MICRO: Prion disease

Question 1

Case example:

• 75-year-old retired businessman, recently returned from Ghana
  
  • Complaints –> paraesthesia, unsteadiness, tremor

Answer 1

• General examination – normal
• Neurological examination:
  
  • Ataxic gait
  • Gaze evoked horizontal nystagmus on L gaze
  • L UMN VII weakness
  • No other cranial nerve abnormalities
  • L UL pronator drift
  • Jerky irregular resting tremor
  • Mild L limb spasticity
  • Mild L UL/LL pyramidal weakness
  • Mild L hyperreflexia
  • Flexor plantar responses bilaterally
  • Reduced JPS and patchy pinprick loss
• Gradual onset over 3/52 –> ascending tingling, jerky tremor left hand, walking with a stick
• Other parts of the history:
  
  • PMHx
    
    • Right hemisphere stroke, no residual deficit
    • Hypertension
    • Hyperlipidaemia
    • Obesity
    • Falciparum malaria 1988
    • Syphilis (treated >40 yrs. ago)
  • DHx
    
    • Perindopril, simvastatin, clopidogrel
  • FHx
    
    • Sister died from “MND”
  • SHx
    
    • Lives alone; alcohol 20 U/week; non-smoker; MSM

Initial working diagnosis –> small sequential cerebral infarcts

• Initial investigations:
  
  • CRP<5
  • ESR 15
  • TPPA+ RPR– (test for syphilis)
  • ANA >1/640; ANCA–ve, HIV -ve
  • Protein electrophoresis normal
  • FBC, LFT, B12, folate normal
• ECG, echo, CXR normal
• CT head: small vessel disease, nil acute
• Carotid duplex normal
• MRI brain: old ischaemic changes only, nil acute
• Patient continued to decline à more tremulous, increasingly dysarthric and ataxic, remained fully orientated, diplopia
• More differential diagnoses:
  
  • Creutzfeldt Jacob Disease (CJD)
  • Primary cerebral vasculitis
  • Paraneoplastic encephalitis
  • Whipple’s disease
  • Corticobasal degeneration
  • Coeliac disease
  • Tropical infection
• More investigations:
  
  • Anti-neuronal Ab –ve, tumour markers -ve
  • CSF examination:
    
    • Opening pressure 18.5 cm H2O, acellular
    • Protein 0.45, glucose 3.9
    • OCB -ve
    • 14-3-3, S100, NSE all normal level (14-3-3 is a marker of rapid neuro-degeneration)
  • MRI brain +/- gadolinium with DWI
  • EEG: unremarkable
  • Whole body CT: nil of note
  • Small bowel biopsy: normal
  • Whole body FDG-PET scan
    
    • No evidence of malignancy
    • Evidence parietal hypometabolism R>L
• Later on, in the case:
  
  • 30 days later:
    
    • Oculomotor signs
    • Almost anarthric
    • Severe myoclonus
    • Ataxic breathing
    • Orientated where intelligible
  • Continued rapid deterioration; no response to antibiotics or high dose steroids
  • Died on day 41 à post mortem confirmed sporadic CJD

Question 2

Define prion disease.

Answer 2

Prion = a protein-only infectious agent

Cause rare transmissible spongiform encephalopathies in humans and animals

They do contain DNA, but they are only made of protein

Question 3

What happens when prions enter the brain?

Answer 3

Prions trigger a cascade where existing prion proteins become rapidly affected and develop the abnormal isoform of the prion protein

–> spongiform vacuolisation of the brain

–> rapid neurodegeneration

Question 4

Where is the prion protein gene? What is its normal function?

Answer 4

Prion protein gene = found on chromosome 20

Function: encodes a prion protein. Normal function of prion protein poorly understood but thought to have some role in copper metabolism

Normal protein does NOT cause any issues.

Polymorphisms of the gene are found on codon 129

Question 5

What are the 3 polymorphisms of the prion protein gene which can predispose to prion disease?

Answer 5

1. MM – predisposes to prion disease
2. MV
3. VV

• V = Valine*
• M = Methionine*

Question 6

Compare and contrast the protein structures of normal and abnormal prion protein.

Answer 6

Normal protein = PrP

• Has an alpha-helical structure
• It is protease-sensitive and sensitive to radiation

Abnormal protein = PrP^Sc

• Beta-pleated sheet configuration
• RESISTANT to proteases and radiation
• Difficult to get rid of e.g. surgical instruments contaminated with diseased prions are impossible to clean

Question 7

Where are prion proteins normally expressed?

