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Multimodal optical interrogation of neural activity and neuromodulation during sequence processing

Project description

Neural activity and neuromodulation in the perception and learning of audio-tactile sequences

Individual neurons in the cerebral cortex integrate information from different senses to identify objects and sequences of events. At the same time, neuromodulatory molecules shape the activity of such neurons, adapting them to the surrounding context. This interplay generates spatio-temporal patterns of neural activity containing the code for perception. The EU-funded EnlightenedLoom project aims to elucidate the role of functional groups of neurons in the processing of audio-tactile sequences. The researchers will combine advanced optical and computational tools to pursue a novel and integrative approach to neural function: one where neural activity and neuromodulation are investigated together, at high-resolution, and their role interpreted through a solid theoretical framework.

Objective

The world often presents us with sequences of multisensory stimuli unfolding over time, like a car appearing after we hear it approaching. In the cerebral cortex, individual neurons integrate information across senses and time in order to identify these objects. Meanwhile, neuromodulatory molecules shape neural computations, adapting them to context and experience. It is from this interplay that the spatio-temporal patterns of neural activity containing the code for how we perceive the world originate. However, these activity patterns have long been experimentally inaccessible, and they have never been investigated concurrently to neuromodulation. With this project, I will reveal the causal role of functionally-identified ensembles of neurons in the perception and learning of audio-tactile sequences. I will combine, for the first time, two-photon (2p) imaging and holographic-optogenetics with fluorescent neuromodulation sensors. My experiments will be performed in the posterior parietal cortex (PPC) of the mouse, a multimodal area acting as sensory history buffer. I will focus on noradrenaline (NA), a modulator so far involved in sharpening processing of weak unisensory features. I will 1) test which PPC neurons are sufficient, when activated, to bias perception of multisensory sequences during a behavioural task; 2) simultaneously, I will test whether and how PPC levels of NA change when altering sequence discriminability. My experiments will be supported by a solid theoretical framework based on Information Theory. In conclusion, I will use a unique combination of advanced molecular, optical, and computational tools to pursue a novel, causal and integrative approach to cortical function: one where functional neuronal subgroups and neuromodulation are investigated together, at high-resolution, to explain the multi-layered biological basis of the fascinating interaction between our brains and the world.

Coordinator

FONDAZIONE ISTITUTO ITALIANO DI TECNOLOGIA
Net EU contribution
€ 183 473,28
Address
VIA MOREGO 30
16163 Genova
Italy

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Region
Nord-Ovest Liguria Genova
Activity type
Research Organisations
Links
Total cost
€ 183 473,28