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Next Generation Can Be Affected From Your Stress

None of us are strangers to stress of various kinds. It turns out the effects of all those stresses can change the fate of future generation, influencing our very DNA without any change to the underlying sequence of As, Gs, Ts and Cs. Now, researchers reporting in the June 24 issue of Cell, a Cell Press publication, have new evidence that helps to explain just how these epigenetic changes really happen.

"There has been a big discussion about whether the stress effect can be transmitted to the next generation without DNA sequence change," said Shunsuke Ishii of RIKEN Tsukuba Institute. "Many people were doubtful about such phenomena because the mechanism was unknown. Our finding has now demonstrated that such phenomena really can occur."

Our genes encode proteins, but whether and how those genetic instructions are ultimately read and expressed depends on how those genes are chemically modified and "packaged" into a more complex structure known as chromatin. Some portions of the genome are more tightly wound into what's known as heterochromatin. Heterochromatin is maintained from one generation to the next and typically doesn't contain active genes, Ishii explains.

Over 20 years ago, Ishii and his colleagues discovered a gene in yeast (called activation transcription factor-2 or ATF-2 for short)that is required for those tightly packed, heterochromatin structures to form. ATF-2 is altered by stress-activated protein kinases in response to environmental stress, inflammatory cytokines, and reactive oxygen species (ROS). But it wasn't entirely clear what this might mean for other organisms.

Ishii and his colleagues now confirm that ATF-2 is required for heterochromatin assembly in multicellular organisms. When fruitflies are exposed to stressful conditions, the ATF-2 is modified and disrupts heterochromatin, releasing genes from their usual silenced state. Importantly, these changes in genomic structure are passed on from one generation to the next.

The researchers expect that this finding in flies has relevance for humans, noting that we also carry the ATF-2 gene. Those epigenetic changes may influence basic cellular functions as well as metabolism, behavior and disease. In particular, Ishii suggests that epigenetic causes may play a role in "lifestyle diseases," including heart disease and diabetes, and in psychological diseases, such as schizophrenia.

If that's true, there may be some hope. Drugs targeting the enzymes that modify ATF-2 in response to stress have already been developed.

According to Ishii, the take-home message is this: "I hope that people understand that various stresses can change gene expression without DNA sequence change." He says the youngest among us -- developing embryos and infants -- may be especially sensitive to that kind of stress-induced epigenetic change and "we should be more careful about stresses on them."

Ki-Hyeon Seong, Dong Li, Hideyuki Shimizu, Ryoichi Nakamura, Shunsuke Ishii. Inheritance of Stress-Induced, ATF-2-Dependent Epigenetic Change. Cell, 2011; 145 (7): 1049-1061 DOI: 10.1016/j.cell.2011.05.029
Source: Cell Press, via EurekAlert!, a service of AAAS.

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