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Huntington Disease
An overview
This PowerPoint file contains a number of slides that may be useful for teaching of
genetics concepts.
You may use these slides and their contents for non-commercial educational purposes.
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Huntington Disease (HD)
This presentation includes:
• Clinical classification and features.
• Structure and molecular basis of the HD gene.
• Clinical photographs showing involuntary movements in HD, and brain tissue of
normal and affected patients.
• Pedigree of an HD family.
• Probability of inheriting the HD gene change.
• Advantages and disadvantages of predictive testing for HD.
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Huntington Disease (HD)
• Clinical Classification
– Movement/Cognitive/Psychiatric disorder
– Mean onset age 35-55 years.
• Prevalence
– Incidence >1 in 10,000.
• Genetic Testing
– Diagnostic
– Presymptomatic – counselling protocol.
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Huntington Disease (HD)
• Physical features:
- involuntary movements
- weight loss
- abnormal gait
- speech & swallowing difficulties.
• Psychiatric Manifestations:
- personality changes
- depression
- aggression
- early onset dementia.
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Structure of the Huntington disease gene
Short vertical bars represent exons.
Fig. 3.7 ©Scion Publishing Ltd
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Huntington disease - a triplet repeat disease
CAG CAG CAG CAG CAG CAG CAG CAG CAG CAG CAG …... CAG
11-34 CAG triplet repeats are normal:
encodes a run of 11-34 glutamine amino acid
residues in the protein.
A run of > 34 glutamine residues causes the
protein to aggregate in the brain cells and
cause progressive cell death.
Runs of >34 CAG repeats in the HD gene expand further (particularly during male meiosis) causing earlier age of
onset in children of men who have the gene – anticipation.
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
1 ttg
ggg
61 gca
tgc
121 cgc
gga
181 cgg
tgc
241 att
cgg
301 ggg
aag
361 tcc
cag
421 cag
ccg
ctg
gcg
gag
tgg
ggc
cgc
gtc
ttt
gcc
ccc
cgg
ctg
ttc
cag
cag
ccg
tgt
ggc
tcc
ccg
ccc
aag
caa
tac
ccg
gag
gag
atg
cag
cag
cag
ccg
gag
tgg
gca
gcg
gcc
gcg
gat
ctg
gtg
gcc
acc
aag
cag
cag
caa
ccg
gca
ttc
ggc
tgg
tcc
ccg
gga
cgg
ctg
tcc
gcc
gcc
cag
cag
cag
cct
gaa
cct
tag
ccc
gcc
tgg
cgg
ccc
agc
ggg
atg
ttc
cag
cag
ccg
cct
cct
ggc
ggc
cgc
ggc
ggg
ccg
aga
ggc
gac
gcg
gag
cag
cag
cca
cag
gcg
cag
tgt
ctc
gca
ctg
ctc
gcc
gcc
tgc
acc
tcc
cag
cag
ccg
ctt
ggg
cca
caa
cgc
cgt
ccg
agg
cca
gcg
cgt
ctg
ctc
cag
cag
ccg
cct
gca
ttg
tca
cgg
ctg
gga
ttc
ttc
agt
gcc
gaa
aag
cag
cag
ccg
cag
21 CAG repeats in a “normal”/usual Huntington disease gene
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Huntington disease
A patient in the advanced stages of the disease showing involuntary movements of the head and face. Photos
courtesy of Professor Peter Harper, Cardiff.
(b) Post mortem sections comparing normal brain (left) with brain from Huntington disease patient (right);
note the loss of tissue in the Huntington disease brain. Photos courtesy of Dr David Crauford, St Mary’s Hospital,
Manchester.
Fig. 1.1 ©Scion Publishing Ltd
Photos courtesy of (a) Prof. Peter Harper and (b) Dr David Crauford
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Pedigree of John Ashton’s family. This is shown as it might be recorded in the clinic.
Fig. 1.7 ©Scion Publishing Ltd
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
I:1
60y
Observations show that 40% of people with the
HD gene are asymptomatic at the age of 50
I:2
75y
Intuition says probability of parent having gene
at age 50 = 1/2 x 1/2.5 = 1/5.
Therefore son’s risk is ½ x 1/5 = 1/10.
II:1
56y
II:2
52y
II:3
50y
II:4
49y
Probability: ½ at
birth
III:1
25y
Whatofisinheriting
his risk?
Probability
the
altered HD gene at birth:
½x½=¼
© 2009 NHS National Genetics Education and Development Centre
BUT THIS IS INCORRECT! Probabilities should
be multiplied only when they are completely
independent of each other, and these are not.
Developing HD is conditional on having
inherited the gene.
Have to use Bayes theorem:His mother’s probability of having gene for HD
and asymptomatic at age 50 is 1/3.5 His risk is
therefore 1/7.
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Advantages of predictive testing for
Huntington disease
• Uncertainty of gene status removed.
• If negative:
– concerns about self and offspring reduced.
• If positive:
– make plans for the future
– arrange surveillance/treatment if any
– inform children/decide whether to have children.
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk
Disadvantages of predictive testing for
Huntington disease
• If positive:
– removes hope
– introduces uncertainty (if and when)
– known risk to offspring
– impact on self/partner/family/friends
– potential problems with insurance/mortgage.
• If negative:
– expectations of a ‘good’ result
– ‘survivor’ guilt.
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcare
www.geneticseducation.nhs.uk