The MAO-A gene, popularly nicknamed the “warrior gene,” is responsible for the production of an enzyme monoamine oxidase A. (MAOA)
It breaks down monoamine neurotransmitters (dopamine, epinephrine, and serotonin) through oxidation.
Thus, mutations in the MAO-A gene can directly affect the levels of these neurotransmitters, which can potentially lead to various behavior-associated disorders.
MAOA is an essential regulator of brain function and is highly expressed in the cells of the brain and heart. It mainly assists in the breakdown of neurotransmitters such as
Because MAOA regulates the level of these “behavioral-hormones,” too little or too much of this enzyme plays a role in a number of psychiatric and neurological disorders like schizophrenia and ADHD. In fact, a class of drugs that inhibit this enzyme (MAOA inhibitors) is prescribed to treat depression.
All of us have the MAO-A gene, but we have different versions (or types or variants) of them. There are two types of MAO-A genes: a high-activity (MAOA-H) and a low-activity (MAOA-L) type, based on the number of times the sequence of the gene is repeated. One of the most frequently studied variants is MAOA-4R, which has four repeats and is associated with a high-activity of the MAOA enzyme. Other alternate forms of the MAO-A variants, including the 2-repeat (2R) and 3-repeat (3R) versions.
The monoamine oxidase A deficiency follows an X-Linked inheritance pattern. Thus, this disorder is majorly seen affecting males.
Lower levels of this enzyme typically result in the buildup of neurotransmitters in the brain.
Various studies have linked this buildup with unusual behavioral patterns involving aggressive outbursts and abnormal sexual behavior. The deficiency of this enzyme has also been associated with abnormal brain development, which can directly lead to intellectual disabilities. There are also other variants of this gene that increase the enzyme levels.
Lower levels of the enzyme result in a slower breakdown of the neurotransmitters - (Worriers), and higher levels of the enzyme lead to a faster breakdown - (Warriors). Both decreased and increased levels of the enzyme have various implications.
A study on around 18,000 people with psychiatric issues identified an SNP rs1137070 associated with major depressive disorder and schizophrenia. People with the T allele had higher enzyme levels and, as a result, lower levels of the neurotransmitters.
Another study found that the G allele of rs6323 had the highest expression of the MAOA enzyme. “Subjects with major depressive disorder with the highest activity form of the enzyme (G or G/G)”
A study identified an SNP rs3027407 on the MAO gene associated with ADHD. This SNP affects dopamine-mediating action, which is related to the symptoms of ADHD in children. A allele was found in higher frequencies in people with ADHD.
T allele of rs909525 in the MAO gene is associated with less aggressive behavior due to the higher activity of MAOA - the warriors. The C allele is associated with more aggressive behavior.
A variation in the MAOA gene was associated with higher levels of anger expressed outwards. The A allele of rs2064070 was associated with increased expression of anger.
The study also found two other variants, rs909525 - C allele, rs6323 - G allele, associated with increased anger.
A study found that a poor quality diet during adolescence can affect the verbal ability of individuals who have a low expression variant of the MAO-A gene. People who ate vegetables very rarely and included more junk food in their diet had verbal deficits in early adulthood.
The “psychopathic” personality traits were also observed more in subjects who frequently consumed fast foods during their adolescence - this was seen only in people with a low expression variant of the MAO-A gene.
MAOA inhibitors (MAOA-I) are a class of drugs that lower the enzyme MAOA levels. Higher MAOA levels have been linked to conditions like depression.
When on MAOA-I, it is important to limit high-tyramine foods. Tyramine is an amino acid that helps regulate blood pressure. MAOA enzyme is required to break down tyramine, the buildup of which is associated with migraine headaches and life-threatening blood pressure spikes.
So if you are on MAOA-I, it is important that you reduce your tyramine consumption.
Some foods high in tyramine are: