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coenzyme Q2, polyprenyltransferase
1. Normal Function
The COQ2 gene provides instructions for making an enzyme that carries out one step in the production of a molecule called coenzyme Q10, which has several critical functions in cells throughout the body. In cell structures called mitochondria, coenzyme Q10 plays an essential role in a process called oxidative phosphorylation, which converts the energy from food into a form cells can use. Coenzyme Q10 is also involved in producing pyrimidines, which are building blocks of DNA, its chemical cousin RNA, and molecules such as ATP and GTP that serve as energy sources in the cell. In cell membranes, coenzyme Q10 acts as an antioxidant, protecting cells from damage caused by unstable oxygen-containing molecules (free radicals), which are byproducts of energy production.
2. Health Conditions Related to Genetic Changes
2.1. Multiple System Atrophy
Several variations in the COQ2 gene have been suggested to increase the risk of multiple system atrophy, a progressive brain disorder that affects movement and balance and disrupts the function of the autonomic nervous system. The autonomic nervous system controls body functions that are mostly involuntary, such as regulation of blood pressure.
The identified variations alter single protein building blocks (amino acids) in the COQ2 enzyme. Most of the variations are very rare, but a genetic change that replaces the amino acid valine with the amino acid alanine at position 393 (written as Val393Ala or V393A) is relatively common. Studies suggest that these variations, including V393A, are associated with an increased risk of developing multiple system atrophy in the Japanese population. However, studies have not found a correlation between COQ2 gene variations and multiple system atrophy in other populations, including Koreans, Europeans, and North Americans. It remains unclear whether COQ2 gene variations represent a significant risk factor for this disease.
Researchers speculate that changes in the COQ2 gene could impair the activity of the COQ2 enzyme, which would affect the production of coenzyme Q10. Levels of coenzyme Q10 are reduced in the brains of people with multiple system atrophy. However, the COQ2 gene variations associated with an increased risk of this disorder are thought to affect coenzyme Q10 levels less severely than the COQ2 gene mutations that cause primary coenzyme Q10 deficiency (described above). A reduction in the amount of coenzyme Q10 may impair cellular energy production from oxidative phosphorylation and increase the vulnerability of cells to damage from free radicals. However, it is unknown how these changes are related to the specific features of multiple system atrophy.
2.2. Primary Coenzyme Q10 Deficiency
At least nine mutations in the COQ2 gene have been found to cause a disorder known as primary coenzyme Q10 deficiency. This rare disease usually becomes apparent in infancy or early childhood, but it can occur at any age. It can affect many parts of the body, most often the brain, muscles, and kidneys. The COQ2 gene mutations associated with this disorder greatly reduce or eliminate the production of the COQ2 enzyme, which prevents the normal production of coenzyme Q10. Studies suggest that a shortage (deficiency) of coenzyme Q10 impairs oxidative phosphorylation and increases the vulnerability of cells to damage from free radicals. A deficiency of coenzyme Q10 may also disrupt the production of pyrimidines. These changes can cause cells throughout the body to malfunction, which may help explain the variety of organs and tissues that can be affected by primary coenzyme Q10 deficiency.
3. Other Names for This Gene
- 4-HB polyprenyltransferase
- 4-hydroxybenzoate decaprenyltransferase
- 4-hydroxybenzoate polyprenyltransferase, mitochondrial
- coenzyme Q2 4-hydroxybenzoate polyprenyltransferase
- coenzyme Q2 homolog, prenyltransferase
- para-hydroxybenzoate-polyprenyltransferase, mitochondrial
This entry is adapted from https://medlineplus.gov/genetics/gene/coq2
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