Medical

Brain network offers clues to social cognition

19th May 2017
Enaie Azambuja
0

Scientists call our ability to understand another person's thoughts - to intuit their desires, read their intentions, and predict their behaviour - theory of mind. It's an essential human trait, one that is crucial to effective social interaction. But where did it come from? Working with rhesus macaque monkeys, researchers in Winrich Freiwald's Laboratory of Neural Systems at The Rockefeller University have discovered tantalising clues about the origins of our ability to understand what other people are thinking.

As reported in Science, Freiwald and postdoc Julia Sliwa have identified areas in the brains of these primates that are exclusively dedicated to analysing social interactions. And they may have evolved into the neural circuitry that supports theory of mind in the human brain.

The team used functional magnetic resonance imaging (fMRI) to identify those parts of the monkeys' brains that become active when the animals watched different kinds of videos.

Some of those videos showed inanimate objects (i.e., monkey toys) colliding or otherwise interacting physically. Others showed macaques interacting with the same objects by playing with them. And others still showed macaques interacting socially with other macaques: grooming, playing, fighting, etc.

By analysing the fMRI data, the researchers were able to determine precisely which portions of the monkeys' brains responded to physical or social interactions. And much of what they found came as a surprise.

For example, the team expected that areas containing specialised brain cells called mirror neurons, which fire when an animal performs an action such as grasping a stick or hitting a ball, or sees another animal performing the same action, would light up when the macaques watched other macaques playing with toys.

But the macaques' mirror neuron regions also showed activity when the animals watched their fellow monkeys interacting socially - and even when they watched objects colliding with other objects.

That, says Sliwa, suggests that the motor neuron system, which also exists in the human brain, could be more involved than previously thought in understanding a variety of both social and non-social interactions.

The scientists also expected those areas of the brain that respond selectively to specific visual shapes - namely, faces, bodies, or objects - would be activated when the monkeys watched videos featuring those shapes. And that did indeed happen.

Surprisingly, though, the body-selective areas of the macaques' brains got an extra boost when the animals watched videos of monkeys interacting with objects. And their face-selective areas perked up even more in response to videos of monkey-on-monkey social interactions. This suggests that the same parts of the brain that are responsible for analysing visual shapes might also be partly responsible for analysing both physical and social interactions.

Most intriguingly, the team discovered that additional areas of the brain, far removed from those face- and body-selective areas, also lit up in response to social interactions. Digging deeper, the researchers even identified a portion of the network that responded exclusively to social interactions, remaining nearly silent in their absence.

"That was both unexpected and mind-boggling," says Freiwald, who explains that no other study has shown evidence of a network in the brain going dark when denied its preferred input.

This socially sensitive network is located in the same areas of the brain that are associated with theory of mind in humans - areas that are similarly activated only when we reflect on the thoughts of others.

As a result, says Sliwa, it could represent an "evolutionary precursor" to the neural network that produces theory of mind in our own brains. And we humans, in turn, might not be quite as unique - or as far removed from our primate cousins - as we like to think.

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