Histo: Neurodegeneration

Question 1

What are prion diseases?

Answer 1

Proteinaceous infections only

They are transmissible diseases that have no DNA or RNA

Question 2

List some examples of prion diseases.

Answer 2

• Creutzfeldt-Jakob disease
• Gerstmann-Straussler-Sheinker syndrome
• Kuru
• Fatal familial insomnia

Question 3

Describe the histological appearance of brains affected by prion diseases.

Answer 3

• Spongiform change - tissue is full of vacuoles
• Prion protein deposits

Question 4

Outline the pathophysiology of prion diseases.

Answer 4

• The normal PrPc protein will unfold and refold into a beta-pleated sheet form (PrPsc) which is more susceptible to aggregation
• Once a little bit forms (seed), it can propagate
• The accumulation of insoluble protein in the parenchyma leads to cell death

Question 5

What are the key features of new variant CJD?

Answer 5

• Sporadic neuropsychiatric disorder
• Rapidly progessive course
• Mainly younger patients (<45 years)
• Associated with BSE
• Clinical features include cerebellar ataxia and dementia
• Diagnosed at autopsy

Question 6

List and describe the main neuropathological features of Alzheimer’s disease.

Answer 6

• Extracellular plaques - extracellular accumulations of amyloid beta
• Neurofibrilliary tangles - intra-neuronal pathology caused by disruption of the intracellular cytoskeleton
• Cerebral amyloid angiopathy - deposits of protein in blood vessel walls which impairs normal vascular function
• Cerebral atrophy - supporting feature

Question 7

Which part of the brain is often affected by cortical atrophy in Alzheimer’s disease?

Answer 7

Inferior horn of the lateral ventricles where the hippocampus is found - this is responsible for loss of short-term memory

Question 8

Describe how amyloid precursor protein (APP) processing leads to the formation of beta-amyloid plaques.

Answer 8

• Non-amyloidogenic: involves cleavage of the amyloid-beta (A-beta) sequence
• Amyloidogenic: cleavage occurs at the amino-terminus of A-beta and a second cleavage leads to the production of A-beta

NOTE: the toxicity of A-beta is likely to be intracellular (extracellular plaques are unlikely to cause many issues themselves)

Question 9

What is tau protein and how does it cause pathology?

Answer 9

• Microtubule-associated protein that is important for maintaining the stability of the cytoskeleton
• When it becomes hyperphosphorylated it accumulates inside cells and causes cell death

Question 10

Describe the Braak stages of tau pathology in Alzheimer’s disease.

Answer 10

Neurofibrillary tangles (aggregates of phosphorylated tau)
Entorhinal
Stage 1: olfactory bulb and entorhinal cortex
Stage 2: hippocampus
Limbic
Stage 3: amygdala
Stage 4: temporal lobe
Neocortex
Stage 5: parietal lobe
Stage 6: frontal lobe

NOTE: clinically, symptoms tend to arise in stage 3 or 4

Question 11

What type of disease is chronic traumatic encephalopathy?

Answer 11

Tauopathy

Question 12

What is responsible for the dark colour of the substantia nigra?

Answer 12

Neuromelanin - this is a by-product of dopamine metabolism

Question 13

On a cellular level, what causes Parkinson’s disease?

Answer 13

• Death of dopaminergic cells of the substantia nigra
• Cells from the substantia nigra usually project to the basal ganglia (which is important for the initiation of the movement)

Question 14

Outline the main histological features of Parkinson’s disease.

Answer 14

• Lewy bodies - intracellular accumulations of alpha-synuclein
• Parkinson’s disease is caused by dysfunction metabolism of alpha-synuclein

NOTE: this was discovered because mutations in the alpha-synuclein gene are associated with rare familial forms of Parkinson’s disease

Question 15

What is the diagnostic gold standard for Parkinson’s disease?

Answer 15

Alpha-synuclein immunostaining

Question 16

Where is alpha-synuclein pathology in Parkinson’s disease thought to arise from?

Answer 16

• Starts in the brainstem (medulla) and rises up the pons and midbrain
• Nigral pathology is about stage III. It eventually moves to the basal forebrain and cortices
• Alpha-synuclein pathology is also seen in peripheral ganglia, in the gut and in the nose

Question 17

What are some non-extrapyramidal symptoms of Parkinson’s disease?

Answer 17

• Sleep disorders
• Depression
• Anosmia

Question 18

It is hypothesised that environmental agents may have a part to play in the onset of Parkinson’s disease. Describe two routes by which these agents can enter the brain from the environment.

Answer 18

• Retrograde from the gut to the medulla via the vagus nerve
• Through the nose

Question 19

What are 4 important differentials to consider in a patient with Parkinsonian symptoms (other than Parkinson’s)?

Answer 19

• Drug-induced Parkinsonism
• Multiple system atrophy (MSA)
• Corticobasal degeneration (CBD)
• Progressive supranuclear palsy (PSP)

Question 20

What is multiple system atrophy (MSA)?

Answer 20

• Alpha-synucleinopathy like PD
• Accumulates in glial cells rather than neurones
• Presents similarly to PD
• It mainly affects the cerebellum so the patients are more likely to present with falls

Question 21

What type of diseases are progressive supranuclear palsy (PSP) and corticobasal degeneration (CBD)?

Answer 21

Tauopathies

Question 22

What is Pick’s disease?

Answer 22

Characterised by fronto-temporal atrophy which presents with frontal lobe pathology (e.g. dysexecutive syndrome)

Question 23

What are the main histological features of Pick’s disease?

Answer 23

• Marked gliosis and neuronal loss
• Balloon neurones
• Tau-positive Pick bodies

NOTE: mutations in tau are associated with a fronto-temporal dementia phenotype often associated with Parkinson’s disease

NOTE: there are 17 autosomal dominant syndromes resulting from mutations in tau

Question 24

Which chromosome encodes tau protein?

Answer 24

Chromosome 17q21

Question 25

How many isoforms of tau are there and how are they classified?

Answer 25

• There are 16 exons and alternative splicing can produce 6 isoforms that are either 3R or 4R tau depending on the number of microtubule-binding domains

Question 26

Describe how the types of tau present in Alzheimer’s disease is different from CBD, PSP and Pick’s diease.

Answer 26

• Alzheimer’s - when the tau is put through a Western blot, it will form 3 dense bands. If this is dephosphorylated it will show all 6 isoforms of tau/.
• CBD and PSP - produces 2 dense bands which, when dephosphorylated, are shown to be made up of only 4R tau (i.e. it is a 4R tauopathy)
• Pick’s disease - it is a 3R tauopathy

Question 27

Mutations in which genes can cause fronto-temporal dementia?

Answer 27

• Tau
• Progranulin

Question 28

What is a characteristic feature of frontotemporal dementia associated with progranulin mutations?

Answer 28

Atrophy tends to be unilateral

Question 29

Which other protein is thought to be implicated in some types of fronto-temporal dementia?

Answer 29

TDP-43 (trafficking protein)

Question 30

What is dementia lacking distinctive histology (DLDH)?

Answer 30

Dementia symptoms with no obvious histological changes