ANCoDy (Astro-Neu Cognitive Dynamics) is driven by the growing recognition that astrocytes, a type of brain cell traditionally seen as "support cells," play a much more active role in brain function. While astrocytes were once believed to only provide structural support for neurons, recent research shows that they are involved in critical processes such as learning, memory, and cognitive functions. However, the exact way in which astrocytes and neurons interact to support these functions is still not fully understood. This is particularly important because abnormalities in astrocytes have been linked to major neurological disorders like Alzheimer’s Disease.
ANCoDy sets out to test the hypothesis that astrocyte-neuron interactions are shaped by experiences and these are crucial for learning and memory. I used cutting-edge genetic and imaging techniques in mice to observe how astrocytes and neuronal activity changes in the brain during learning tasks. The project focuses on three key objectives:
1. Determine the fundamental properties of astrocyte-neuron interactions that change with learning experiences.
2. Establish a causal link between astrocyte-neuron activity and learning by manipulating astrocyte activity and observing the effects on brain function and behaviour.
3. Define the role of astrocytes in computations that support learning and memory, using advanced statistical models and machine learning techniques to analyse the data.
Pathway to Impact
ANCoDy’s results are expected to deepen our understanding of how astrocyte-neuron interactions influence cognition, addressing a significant gap in brain research. By revealing the role of astrocytes in learning and memory, the project could inspire new therapeutic approaches for conditions like Alzheimer’s Disease.
In addition, ANCoDy’s development of new computational tools will benefit the broader neuroscience community, aiding researchers in exploring brain cell interactions. Given that astrocytes make up over 50% of brain cells, understanding their role could have a profound impact on brain science and the treatment of cognitive disorders. ANCoDy aims to transform how we view brain function and open up new possibilities for therapeutic interventions.