Huntington's Disease

Question 1

What is Huntington’s Disease?

Answer 1

It is a genetic, hereditary, progressive neurogenerative disorder caused by a defect in a gene on the short arm of chromosome 4.

Caused by a dominant gene that codes for a large brain protein called huntingtin.

Question 2

How many people are at risk of having HD in Canada?

Answer 2

1 in 7,000 people.

Question 3

How many people are at risk of inheriting HD in Canada?

Answer 3

1 in 5,500 people.

Question 4

How many people are affected by HD in Canada (e.g. spouse, friends, relatives, etc.)?

Answer 4

1 in 1,000 people.

Question 5

Are men or women more at risk of inheriting HD?

Answer 5

Both have an equal risk.

Question 6

The onset of HD symptoms occur between what ages?

Answer 6

35-55

Question 7

Juvenile HD accounts for what percentage of all HD cases?

Answer 7

10%

Question 8

Is there a cure for HD?

Answer 8

No but there are treatments to reduce severity.

Question 9

What are some HD management options?

Answer 9

Multidisciplinary caregiving.

Exercise has been shown to help rehabilitate cognitive symptoms of HD.

Physical, occupational, and speech therapy.

Question 10

How can HD be detected?

Answer 10

There is a genetic test to see if a person carries the mutated Huntingtin gene.

Question 11

What is Genetic Anticipation?

Answer 11

Process where severity of a disease in future generations is anticipated based on genetic testing.

Question 12

How can HD be diagnosed?

Answer 12

Symptoms, family history, imaging, and genetic testing.

Question 13

How does stress impact HD?

Answer 13

It can hasten the onset of the disease.

A positive test result can actually add to the damage of HD.

Question 14

When do symptoms of HD appear?

Answer 14

Later adulthood.

Question 15

Why is HD a progressive disease?

Answer 15

Symptoms begin very subtly and eventually progress to more pronounced involuntary movements (Hyperkinetic).

Question 16

What are the early stages of HD?

Answer 16

Face, trunk, and limbs move involuntarily and rapidly.

Not too noticeable, can be disguised by patient fairly easily.

Question 17

What occurs as HD progresses?

Answer 17

Muscles begin to contract briefly and rapidly.

Arms and other body parts suddenly jerk.

Movements become uncoordinated, and eventually the whole body is affected.

Question 18

What are the later stages of HD?

Answer 18

Cognitive changes become pronounced.

Irritability, excitability, impulse control issues.

Changes in interests.

Severe depression, dementia, etc.

Death usually occurs 13 to 15 years post onset of symptoms.

Question 19

What are the symptoms of HD?

Answer 19

Chorea
Cognitive difficulties, including dementia
Emotional difficulties (e.g. depression, apathy, irritability, personality disorders)

Eventually, the motor and intellectual deterioration become so severe that sufferers are incapable of feeding themselves, controlling their bowels, or recognizing their own children.

Question 20

What is Chorea?

Answer 20

Abnormal movements (involuntary movements, dystonia, and motor coordination).

Question 21

The Striatum contains groups of specialized neurons called what?

Answer 21

Medium Spiny Neurons (MSN).

They also contain GABA interneurons

Question 22

Medium Spiny Neurons are specialized GABAergic cells that represent what rate of the neurons in the human Striatum?

Answer 22

95%.

Question 23

What are the two types of Medium Spiny Neurons?

Answer 23

Direct (D1) and Indirect (D2)

Question 24

What do the direct MSN do?

Answer 24

Excite their output structures and promote associated behaviours.

Question 25

What do the indirect MSN do?

Answer 25

Inhibit output structures and associated behaviours.

Question 26

What is said to account for the disorders of movements in HD patients?

Answer 26

Damage to neurons in the Basal Ganglia - specifically the D2 MSN - and loss of its inhibitory OUTPUT to the thalamus.

Question 27

What is responsible for the dementia and personality changes associated with HD?

Answer 27

Cortical degeneration.

Question 28

Which parts of the Basal Ganglia are most affected by HD?

Answer 28

Caudate
Putamen
Globus Pallidus

Question 29

Which parts of the brain are affect as the disease progresses?

Answer 29

The Cerebral Cortex (shrinking and thinning).

Question 30

In the later stages of HD, how many MSN are lost?

Answer 30

Up to 95%.

Question 31

What can you find in HD-affected neurons?

Answer 31

Intranuclear Inclusion Bodies and Perinuclear Aggregates of Huntingtin.

These cause interference of normal cellular function and activate intrinsic apoptotic pathways.

Question 32

What are the primary neurotransmitters in the Basal Ganglia?

Answer 32

GABA and Acetylcholine (ACh).

Question 33

What causes HD?

Answer 33

A mutation.
A carrier of the HD gene will develop the disorder, as will half of their offspring.
It is a single dominant gene .

Mutated huntingtin gene contains an expanded CAG repeat coding for Polyglutamine in the huntingtin protein.

Normal CAG repeats are between 10-25. In HD patients they are above 36x.

The longer the repeat, the earlier the age of onset.

Over generations, the mutation seems to add additional CAG codons, and the disease presents itself earlier and earlier.

Question 34

Where can the Huntingtin protein be found?

Answer 34

It is widely expressed throughout the brain, but is less prevalent in the peripheral nervous system.

Question 35

What does the Huntingtin protein look like in HD patients?

Answer 35

HD patients have misfolded huntingtin proteins that aggregate together, particularly in the Dorsal Striatum (D2 MSN).

Question 36

What happens when the misfolded Huntingtin proteins aggregate?

Answer 36

It triggers neuronal degeneration.

Question 37

Cell death is strongly correlated with what?

Answer 37

Functional disability.

Question 38

Cell death is thought to occur how?

Answer 38

Via apoptotic pathways, with activation of caspases.

Question 39

Mutated Huntingtin genes are thought to activate and initiate what?

Answer 39

They are thought to activate caspase proteins and initiate intrinsic apoptotic pathways.

Question 40

What are Caspases?

Answer 40

They are a family of enzymes involved in programmed cell death.

11 or 12 confirmed caspases in humans.

Each of them function slightly differently but initiate apoptotic pathways.

They are the point of convergence between extrinsic and intrinsic apoptosis.

Question 41

What does the activation of caspases ensure?

Answer 41

It ensures that cellular components are degraded in a controlled manner, with minimal effect on surround tissues.