News Release

Ramped up fight-or-flight response points to history of warfare for humans and chimps

Macaques and some bonobos lack these genetic variants that may increase the fight-or-flight response

Peer-Reviewed Publication

PLOS

Ramped up Fight-Or-Flight Response Points to History of Warfare for Humans and Chimps

image: ADRA2C, a negative regulator of the fight-or-flight response, is less active in humans and chimpanzees owing to genetic changes that facilitate binding of a repressor, NRSF. view more 

Credit: Kang Seon Lee

Humans and chimpanzees recently evolved a more active fight-or-flight response compared to other primates, possibly in response to the threat of warfare. Jung Kyoon Choi of KAIST in Korea, in collaboration with Soojin Yi of Georgia Tech, report these findings in a new study published April 19th, 2018 in PLOS Genetics.

Humans and chimpanzees are the only primates known to frequently engage in warfare. If this type of aggressive behavior was common during their evolution, then the fight-or-flight response likely played a critical role in adapting to the threat of deadly conflicts. To find evidence of this adaptation, researchers looked for changes in the regulation of a gene called ADRA2C that can tamp down the sympathetic nervous system, which regulates the fight-or-flight-response. They analyzed genomes, transcriptomes, which are the entire set of genes expressed in a cell, and epigenomes, which are composed of the array of compounds that can bind to DNA and affect how genes are expressed, from numerous humans, chimpanzees and other primates. The researchers discovered that humans and chimpanzees acquired genetic and accompanying epigenetic changes that decrease ADRA2C expression, thus increasing signaling for the fight-or-flight response. These changes are missing in macaques and are not universal in bonobos, suggesting that the genetic variations spread in the population recently potentially in response to threats of war. Jung Kyoon and his colleagues also used the genome-editing technique, CRISPR/Cas9, to demonstrate that reverting to the genetic states of macaques and bonobos can restore ADRA2C expression.

Variations in ADRA2C gene expression can have powerful effects on behavior. Knocking out ADRA2C in mice significantly affects the fight-or-flight response and changes in the gene that occurred during chicken domestication likely resulted in less aggressive birds. The signatures of adaptations associated with reduced ADRA2C gene expression in chimpanzees and humans, which are missing from their more peaceful primate relatives, suggest that inter-group aggression may have shaped their evolution and could explain the evolutionary roots of human warfare.

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In your coverage please use this URL to provide access to the freely available article in PLOS Genetics:

http://journals.plos.org/plosgenetics/article?id=10.1371/journal.pgen.1007311

Citation: Lee KS, Chatterjee P, Choi E-Y, Sung MK, Oh J, Won H, et al. (2018) Selection on the regulation of sympathetic nervous activity in humans and chimpanzees. PLoS Genet 14(4): e1007311. https://doi.org/10.1371/journalpgen.1007311.

Image Credit: Kang Seon Lee

Image Caption: ADRA2C, a negative regulator of the fight-or-flight response, is less active in humans and chimpanzees owing to genetic changes that facilitate binding of a repressor, NRSF.

Funding: The chimpanzee samples were obtained either directly or indirectly via Coriell from the Yerkes National Primate Research Center, funded in part by ORIP/OD P51OD011132. This research was supported by the National Science Foundation (SBE-131719) and the National Institutes of Health (1R01MH103517) to SVY and by the Brain Research Program (2017M3C7A1048092) and Bio-Synergy Research Project (2013M3A9C4078139) of the Ministry of Science and ICT through the National Research Foundation to JKC. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Competing Interests: The authors have declared that no competing interests exist.


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