Index
-
01
Research landscape -
02
Your goal -
03
Plan your stay -
04
Success stories -
05
Our service
- Research landscape
- Your goal
- Plan your stay
- Success stories
- Our service
- Research landscape
The language of the brain: How memories guide us to rewards
Now in spring, some of us have a particular craving for ice cream. Picture this: You want to take a walk to your favourite ice cream parlour for the first time after winter. You can probably remember how to get there. How does our brain guide us to such rewarding places? In a study recently published in the journal Nature Communications, researchers from the Leibniz Institute of Neurobiology (LIN) in Magdeburg used state-of-the-art methods to answer this question. They discovered that our brain uses a special code to guide us to places that promise rewards.Apr 17, 2024, 6:31:25 PM
Ulrike Papajewski, Leibniz-Institut für Neurobiologie
Robin Ritter
Dialogue between brain regions In the recently published study, the researchers focussed on the connection between the hippocampus and the nucleus accumbens, an area of the brain responsible for motivation and reward. The hypothesis is that communication between the two areas helps us to find places where we were previously rewarded. Although it was known that these regions work together, it was previously impossible to directly observe the activity of numerous neurons and know where they are sending information to. "What we have discovered is nothing less than the 'language' that our brain uses to guide us to the places we love," explains Oliver Barnstedt, first author of the study. Oliver Barnstedt, Petra Mocellin and Stefan Remy are researching the hippocampus at the LIN - an area of the brain that is crucial for remembering life events and spatial orientation and therefore plays a key role in memory. Damage to the hippocampus leads, among other things, to the loss of the ability to form new memories. Stefan Remy, head of the Cellular Neuroscience research group, therefore concludes: "The ability to decipher high-dimensional neuronal codes could lead to more precise therapies that directly target the restoration of memory functions." Innovative methodology The scientific team working with Oliver Barnstedt used a range of novel optical and analytical methods to understand how the two brain regions communicate with each other. Using special fluorescent proteins and two-photon microscopy, the scientists were able to track the neuronal activity and the connections to the reward centre in the brain. Over 5,000 neurons were monitored to see how and when they became active - a ground-breaking method to understand how mice trained on a treadmill – reminiscent of a natural environment – identify and respond to reward locations. Multidimensional brain codes The team's research suggests that nearly half of the neurons leading from the hippocampus to the nucleus accumbens simultaneously encode information about place and movement - a milestone in understanding how the brain integrates spatial and reward-related information. This multidimensional networking enables the brain to anticipate with high precision the places that give us pleasure. It is as if our brain cells map in advance the 'happiness' of a rewarding experience such as visiting our favourite ice cream parlour. Significance for medicine and therapy "This study marks a turning point in our understanding of spatial memory and reward - and opens up new avenues for the treatment of diseases such as Alzheimer's and addiction," says Oliver Barnstedt. The insight into high-dimensional neuronal coding offers new approaches for the treatment of spatial disorientation in Alzheimer's patients and for therapeutic strategies for addictive behaviour. A deeper understanding of the neuronal processes that have now been visualised could be the key to more effective therapies.