreases mPTP opening threshold
Increased NADPH oxidase activity - increased ROS
Opens mPTP
Cell death

Question 78

How do excess fission and fusion affect synapses?

Answer 78

Decreased ATP at synapse

Question 79

Which mitochondrial process are PINK1 and parkin involved in?

Answer 79

Mitophagy

Question 80

Name 7 mechanisms of mitochondrial quality control

Answer 80

Mito chaperones
Mito proteases
Cytoplasmic UPS
mtUPR
Mitochondria derived vesicles (MDRs)
Mitophagy
Apoptosis

Question 81

What is the role of mitochondrial chaperones?

Answer 81

Fold protein once inside mito

Question 82

What is the role of mitochondrial proteases?

Answer 82

Break down improperly-folded proteins

Question 83

What is the role of cytoplasmic UPS?

Answer 83

Ubiquitinates faulty proteins

Question 84

What is the role of mtUPR?

Answer 84

Damaged mito protein causes signal to nucleus - increases transcription of chaperones and proteases

Question 85

What are mitochondria derived vesicles (MDRs)?

Answer 85

Damaged proteins cluster - form vesicles budding off mitos

Fuse with lysosome - degraded

Question 86

What type of parkin mutation increases PD risk?

Answer 86

Autosomal recessive

Loss-of-function

Question 87

What is the role of parkin in mitophagy?

Answer 87

Recruited to damaged mitos

E3 ubiquitin ligase - tags proteins for degradation with ubiquitin

Question 88

What type of PINK1 mutation increases PD risk?

Answer 88

Autosomal recessive

Loss-of-function

Question 89

How do PINK1 and parkin cause mitophagy?

Answer 89

Mitochondrial depolarisation
PINK1 accumulates on OMM
Recruits parkin to mitos
PINK1 phosphorylates parkin and ubiquitin chains on mito membrane proteins (e.g. Mfn1/2)
Activates parkin - builds more ubiquitin chains on mito membrane proteins - amplifies signal
Marks mito for degradation by mitophagy

Question 90

A mutation in which gene causes juvenile Parkinsonism with additional pyramidal signs?

Answer 90

Fbxo7

Question 91

What is the role of Fbxo7?

Answer 91

Facilitates parkin-mediated Mfn1 ubiquitination

May recruit parkin to mitos

Question 92

What is required for Fbxo7 translocation to mitos?

Answer 92

PINK1