Health & Medicine - Posted by Katherine Gombay-McGill on Tuesday, October 25, 2011 11:51 - 4 Comments
DNA ‘remembers’ early living conditions
MCGILL (CAN) — Family living conditions in childhood are associated with significant effects in DNA that persist well into middle age, new research shows.
Scientists looked for gene methylation associated with social and economic factors in early life and found clear differences between people brought up in families with very high and very low standards of living.
More than twice as many methylation differences—1,252 as opposed to 545—were associated with the combined effect of the wealth, housing conditions, and occupation of parents (that is, early upbringing) than were associated with the current socioeconomic circumstances in adulthood.
The findings, published online in the International Journal of Epidemiology, could provide major evidence as to why the health disadvantages known to be associated with low socio-economic position can remain for life, despite later improvement in living conditions.
The study set out to explore the way early life conditions might become biologically-embedded and so continue to influence health, for better or worse, throughout life and chose to study DNA methylation, a so-called epigenetic modification that is linked to enduring changes in gene activity and hence potential health risks. (Broadly, methylation of a gene at a significant point in the DNA reduces the activity of the gene.)
The research focused on 40 UK participants in an ongoing study that has documented aspects of the lives of more than 10,000 people born in March 1958 from birth onwards.
The researchers studied DNA that was prepared from blood samples taken when the participants were 45 years old. They chose people who experienced either very high or very low standards of living as children or adults, to study any differences in DNA methylation that might exist between people with very different living conditions.
The analysis measured DNA methylation differences between socio-economic groups at the control regions of more than 20,000 genes.
“This is the first time we’ve been able to make the link between the economics of early life and the biochemistry of DNA,” says Moshe Szyf, professor of pharmacology at McGill University.
“If we think of the genome as sentences, your DNA, or letters are what is inherited from your father and mother. The DNA methylation is like the punctuation marks that determine how the letters should be combined into sentences and paragraphs that are read differently in the different organs of the body the heart, the brain, and so on.
“What we’ve learned is that these punctuation marks are attentive to signals that come from the environment, and that they take cues from living conditions in childhood. Essentially, they act as a mechanism, we believe, for adapting the DNA to the fast changing world.”
“We found a surprising amount of variation in DNA methylation—over 6,000 gene control regions showed clear differences between the 40 research participants,” says co-author Marcus Pembrey, professor emeritus at University College London Institute of Child Health.
“Within this widespread variation, there was a distinct DNA methylation profile associated with high living standards in both childhood and as an adult. Even more surprising, given the DNA was obtained at 45 years, methylation levels for 1,252 gene promoters were associated with childhood living conditions compared to 545 promoters for living conditions in adulthood.”
The methylation profiles associated with childhood family living conditions were clustered together in large stretches of DNA, which suggests that a well-defined epigenetic pattern is linked to early socio-economic environment.
“The adult diseases already known to be associated with early life disadvantage include coronary heart disease, type 2 diabetes and respiratory disorders,” says co-author Chris Power, professor of epidemiology and public health at the UCL Institute of Child Health, “so it is hoped that future research will define which network of genes showing methylation differences are in turn associated with particular diseases.
“The current research represents just a beginning because it cannot tell us precisely when in early life these epigenetic patterns arose or what the long-term health effects will be” Power says. “This knowledge will be needed before useful interventions can be considered, but that must be the long term aim.”
The study, funded by CHIR, Medical Research Council in the U.K., and the Sackler Program in Epigenetics and Psychobiology at McGill University, was not designed to and did not show specific disease effects linked to these areas of DNA methylation differences; whether there were positive or protective effects, or whether these changes might be passed on to offspring.
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