"Sticks and stones may
break my bones, but words will never hurt me," goes the playground rhyme
that's supposed to help children endure taunts from classmates. But a new study
suggests that there's more going on inside our brains when someone snubs us --
and that the brain may have its own way of easing social pain.
The findings, recently
published in Molecular Psychiatry by a University of Michigan Medical School
team, show that the brain's natural painkiller system responds to social
rejection -- not just physical injury.
What's more, people who
score high on a personality trait called resilience -- the ability to adjust to
environmental change -- had the highest amount of natural painkiller
activation.
The team, based at U-M's
Molecular and Behavioral Neuroscience Institute, used an innovative approach to
make its findings. They combined advanced brain scanning that can track
chemical release in the brain with a model of social rejection based on online
dating. The work was funded by the U-M Depression Center, the Michigan
Institute for Clinical and Health Research, the Brain & Behavior Research
Foundation, the Phil F Jenkins Foundation, and the National Institutes of
Health.
They focused on the
mu-opioid receptor system in the brain -- the same system that the team has
studied for years in relation to response to physical pain. Over more than a
decade, U-M work has shown that when a person feels physical pain, their brains
release chemicals called opioids into the space between neurons, dampening pain
signals.
David T. Hsu, Ph.D., the
lead author of the new paper, says the new research on social rejection grew
out of recent studies by others, which suggests that the brain pathways that
are activated during physical pain and social pain are similar.
"This is the first
study to peer into the human brain to show that the opioid system is activated
during social rejection," says Hsu, a research assistant professor of
psychiatry. "In general, opioids have been known to be released during
social distress and isolation in animals, but where this occurs in the human
brain has not been shown until now."
The study involved 18
adults who were asked to view photos and fictitious personal profiles of
hundreds of other adults. Each selected some who they might be most interested
in romantically -- a setup similar to online dating.
But then, when the
participants were lying in a brain imaging machine called a PET scanner, they
were informed that the individuals they found attractive and interesting were
not interested in them.
Brain scans made during
these moments showed opioid release, measured by looking at the availability of
mu-opioid receptors on brain cells. The effect was largest in the brain regions
called the ventral striatum, amygdala, midline thalamus, and periaqueductal
gray -- areas that are also known to be involved in physical pain.
The researchers had
actually made sure the participants understood ahead of time that the
"dating" profiles were not real, and neither was the
"rejection." But nonetheless, the simulated social rejection was
enough to cause both an emotional and opioid response.
Suffering slings and arrows
differently
Hsu notes that the underlying
personality of the participants appeared to play a role in how much of a
response their opioid systems made.
"Individuals who
scored high for the resiliency trait on a personality questionnaire tended to
be capable of more opioid release during social rejection, especially in the
amygdala," a region of the brain involved in emotional processing, Hsu
says. "This suggests that opioid release in this structure during social
rejection may be protective or adaptive."
The more opioid release
during social rejection in another brain area called the pregenual cingulate
cortex, the less the participants reported being put in a bad mood by the news
that they'd been snubbed.
The researchers also
examined what happens when the participants were told that someone they'd
expressed interest in had expressed interest in them -- social acceptance. In
this case, some brain regions also had more opioid release. "The opioid
system is known to play a role in both reducing pain and promoting pleasure,
and our study shows that it also does this in the social environment,"
says Hsu.
The new research holds more
importance than just pure discovery, note the authors, who also include senior
author Jon-KarZubieta, M.D., Ph.D., a longtime opioid researcher. Specifically,
they are pursuing further research on how those who are vulnerable to, or
currently suffering from depression or social anxiety have an abnormal opioid
response to social rejection and/or acceptance. "It is possible that those
with depression or social anxiety are less capable of releasing opioids during
times of social distress, and therefore do not recover as quickly or fully from
a negative social experience. Similarly, these individuals may also have less
opioid release during positive social interactions, and therefore may not gain
as much from social support," Hsu theorizes.
Hsu also notes that perhaps
new opioid medications without addictive potential may be an effective
treatment for depression and social anxiety. Although such medications are not
yet available, he adds, "increasing evidence for the neural overlap of
physical and social pain suggests a significant opportunity to bridge research
in the treatment of chronic pain with the treatment of psychiatric
disorders."
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