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From Context to Cortex : Discovering Social Neurons

Summary: Researchers discover what they are calling social and asocial neurons in the prefrontal cortex.

Source: CNRS.

The existence of new “social” neurons has just been demonstrated by scientists from the Institut de neurosciences des systèmes (Aix-Marseille University / INSERM), the Laboratoire de psychologie sociale et cognitive (Université Clermont Auvergne / CNRS), and the Institut de neurosciences de la Timone (Aix-Marseille University / CNRS). Their research on monkeys has shown that when these animals are made to perform a task, the presence or absence of a conspecific—that is, another monkey—determines which neurons are activated. Published in Social Cognitive and Affective Neuroscience, these findings broaden our knowledge of the social brain and help us better grasp the phenomenon of social facilitation.

Understanding how the brain functions within a social context is a major challenge facing neuroscientists. Through their unique multidisciplinary collaboration, a primate neurophysiologist and an experimental social psychologist have now discovered two new classes of neurons in the prefrontal cortex: social and asocial neurons.

Most areas of the brain are associated with specific tasks. Some are specialized in the processing of information related to life in society: they make up the so-called social brain. In connection with thesis research conducted by Marie Demolliens, CNRS researchers Driss Boussaoud and Pascal Huguet assigned monkeys the task of matching a picture shown on a touch screen with one of four different items displayed at the corners of the same screen. Executing such a task requires use of the prefrontal cortex but not the “social” areas of the brain. The researchers made daily recordings of neuronal electrical activity in this region of the brain while monkeys performed the task in the presence or in the absence of a conspecific.

Though the monitored neurons of the prefrontal cortex are primarily involved in execution of the visuomotor task, the study showed most of them also reacted strongly to either the presence or absence of another monkey. During the experiment, some of these neurons were only strongly activated in the presence of a conspecific. They have thus been dubbed social neurons. On the other hand, the activity levels of other, asocial neurons only spiked in the absence of a fellow monkey. Even more surprisingly, the greater the intensity of social neuron activity in the presence of a conspecific, the better the subject performed the task. Social neurons are hence at the root of social facilitation. Likewise, the greater the activity of asocial neurons in the absence of conspecifics, the better the subject performed the task—though not as well as in the presence of another, when social neurons are stimulated. The researchers also demonstrated that in the other, rare permutations—activation of social neurons in the absence of conspecifics, or of asocial neurons in their presence—the monkeys did not perform as well.

Image shows the brain network organization.

Differential activation of social and asocial neurons depending on whether the monkey performing the touch screen task is in the presence or absence of a conspecific. NeuroscienceNews.com image is credited to the researchers.

This work reveals the important connection between social context and neuronal activity, and the consequences on behavior: which neurons the brain uses depends on whether a conspecific is present, even if the task is the same. Thus, rather than being limited to the areas of the brain principally associated with social activity, social neurons might actually be dispersed throughout the brain and play a role in various tasks—whether or not the latter are social in nature. These findings cast new light on the nature of the social brain as well as certain behavioral disorders characteristic of autism and schizophrenia.

About this neuroscience research article

Source: Queen Muse – CNRS
Image Source: NeuroscienceNews.com image is credited to the researchers.
Original Research: Full open access research for “Social and asocial prefrontal cortex neurons: a new look at social facilitation and the social brain” by Marie Demolliens, Faiçal Isbaine, Sylvain Takerkart, Pascal Huguet, and Driss Boussaoud in Current Biology. Published online April 11 2017 doi:10.1093/scan/nsx053

Cite This NeuroscienceNews.com Article
CNRS “From Context to Cortex : Discovering Social Neurons.” NeuroscienceNews. NeuroscienceNews, 25 May 2017.
<http://neurosciencenews.com/social-neurons-6771/>.
CNRS (2017, May 25). From Context to Cortex : Discovering Social Neurons. NeuroscienceNew. Retrieved May 25, 2017 from http://neurosciencenews.com/social-neurons-6771/
CNRS “From Context to Cortex : Discovering Social Neurons.” http://neurosciencenews.com/social-neurons-6771/ (accessed May 25, 2017).

Abstract

Social and asocial prefrontal cortex neurons: a new look at social facilitation and the social brain

A fundamental aspect of behavior in many animal species is social facilitation, the positive effect of the mere presence of conspecifics on performance. To date, the neuronal counterpart of this ubiquitous phenomenon is unknown. We recorded the activity of single neurons from two prefrontal cortex regions, the dorsolateral part (PFdl) and the anterior cingulate cortex (ACC) in monkeys as they performed a visuomotor task, either in the presence of a conspecific (Presence condition) or alone. Monkeys performed better in the presence condition than alone (social facilitation), and analyses of outcome-related activity of 342 prefrontal neurons revealed that most of them (86%) were sensitive to the performance context. Two populations of neurons were discovered: “social neurons”, preferentially active under social presence, and “asocial neurons”, preferentially active under social isolation. The activity of these neurons correlated positively with performance only in their preferred context (social neurons under social presence; asocial neurons under social isolation), thereby providing a potential neuronal mechanism of social facilitation. More generally, the fact that identical tasks recruited either social or asocial neurons depending on the presence or absence of a conspecific also brings a new look at the social brain hypothesis.

“Social and asocial prefrontal cortex neurons: a new look at social facilitation and the social brain” by Marie Demolliens, Faiçal Isbaine, Sylvain Takerkart, Pascal Huguet, and Driss Boussaoud in Current Biology. Published online April 11 2017 doi:10.1093/scan/nsx053

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