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- Title
Task Learning Promotes Plasticity of Interneuron Connectivity Maps in the Olfactory Bulb.
- Authors
Longwen Huang; Kevin Ung; Isabella Garcia; Quast, Kathleen B.; Cordiner, Keith; Saggau, Peter; Arenkiel, Benjamin R.
- Abstract
Elucidating patterns of functional synaptic connectivity and deciphering mechanisms of how plasticity influences such connectivity is essential toward understanding brain function. In the mouse olfactory bulb (OB), principal neurons (mitral/tufted cells) make reciprocal connections with local inhibitory interneurons, including granule cells (GCs) and external plexiform layer (EPL) interneurons. Our current understanding of the functional connectivity between these cell types, as well as their experience-dependent plasticity, remains incomplete. By combining acousto-optic deflector-based scanning microscopy and genetically targeted expression of Channelrhodopsin-2, we mapped connections in a cell-type-specific manner between mitral cells (MCs) and GCs or between MCs and EPL interneurons. We found that EPL interneurons form broad patterns of connectivity with MCs, whereas GCs make more restricted connections with MCs. Using an olfactory associative learning paradigm, we found that these circuits displayed differential features of experience-dependent plasticity. Whereas reciprocal connectivity between MCs and EPL interneurons was nonplastic, the connections between GCs and MCs were dynamic and adaptive. Interestingly, experience-dependent plasticity of GCs occurred only in certain stages of neuronal maturation. We show that different interneuron subtypes form distinct connectivity maps and modes of experiencedependent plasticity in the OB, which may reflect their unique functional roles in information processing.
- Subjects
OLFACTORY bulb; NEURAL circuitry; INTERNEURONS; NEUROPLASTICITY; LEARNING; GRANULE cells
- Publication
Journal of Neuroscience, 2016, Vol 36, Issue 34, p8856
- ISSN
0270-6474
- Publication type
Article
- DOI
10.1523/JNEUROSCI.0794-16.2016