Descendants of Holocaust Survivors Have Altered Stress Hormones
Parents' traumatic experience may hamper their offspring's ability to bounce back from trauma
A
person's experience as a child or teenager can have a profound impact
on their future children's lives, new work is showing. Rachel Yehuda, a
researcher in the growing field of epigenetics and the intergenerational
effects of trauma, and her colleagues have long studied mass trauma
survivors and their offspring. Their latest results reveal that
descendants of people who survived the Holocaust have different stress
hormone profiles than their peers, perhaps predisposing them to anxiety
disorders.
Yehuda's
team at the Icahn School of Medicine at Mount Sinai and the James J.
Peters Veterans Affairs Medical Center in Bronx, N.Y., and others had
previously established that survivors of the Holocaust have altered
levels of circulating stress hormones compared with other Jewish adults
of the same age. Survivors have lower levels of cortisol, a hormone that
helps the body return to normal after trauma; those who suffered
post-traumatic stress disorder (PTSD) have even lower levels.
It
is not completely clear why survivors produce less cortisol, but
Yehuda's team recently found that survivors also have low levels of an
enzyme that breaks down cortisol. The adaptation makes sense: reducing
enzyme activity keeps more free cortisol in the body, which allows the
liver and kidneys to maximize stores of glucose and metabolic fuels—an
optimal response to prolonged starvation and other threats. The younger
the survivors were during World War II, the less of the enzyme they have
as adults. This finding echoes the results of many other human
epigenetic studies that show that the effects of certain experiences
during childhood and adolescence are especially enduring in individuals
and sometimes even across generations (right).
Most
recently, a new study looked at the descendants of the Holocaust
survivors. Like their parents, many have low levels of cortisol,
particularly if their mothers had PTSD. Yet unlike their parents, they
have higher than normal levels of the cortisol-busting enzyme. Yehuda
and her colleagues theorize that this adaptation happened in utero. The
enzyme is usually present in high levels in the placenta to protect the
fetus from the mother's circulating cortisol. If pregnant survivors had
low levels of the enzyme in the placenta, a greater amount of cortisol
could make its way to the fetus, which would then develop high levels of
the enzyme to protect itself.
Epigenetic
changes often serve to biologically prepare offspring for an
environment similar to that of the parents, Yehuda explains. In this
case, however, the needs of the fetus seem to have trumped that goal.
With low levels of cortisol and high levels of the enzyme that breaks it
down, many descendants of Holocaust survivors would be ill adapted to
survive starvation themselves. In fact, that stress hormone profile
might make them more susceptible to PTSD (below, yellow);
previous studies have indeed suggested that the offspring of Holocaust
survivors are more vulnerable to the effects of stress and are more
likely to experience symptoms of PTSD. These descendants may also be at
risk for age-related metabolic syndromes, including obesity,
hypertension and insulin resistance, particularly in an environment of
plenty.
Yet
it is still too early in our investigation into the epigenetics of this
complex stress-response system to know for sure whether these molecular
changes indicate any real-world risks or benefits. “If you are looking
for it all to be logical and fall into place perfectly, it isn't going
to yet,” Yehuda says. “We are just at the beginning of understanding
this.”
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