Mysterious DNA Modification Seen in Stress Response
With advances in genomics, scientists are discovering additional components of the DNA alphabet in animals. Do these unusual chemical modifications of DNA have a special meaning, or are they just signs that cellular machines are making mistakes?
Geneticists at Emory University School of Medicine led by Peng Jin, PhD have been studying a modification of DNA that is not well understood in animals: methylation of the DNA letter A (adenine). They've found that it appears more in the brain under conditions of stress, and may have a role in neuropsychiatric disorders.
The results are scheduled for publication in Nature Communications.
Methylation on the DNA letter C (cytosine) generally shuts genes off and is an important part of epigenetic regulation, a way for cells to change how the DNA code is read without altering the DNA letters themselves. Methylation describes a mark consisting of an extra carbon atom and three hydrogens: -CH3.
What if methylation appears on adenine? In bacteria, N6-methyladenine is part of how they defend themselves against invasion by phages (viruses that infect bacteria). The same modification was recently identified as present in the DNA of insects and mammals, but this epigenetic flourish has been awaiting a full explanation of its function.
Just to start, having that extra -CH3 jutting out of the DNA could get in the way of proteins that bind DNA and direct gene activity. For C-methylation, scientists know a lot about the enzymes that grab it, add it or erase it. For A-methylation, less is known.
"We found that 6-methyl A is dynamic, which could suggest a functional role," Jin says. "That said, the enzymes that recognize, add and erase this type of DNA methylation are still mysterious."
It does appear that the enzymes that add methyl groups to A when it is part of RNA are not involved, he adds.
First author Bing Yao, PhD, assistant professor of human genetics, recently established his own laboratory at Emory to examine these and other emerging parts of the DNA alphabet. Jin is vice chair of research in the Department of Human Genetics.
In the Nature Communications paper, Yao, Jin and their colleagues looked at the prefrontal cortex region of the brain in mice that were subjected to stress, in standard models for the study of depression (forced swim test and tail suspension test).
Under these conditions, the abundance of N6-methyladenine in the brain cells' DNA rose four-fold, the scientists found. The DNA modification was detected with two sensitive techniques: liquid chromatography/mass spectrometry and binding to an antibody against N6-methyladenine. The peak abundance is about 25 parts per million, which isn't that high - but it appears to be confined to certain regions of the genome.
The methyl-A modification tended to appear more in regions that were between genes and was mostly excluded from the parts of the genome that encode proteins. The loss of methyl-A correlates with genes that are upregulated with stress, suggesting that something removes it around active genes. There does seem to be some "cross talk" between A and C methylation, Jin adds.
Genes bearing stress-induced 6mA changes overlapped with those associated with neuropsychiatric disorders; a relationship that needs more investigation. The scientists speculate that aberrant 6mA in response to stress could contribute to neuropsychiatric diseases by ectopically recruiting DNA binding proteins.
This article has been republished from materials provided by Emory University. Note: material may have been edited for length and content. For further information, please contact the cited source.
Bing Yao, Ying Cheng, Zhiqin Wang, Yujing Li, Li Chen, Luoxiu Huang, Wenxin Zhang, Dahua Chen, Hao Wu, Beisha Tang, Peng Jin. DNA N6-methyladenine is dynamically regulated in the mouse brain following environmental stress. Nature Communications, 2017; 8 (1) DOI: 10.1038/s41467-017-01195-y
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