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ShareJune 19, 2012 — Pathological rage can be blocked in mice, researchers have found, suggesting potential new treatments for severe aggression, a widespread trait characterized by sudden violence, explosive outbursts and hostile overreactions to stress.
In a study appearing June 19 in The Journal of Neuroscience, researchers from USC and Italy identify a critical neurological factor in aggression: a brain receptor that malfunctions in overly hostile mice. When the researchers shut down the brain receptor, which also exists in humans, the excess aggression disappeared.
The findings are a significant breakthrough in developing drug targets for pathological aggression, a component in Alzheimer's disease, autism, bipolar disorder and schizophrenia, among other common psychological disorders.
"From a clinical and social point of view, reactive aggression is absolutely a major problem," said Marco Bortolato, lead author of the study and research assistant professor of pharmacology and pharmaceutical sciences at the USC School of Pharmacy. "We want to find the tools that might reduce impulsive violence."
A large body of independent research, including past work by Bortolato and senior author Jean Shih, USC University Professor and Boyd & Elsie Welin Professor in Pharmacology and Pharmaceutical Sciences at USC, has identified a specific genetic predisposition to pathological aggression: low levels of the enzyme monoamine oxidase A (MAO A). Both male humans and mice with congenital deficiency of the enzyme respond violently in response to stress.
"The same type of mutation that we study in mice is associated with criminal, very violent behavior in humans," Bortolato said. "But we really didn't understand why that it is."
Bortolato and Shih worked backwards to replicate elements of human pathological aggression in mice, including not just low enzyme levels but also the interaction of genetics with early stressful events, such as trauma and neglect during childhood.
"Low levels of MAO A are one basis of the predisposition to aggression in humans. The other is an encounter with maltreatment, and the combination of the two factors appears to be deadly: It results consistently in violence in adults," Bortolato said.
The researchers showed that in excessively aggressive rodents that lack MAO A, high levels of electrical stimulus are required to activate a specific brain receptor in the pre-frontal cortex. Even when this brain receptor does work, it stays active only for a short period of time.
"The fact that blocking this receptor moderates aggression is why this discovery has so much potential. It may have important applications in therapy," Bortolato said. "Whatever the ways environment can persistently affect behavior -- and even personality over the long term -- behavior is ultimately supported by biological mechanisms."
Importantly, the aggression receptor, known as NMDA, is also thought to play a key role in helping us make sense of multiple, coinciding streams of sensory information, according to Bortolato.
The researchers are now studying the potential side effects of drugs that reduce the activity of this receptor.
"Aggressive behaviors have a profound socioeconomic impact, yet current strategies to reduce these staggering behaviors are extremely unsatisfactory," Bortolato said. "Our challenge now is to understand what pharmacological tools and what therapeutic regimens should be administered to stabilize the deficits of this receptor. If we can manage that, this could truly be an important finding."
Sean Godar, a postdoctoral scientist in the Department of Pharmacology and Pharmaceutical Sciences at the School of Pharmacy, was co-lead author of the study. Kevin Chen, a research associate professor at the School of Pharmacy, was a co-author.
The research was funded by the National Institute of Mental Health of the National Institutes of Health under grant R01MH39085, the National Institute of Child Health and Human Development of the National Institutes of Health under grant R21HD070611, the Boyd and Elsie Welin Professorship help by Shih and a USC Zumberge Research Individual Grant to Bortolato.
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The above story is reprinted from materials provided by University of Southern California. The original article was written by Suzanne Wu.
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