Brain mechanism of curiosity unraveled
- Date:
- May 13, 2021
- Source:
- Netherlands Institute for Neuroscience - KNAW
- Summary:
- Researchers have discovered a new brain circuit underlying curiosity and novelty seeking behavior. Using several innovative techniques, the scientists uncovered a whole path of multiple brain regions that converts curiosity into action in mice.
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Curiosity is the motivational drive for exploring and investigating the unknown and making new discoveries. It is as essential and intrinsic for survival as hunger. Until recently, the brain mechanisms underlying curiosity and novelty seeking behavior were unclear. However, researchers from the Netherlands Institute for Neuroscience have now discovered a new brain circuit underlying curiosity and novelty seeking behavior. The results have been published in the scientific journal Science.
Curiosity, hunger and appetitive aggression drive three different goal-directed behaviors: novelty seeking, food eating and hunting. In animals these behaviors are composed of similar actions. This similarity of actions has made it challenging to study novelty seeking in inarticulate animals and distinguish it from eating and hunting.
Simple solution
"In spite of having well-developed techniques to study mouse brain circuits, there are many controversial and different results in the field of motivational behavior. Therefore, we chose a simple solution to conduct our research: giving the mouse freedom to choose what it wants," says Alexander Heimel, group leader at the Netherlands Institute for Neuroscience. By examining mice in an experimental battery of new and familiar objects and social interaction, the scientists uncovered a cell-type specific brain circuit of the curiosity and novelty seeking behavior.
Researcher Mehran Ahmadlou explains: "By increasing brain activity in a specific brain region, the Zona Incerta, interaction with conspecifics and novel objects compared to familiar objects and food increased. When we inactivated the cells in this region, depth and duration of investigation decreased." Moreover, the researchers found that specific neurons were more active during deep investigation compared to during shallow investigation.
Path of curiosity
Using several innovative techniques, a whole path of multiple brain regions was uncovered that converts curiosity into action in mice. Heimel: "It is the first time that this path has been described. Now we can begin to understand, for example, how curiosity sometimes wins over the urge for security, and why some individuals are more curious than others. There is still a lot we are curious about."
How curiosity leads to research behavior in humans is still unknown. Another recent study shows that the Zona Incerta also plays a role in arousing curiosity in monkeys. Heimel: "We still know little about this area in humans, because it is located deep within the brain and it is difficult to measure activity with brain scans." The development of new techniques may lead to more clarity in the future.
Story Source:
Materials provided by Netherlands Institute for Neuroscience - KNAW. Note: Content may be edited for style and length.
Journal Reference:
- Mehran Ahmadlou, Janou H. W. Houba, Jacqueline F. M. van Vierbergen, Maria Giannouli, Geoffrey-Alexander Gimenez, Christiaan van Weeghel, Maryam Darbanfouladi, Maryam Yasamin Shirazi, Julia Dziubek, Mejdy Kacem, Fred de Winter, J. Alexander Heimel. A cell type–specific cortico-subcortical brain circuit for investigatory and novelty-seeking behavior. Science, 2021; 372 (6543): eabe9681 DOI: 10.1126/science.abe9681
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