Skip to comments.The food you eat may change your genes for life
Posted on 11/21/2005 11:07:11 PM PST by Lorianne
It sounds like science fiction: simply swallowing a pill, or eating a specific food supplement, could permanently change your behaviour for the better, or reverse diseases such as schizophrenia, Huntington's or cancer.
Yet such treatments are looking increasingly plausible. In the latest development, normal rats have been made to behave differently just by injecting them with a specific amino acid. The change to their behaviour was permanent. The amino acid altered the way the rat's genes were expressed, raising the idea that drugs or dietary supplements might permanently halt the genetic effects that predispose people to mental or physical illness.
It is not yet clear whether such interventions could work in humans. But there is good reason to believe they could, as evidence mounts that a range of simple nutrients might have such effects.
Two years ago, researchers led by Randy Jirtle of Duke University Medical Center in Durham, North Carolina, showed that the activity of a mouse's genes can be influenced by food supplements eaten by its mother just prior to, or during, very early pregnancy (New Scientist, 9 August 2003, p 14). Then last year, Moshe Szyf, Michael Meaney and colleagues at McGill University in Montreal, Canada, showed that mothers could influence the way a rat's genes are expressed after it has been born. If a rat is not licked, groomed and nursed enough by its mother, chemical tags known as methyl groups are added to the DNA of a particular gene.
The affected gene codes for the glucocorticoid receptor gene, expressed in the hippocampus of the brain. The gene helps mediate the animal's response to stress, and in poorly raised rats, the methylation damped down the gene's activity. Such pups produced higher levels of stress hormones and were less confident exploring new environments. The effect lasted for life (Nature Neuroscience, vol 7, p 847).
Now the team has shown that a food supplement can have the same effect on well-reared rats at 90 days old - well into adulthood. The researchers injected L-methionine, a common amino acid and food supplement, into the brains of well-reared rats. The amino acid methylated the glucocorticoid gene, and the animals' behaviour changed. "They were almost exactly like the poorly raised group," says Szyf, who announced his findings at a small meeting on environmental epigenomics earlier this month in Durham, North Carolina.
This opens up new ways of thinking about treating and preventing diseases caused by how our DNA is expressedThough the experiment impaired well-adjusted animals, the opposite should be possible, and Szyf has already shown that a chemical called TSA that is designed to strip away methyl groups can turn a badly raised rat into a more normal one.
No one is envisaging injecting supplements into people's brains, but Szyf says his study shows how important subtle nutrients and supplements can be. "Food has a dramatic effect," he says. "But it can go both ways," he cautions. Methionine, for instance, the supplement he used to make healthy rats stressed, is widely available in capsule form online or in health-food stores - and the molecules are small enough to get into the brain via the bloodstream.
Rob Waterland from Baylor College of Medicine in Houston, Texas, who attended the meeting, says Szyf's ideas are creating a buzz, as they suggest that methylation can influence our DNA well into adulthood. A huge number of diseases are caused by changes to how our DNA is expressed, and this opens up new ways of thinking about how to prevent and treat them, he says.
But Waterland points out there is still much work to be done. Substances like methionine and TSA are, he says, a "sledgehammer approach", in that they are likely to demethylate lots of genes, and we don't even know which they will affect. But he speculates that techniques such as "RNA-directed DNA methylation", so far tested only in plants but theoretically possible in mammals, may allow us to target such methylation
This has been posted before but I will repeat my reply.
Apparently drinking can change genes, or something like that. I can't really remember what I said, but it was funny. Wonder why I can't remember?
And if you eat too much , you may need to change into larger jeans ; )
It's about time I changed mine anyway. The neighbors were starting to crinkle their noses when they saw me coming.
Before someone jumps to what may seem an obvious conclusion, this *isn't* a validation of Lamarckism -- the "gene changes" they're talking about here are *not* the kind that can be passed on to your offspring.
the "gene changes" they're talking about here are *not* the kind that can be passed on to your offspring.
I think this goes too far, though. It's possible that the methylation or demethylation of a gene causes the release of substances that do the same in offspring while in the womb. These offspring then do the same to their offspring and so on.
I have known a couple of people who lost their jeans while drinking....
Imagine the 're-education camps' with something like this....YIKE!
Baby's feeling funny in the mornings, she's having trouble getting into her jeans. --Jackson Browne
Are you sure about that? I thought that certain drugs can cause gene mutations or permanently modify certain dna markers which can be passed on to offspring.
"No one is envisaging injecting supplements into people's brains,"
Wake up and smell the coffee, dude. No one in Western democracies is envisioning such. Russians and Chinese are envisioning exactly this thing.
Absolutely superb post.
What are you talking about, this is intelligent design Lamarckism...I wonder if they have a pill to help...ummm...certain body parts to grow?...
I tried the following on Google:
"genetic mutations caused by drugs"
"drug associated genetic mutations"
"drug induced genetic mutations"
The only result was The Wall Street Journal's War on Cancer, and Google picks up professional articles. You might find this article interesting, but no mention of drug associated genetic mutations, or similar phenomena, was made.
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