Huntington disease
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Huntington disease
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Autosomal dominant disease
Huntington disease p. 534
Caudate
Huntington disease p. 534
Chorea
Huntington disease p. 534
Dopamine p. 241, 332
Huntington disease p. 534
GABA p. 505
Huntington disease p. 534
Huntington disease
basal ganglia lesions p. 524
neurodegenerative disorder p. 534
neurotransmitters for p. 507
ventromegaly p. 536
Transcript
Huntington disease, or HD, is a rare neurodegenerative disease that involves a repeated sequence of DNA that causes an abnormal protein to form, leading to abnormal movements and cognitive problems.
Huntington disease is an autosomal dominant genetic disorder, which means that one affected copy of a gene is enough to cause disease. Affected people are typically present in each generation, because an affected person (male or female) has a 50% chance of passing on the affected gene to a child, which causes that child to have the disease.
In most people, a gene called huntingtin or HTT on chromosome 4, contains a triplet repeat, where the nucleotides C, A, and G are repeated 10-35 times in a row. In people with Huntington disease, this repeat goes on for 36 or more times in a row. CAG codes for the amino acid glutamine, so people with Huntington disease patients will have 36 or more glutamines in a row in the huntingtin protein. So, in addition to being a triplet repeat disorder, HD is, more specifically, a “polyglutamine” disease.
The specific way in which extra glutamines cause HD symptoms isn’t fully worked out, but some clues are that the mutated protein aggregates within the neuronal cells of the caudate and putamen of the basal ganglia causing neuronal cell death. Cell death might be related to excitotoxicity – which is excessive signaling of these neurons, which leads to high intracellular calcium.
The expanded CAG repeats not only affect the huntingtin protein – they affect DNA replication itself. When copying the HTT gene, DNA polymerase can basically lose track of which CAG it’s on and accidently add extra CAGs. Since as a zygote develops into a fetus and eventually into a full adult, by the time sperm and eggs are created, several dozen cell divisions, each with a round of DNA replication have taken place, and so there have already been ample opportunities for repeat expansion, and the more repeats that’re added, the more unstable it gets.
This expansion of the originally inherited gene means a child of a parent with HD can inherit even more CAG repeats than the parent did. The higher the number of repeats in the protein, the earlier the age when a person starts having symptoms. This phenomenon is called anticipation, which means that Huntington disease families often show earlier symptom onset with each generation. Even repeats of 27-35 CAGs can expand occasionally; these are called “pre-mutation” alleles, since they don’t cause the disease, but they’re set-up for developing a mutation of 36 or more CAGs.