Toxic effects of mercury exposure persists for multiple generations, study suggests
Washington State University News May 11, 2017
Zebrafish exposed to very low levels of methylmercury as embryos not only passed on toxic effects of the chemical exposure to their offspring, but also to the third generation, according to a study that investigated both epigenetic changes  chemical modifications to the DNA  and abnormal neuro–behavior associated with exposure.
The study, by researchers at Washington State University and the University of Wisconsin–Milwaukee, is the first to show that health problems associated with exposure to the neurotoxin are sustained for multiple generations.
ÂEffects previously observed and suspected now have been shown to be passed to future generations, not simply the individual exposed, said Michael Skinner, coauthor and founding director of the Center for Reproductive Biology in WSUÂs School of Biological Sciences. ÂThis dramatically impacts the health hazards of mercury exposure.Â
If the same effects occur in people, it means the health hazards from exposure to mercury, which is present in waterways and fish, is dramatically underestimated, said Michael Carvan, a professor of freshwater sciences at the UW–Milwaukee.
Scientists have already found evidence that methylmercury is a neurotoxin for both children and adults. But those studies have come from examining single, direct exposures to high doses.
The researchers looked at a single cell type  sperm  to compare across three generations, and also tracked two observed abnormal behaviors. The first generation was exposed to a level of methylmercury that could be present in humans who eat a large amount of fish.
Two abnormal behaviors observed across generations after at this level of initial exposure were impaired vision and hyperactivity.
ÂWe tested genome–wide, epigenetic effects and found many genes with alterations, Carvan said. ÂWe also looked at the two behaviors and each were caused by independently inherited epigenetic effects.Â
The effects in the originally exposed generation are not as pronounced in the second and third generations, but more individual fish were affected in the offspring, the researchers found.
The work was published May 2 in the journal PLOS ONE.
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The study, by researchers at Washington State University and the University of Wisconsin–Milwaukee, is the first to show that health problems associated with exposure to the neurotoxin are sustained for multiple generations.
ÂEffects previously observed and suspected now have been shown to be passed to future generations, not simply the individual exposed, said Michael Skinner, coauthor and founding director of the Center for Reproductive Biology in WSUÂs School of Biological Sciences. ÂThis dramatically impacts the health hazards of mercury exposure.Â
If the same effects occur in people, it means the health hazards from exposure to mercury, which is present in waterways and fish, is dramatically underestimated, said Michael Carvan, a professor of freshwater sciences at the UW–Milwaukee.
Scientists have already found evidence that methylmercury is a neurotoxin for both children and adults. But those studies have come from examining single, direct exposures to high doses.
The researchers looked at a single cell type  sperm  to compare across three generations, and also tracked two observed abnormal behaviors. The first generation was exposed to a level of methylmercury that could be present in humans who eat a large amount of fish.
Two abnormal behaviors observed across generations after at this level of initial exposure were impaired vision and hyperactivity.
ÂWe tested genome–wide, epigenetic effects and found many genes with alterations, Carvan said. ÂWe also looked at the two behaviors and each were caused by independently inherited epigenetic effects.Â
The effects in the originally exposed generation are not as pronounced in the second and third generations, but more individual fish were affected in the offspring, the researchers found.
The work was published May 2 in the journal PLOS ONE.
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