challenges of one kind or another. But research shows that mistreatment
at an early age can have long-lasting and life-altering repercussions
that could be passed to future generations.
Work underway in the laboratory of University of Delaware neuroscientist Tania Roth suggests new ways to help mitigate that damage.
The research was highlighted as a "hot topic" by the Society for Neuroscience
in its literature for the world's largest gathering of those in the
field - Neuroscience 2017 - a five-day event in
Washington D.C. Organizers expected more than 30,000 participants from
Roth and graduate student Tiffany Doherty presented
details of the research at a poster session Tuesday, Nov. 14.
Undergraduates Johanna Chajes and Lauren Reich also contributed to this
Roth and her team already have shown that mistreatment early in life
can leave epigenetic marks in the brain and increase the risk of
aberrant behaviors - changes that have been documented in rodents and
humans, including changes that sometimes do not emerge until adulthood.
But recent findings in Roth's lab have shown that certain drugs -
when delivered at the time mistreatment is experienced - can prevent
and/or reduce those marks - so far, only in males. Females have not
shared the benefit from the same drug, Doherty said, a result that
underlines the importance of recognizing sex-specific differences in
"We definitely think we can do the same thing in females," Roth said.
"It may take a different drug or a higher dose, but we have a hint that
we're on to something."
The work is part of a larger effort by Roth's lab to establish a
causal link between exposure to early adversity, epigenetic marks and
The findings and the potential for effective treatment could have
significant implications for millions of people. According to the
Centers for Disease Control, 683,000 reports of child abuse or neglect
were reported in the United States in 2015 alone.
Such adversity has been linked in Roth's research to DNA methylation -
an epigenetic process that can reduce the ability of some genes to
function properly and increase the risk for psychiatric disorders.
Epigenetics are changes in genetic activity that are caused by something
outside the genetic code - things such as viruses, bacteria, exposure
to toxins, dietary practices and other factors including psychosocial
Recent research has shown that such marks can be seen at a gene known as the brain-derived neurotrophic factor gene (Bdnf).
Roth's lab first found these results in rodent models. When females
had inadequate nesting materials, the stress caused them to mistreat
their young. Those young rodents exhibited epigenetic changes and
associated behavioral dysfunction, but sometimes not until reaching
In collaboration with UD Prof. Mary Dozier, Unidel Amy Elizabeth du
Pont Chair in Child Development, who studies the impact of adversity on
young children, Roth and her team are analyzing these same DNA markers
in those cases and the efficacy of intervention to change those
Roth is a pioneer in the field of behavioral epigenetics and has
contributed a great deal to the knowledge scientists are developing on
this emerging discipline.
Article by Beth Miller; photo by Evan Krape