B vitamins may offer some protection against the impacts of air pollution, a small scale human trial suggests.
Researchers in the US found that high doses of these supplements may "completely offset" the damage caused by very fine particulate matter.
The scientists involved say the effect is real but stress the limitations of their work.
Follow up studies are urgently needed, they say, in heavily polluted cities like Beijing or Mexico.
While the impacts of air pollution on health have become a cause of growing concern to people all around the world, the actual mechanics of exactly how dirty air makes people sick are not clearly understood.
According to the World Health Organization (WHO), over 90% of the world's population live in areas where air pollution exceeds safety guidelines.
One of the pollutants that is considered the most dangerous is very fine particulate matter, referred to as PM2.5, where particles have a diameter of less than 2.5 micrometres.
These complex particulates come from diesel cars, wood burning stoves and as a by-product of chemical reactions between other polluting gases.
At around 1/30 the width of a human hair, PM2.5 fragments can lodge deep in the human lung and contribute to lung and heart health issues in the young and old.
Scientists have long suspected that PM2.5 causes what are termed epigenetic changes in our cells that can damage our health.
The genes in our DNA contain the instructions for life, but epigenetics controls how those instructions are used - it's like the relationship between an mp3 track and the volume control, you can only hear the musical notes (genes) when you dial up the volume (epigenetic changes).
The study shows the very presence of environmental factors like air pollution seems to alter genes in the immune system at the epigenetic level - switching them on or off, and inhibiting our defences.
Researchers had already seen that nutrients could somehow stop this process in animal studies with the chemical Bisphenol A.
Now in this new human trial, an international team of scientists wanted to see if exposure to concentrations of PM2.5 could be mitigated by a daily B vitamin supplement containing 2.5mg of folic acid, 50mg of vitamin B6, and 1mg of vitamin B12.
Ten volunteers were tested initially exposed to clean air while given a placebo to measure their basic responses. The same volunteers were later tested with large doses of B vitamins while exposed to air containing high levels of PM2.5.
The researchers found that a four week B vitamin supplementation limited the PM2.5 effect by between 28-76% at ten gene locations. They found a similar reduction in impact on the mitochondrial DNA, the parts of cells that generate energy.
"Where we quantify the effect, it is almost close to a complete offset on the epigenome of the air pollution," said Jia Zhong from Harvard School of Public Health, who led the study.
"On the mitochondrial DNA side, it also offset a big proportion of it."
Scientists have long suspected that PM2.5 causes what are termed epigenetic changes in our cells that can damage our health.
The genes in our DNA contain the instructions for life, but epigenetics controls how those instructions are used - it's like the relationship between an mp3 track and the volume control, you can only hear the musical notes (genes) when you dial up the volume (epigenetic changes).
The study shows the very presence of environmental factors like air pollution seems to alter genes in the immune system at the epigenetic level - switching them on or off, and inhibiting our defences.
Researchers had already seen that nutrients could somehow stop this process in animal studies with the chemical Bisphenol A.
Now in this new human trial, an international team of scientists wanted to see if exposure to concentrations of PM2.5 could be mitigated by a daily B vitamin supplement containing 2.5mg of folic acid, 50mg of vitamin B6, and 1mg of vitamin B12.
Ten volunteers were tested initially exposed to clean air while given a placebo to measure their basic responses. The same volunteers were later tested with large doses of B vitamins while exposed to air containing high levels of PM2.5.
The researchers found that a four week B vitamin supplementation limited the PM2.5 effect by between 28-76% at ten gene locations. They found a similar reduction in impact on the mitochondrial DNA, the parts of cells that generate energy.
"Where we quantify the effect, it is almost close to a complete offset on the epigenome of the air pollution," said Jia Zhong from Harvard School of Public Health, who led the study.
"On the mitochondrial DNA side, it also offset a big proportion of it."
source bbc/health
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