Neuromodulatory control of brain network dynamics

HORIZON.1.1HORIZON-ERCID: 101125054
EC Contribution
โ‚ฌ19,994
Consortium Size
2 orgs
โ–ถSummary

Spontaneous brain activity, the most expensive metabolic process of the human brain, is highly dynamic and continually evolves over timescales of seconds. Human neuroimaging has made it possible to map dynamic patterns of spontaneous network activity with increasing precision. However, our understanding of the origin, function and organization of this phenomenon remains alarmingly limited. This project aims to elucidate the physiological mechanisms and operational principles that govern spontaneous network dynamics (termed here ""brain network dynamics"" - BND). To achieve these goals, I will establish an integrated research platform that combines advanced manipulations and recordings of BND in the awake mouse brain. To comprehensively probe the mechanisms that operate BND, I will carry out two complementary sets of causal manipulations that are conceptualized as exogenous or endogenous neuromodulation, depending on whether they encompass synthetic (optogenetically generated, Aim 1) or intrinsic (neurotransmitter related, Aim 2) modulatory mechanisms, respectively. Using this approach, I will (a) uncover the rhythms that causally sustain BND, and establish how BND causally responds to (and can be controlled by) mechanistically-precise exogenous neuromodulation

Consortium (2)