Homocysteine research backs role of folic acid

Researchers in the Netherlands studying people with a genetically determined, reduced breakdown of the amino acid homocysteine, may have found further proof of the connection between folic acid deficiency and the risk of heart disease.

People with a genetically determined, reduced breakdown of the amino acid homocysteine have an increased risk of coronary heart disease compared to healthy people, according to doctoral research carried out at Wageningen University in the Netherlands.

The researchers also found that those people with the reduced homocysteine breakdown only had an increased risk of heart disease when the folic acid concentration in the blood was low.

The researchers from Wageningen say they found people with a genetically determined, specific form of reduced homocysteine breakdown to have a 16 per cent higher risk of developing coronary heart disease. They report that people with the aforementioned reduced breakdown have on average a 25 per cent higher homocysteine concentration in their blood from birth onwards, compared to other people.

Homocysteine has been associated with cardiovascular disease for a long time. However, until recently it was not clear whether an increased concentration of this amino acid in the blood was the cause or consequence of cardiovascular disease. This research into people with a genetic predisposition for a high homocysteine concentration in the blood supports the argument that this high concentration is a cause of cardiovascular disease.

Homocysteine is an amino acid (protein building block) which is formed in the body during the breakdown of another amino acid (methionine) obtained from food. The body regulates the homocysteine concentration in the blood with the aid of several B vitamins, including folic acid. Apart from a genetic predisposition, a shortage of these vitamins can also lead to an increased concentration of homocysteine in the blood. Folic acid supplementation is therefore considered by many to be an effective strategy to reduce the quantity of homocysteine in the blood.

The research also showed that people with genetically determined, reduced homocysteine breakdown only had an increased risk of heart disease when the folic acid concentration in the blood was low. This result suggests that reducing the homocysteine concentration in the blood by means of folic acid supplementation will reduce the incidence of cardiovascular disease.

The researchers also investigated whether a reduction in the homocysteine concentration in the blood as a result of vitamin B supplementation had a favourable effect on blood clotting in healthy volunteers. The assumption was that homocysteine increases the risk of cardiovascular disease by overstimulating blood clotting (which could eventually result in thrombosis). Despite a considerable reduction in the homocysteine concentration in the blood of people who had received extra vitamin B, no clear effect on blood clotting could be demonstrated.

The research was funded by the Netherlands Organisation for Scientific Research (NWO).