Answer 7

PrP predominantly expressed in the CNS

Question 8

How do prions replicate? What is the trigger?

Answer 8

Seed of the abnormal prion protein (PrP^Sc) begins to act as a template to promote conversion of PrP into insoluble PrP^Sc –> rapid neurodegeneration i.e. a conformational change in PrP occurs

The trigger for this process is unclear in sporadic cases

Question 9

How are prion diseases classified? What is the most common form? Give an example of each.

Answer 9

Sporadic (80%) - Creutzfeldt-Jakob Disease

Genetic (15%) e.g. FFI, Gerstmann-Straussler-Sheinker syndrome

Acquired (5%) e.g. Kuru , variant CJD, iatrogenic CJD

Question 10

What are the causes of iatrogenic CJD?

Answer 10

• Growth hormone (from cadavers)
• Blood
• Surgery

Question 11

Compare and contrast the features of sporadic vs variant CJD.

Answer 11

Question 12

What is the main cause of variant CJD and what polymorphism is present?

Answer 12

• Results from earlier BSE (bovine spongiform encephalopathy) epidemic
  
  • Average age: 25-30 years
  • 100% codon 129 MM polymorphism

Question 13

Answer 13

sporadic

Question 14

What are the clinical features of sporadic CJD?

Answer 14

• DEMENTIA
• Myoclonus (jerky irregular tremor)
• Cortical blindness
• Akinetic mutism
• LMN signs

Question 15

What is the epidemiology of sporadic CJD?

Answer 15

• Mean age: 65 years (range 45-75 years)
• Death within <6 months
• Incidence: 1/million/year

Question 16

What are 3 possible causes of sCJD?

Answer 16

• Cause is uncertain; could be due to…
  
  • Somatic PRNP mutation
  • Spontaneous conversion of PrP to PrPSc
  • Environmental exposure to prions

Question 17

What is seen on EEG in sCJD?

Answer 17

“an EEG that looks like an ECG”

• Periodic, triphasic complexes (but these are non-specific – appears in hepatic encephalopathy, lithium toxicity)
• 2/3 patients with confirmed CJD will have an abnormal EEG

Question 18

What is seen on MRI in sCJD?

Answer 18

• Increased signal in basal ganglia –>
• Increased intensity on DWI (diffusion-weighted imaging) MRI of the cortex and basal ganglia

Question 19

What is seen on CSF analysis in sCJD?

Answer 19

• Raised 14-3-3 protein and S100 (these are markers of rapid neurodegeneration)
• 4-6m onset to death = RAPID

Question 20

What do these other investigations for sCJD show?

• Neurogenetics
• Tonsillar biopsy
• Brain biopsy
• Histology

Answer 20

• Neurogenetics (look for genetic cause)
• Tonsillar biopsy (may be used in vCJD but NOT in CJD)
• Brain biopsy (only way of confirming CJD but this is often done at autopsy)
• Histology = spongiform vacuolation (left) & amyloid plaques (right)

Question 21

Name 2 markers of rapid neurodegeneration.

Answer 21

14-3-3 protein

S100

Question 22

What are the differentials for sCJD?

Answer 22

• Alzheimer’s disease, Vascular dementia, Mixed dementia
• CNS neoplasms (e.g. glioma, metastases)
• Cerebral vasculitis
• Paraneoplastic syndrome
• Familial CJD
• vCJD

Question 23

Answer 23

B

Question 24

Summarise the history of BSE.

Answer 24

There was an epidemic of BSE in the 1990s AKA “Mad Cow Disease”

Due to feeding of cow meat to the cows, which propagated the disease

1995-1996 gave rise to the first reported cases of atypical CJD in teenagers and young people (<30yo)

Peaked presentations in 2000 (n= ~165 to date), only 7 new cases since 2008.

Question 25

What is the age of onset and median survival time of vCJD?

Answer 25

* Younger age of onset (median = 26 years) * Median survival time = 14 months

Question 26

How does vCJD present?

Answer 26

***Psychiatric followed by neurological symptoms.*** * Psychiatric onset * Dysphoria * Anxiety * Paranoia * Hallucinations * Then neurological symptoms * Peripheral sensory symptoms * Ataxia * Dementia * Myoclonus * Chorea

Question 27

What is the best diagnostic test for vCJD?

Answer 27

Tonsillar biopsy - 100% sensitive and specific (prions find their way into lymphoid tissue) * this negates the need for a brain biopsy * allows early clinical diagnosis * important for therapeutic trials and early treatment * may be positive during incubation before clinical onset

Question 28

What do investigations show in vCJD?

Answer 28

* **MRI** = high intensity in the putamen shown = pulvinar sign * **EEG** = non-specific slow waves * **CSF** = 14-3-3- and S100 are **NOT** **useful as death is slow so no rapid neurodegeneration** * **Neurogenetics** = almost 100% are MM at codon 129 (suggests that this genotype confers an increased risk of vCJD) * **Tonsil biopsy** = 100% sensitive and specific. * **Brain biopsy** = at autopsy only, **PrP^Sctype 4T d**etectable in CNS and most lymphoreticular tissues * **Histology** = florid plaques

Question 29

Answer 29

**D** – critical for diagnosis of variant CJD. Initial symptoms are psychiatric followed by neurological.

Question 30

What are the causes of iatrogenic CJD?

Answer 30

* ​Human cadaveric growth hormone (no longer used) * Corneal transplants and any neurosurgical procedures (e.g. dural grafts, pre-1991) * Blood transfusions * Other surgical procedures (e.g. appendicectomy, tonsillectomy)

Question 31

What kind of questions are part of screening for prion disease before operations/blood donation?

Answer 31

* _Neurosurgical operations_ before 1991 * _Family history_ of prion disease * _Neurological problems_ suggesting prion disease

Question 32

What are the clinical features of vCJD?

Answer 32

* Progressive ataxia --\> dementia and myoclonus * Speed of progression depends on **route of inoculation (CNS inoculation is the fastest)** (!!)

Question 33

Does route of inoculation affect the clinical characteristics of prion disease?

Answer 33

Speed of progression depends on route of inoculation (CNS is fastest) - relevant for iatrogenic CJD

Question 34

Prion genetics - what is the relevance of the MM polymorphism in codon 129? What inheritance pattern do PRNP mutations follow?

Answer 34

* Codon 129 MM polymorphism in healthy prion gene confers increased risk – more so than MV and VV * Specific PRNP mutations (~30 so far) – **all autosomal DOMINANT**

Question 35

What are prion diseases commonly misdiagnosed as?

Answer 35

* *Dementia* * *Multiple Sclerosis* * *Ataxia* * *Psychiatric*

Question 36

What investigations should be done to diagnose familial prion diseases?

Answer 36

EEG = non-specific MRI = basal ganglia sometimes have a high signal **_Neurogenetics are crucial_** = if negative consider diagnoses such as spinocerebellar ataxia and Huntington's disease May be diagnosed at autopsy

Question 37

What are the most common mutations in Gerstmann-Straussler-Sheinker syndrome and Fatal Familal Insomnia?

Answer 37

**GSS syndrome** - PRNP P102L **FFI** - PRNP D178N

Question 38

What are the clinical features of Gerstmann-Straussler-Sheinker syndrome? What is the age of onset usually and the median survival?

Answer 38

*_Looks like normal sCJD_* * Slowly progressive ataxia * Diminished reflexes * Dementia Onset age 30-70 years Survival 2-10 years

Question 39

What are the clinical features of Fatal Familial Insomnia? What is the age of onset and median survival?

Answer 39

*Causes dysregulation* * Untreatable insomnia * Dysautonomia (blood pressure and heart rate dysregulation) * Ataxia * Underlying thalamic degeneration may be present * +/- extrapyramidal signs * Late cognitive decline

Question 40

Answer 40

A – all bar 1 have been MM.

Question 41

What was the cause of Kuru? What did we learn from this prion disease?

Answer 41

* This resulted from cannibalism * Local practices involved promoting the ingestion of the brain tissue of village elders * In the 1950s and 1960s there was an epidemic of Kuru in Papua New Guinea * **New cases appearing up to 45 years after last act of cannibalism = showing prion diseases can have a long incubation**

Question 42

What are the signs and symptoms of Kuru? What is the median survival?

Answer 42

Progressive cerebellar syndrome Absent or late dementia Death within 2 years Kuru means "trembling with fear"

Question 43

List some treatments used for CJD.

Answer 43

* Symptomatic * Clonazepam *for the myoclonus* (Others: valproate, levetiracetam, piracetam) * Delaying Prion Conversion * Quinacrine (antimalarial, unhelpful) * Pentosan (intraventricularly, but caused ventricular haemorrhage) * Tetracycline

Question 44

Name 2 experimental approaches for the treatment of CJD.

Answer 44

* Anti-prion antibody * Prevents peripheral prion replication * Blocks progression to disease (but does NOT get into CNS) * Depletion of neuronal cellular prion protein * Prevents onset of disease in mice * Blocks neuronal cell loss and reverses early spongiosis in mice