[R21] Developmental characterization of synapses between neurons and oligodendrocyte precursor cells
Ente: National Institute of Mental Health
Scadenza: 2028-06-18
Importo max: 528.000 EUR
Paese: US
Descrizione
Synaptic connections between neurons are fundamental computational units in the brain that contribute
to virtually all neurological functions. For this reason, synapses have been extensively characterized across
structural, functional, and molecular levels, revealing insights into the mechanisms through which synapses are
established during brain development and deepening our understanding of how impairments in synaptic
maturation contribute to autism and related disorders. Nevertheless, our ever-growing understanding of
synapses has yet to give rise to effective pharmacological strategies for treating neurodevelopmental conditions.
One reason for this lack of progress is that the specific population(s) of synapses that are affected in autism, and
the precise ways in which their development goes awry, remain to be defined.
Though synapses are widely considered to be the sole domain of neurons, seminal work in the early
2000s demonstrated that neurons also form functional synaptic connections with oligodendrocyte precursor cells
(OPCs), a highly proliferative population of glia that makes up about 5% of the brain. OPCs express the requisite
neurotransmitter receptors and signaling modules necessary to receive, interpret, and respond to synaptic
innervation, and neuron-OPC synapses have been suggested to influence a range of functions including but
extending beyond myelination. Yet, despite our relatively deep understanding of synaptic communication
between neurons, synapses between neurons and OPCs remain poorly understood across all levels of analysis.
Intriguingly, among all brain cells, OPCs are the highest expressers of synaptic adhesion molecules in the
Neuroligin family, key mediators of synapse development that are among the strongest genetic drivers of autism
risk. This observation raises the possibility that, despite the predominant view that impairments in the
development of neuron-neuron synapses underlie autism, deficits in the development of neuron-OPC synapses
could contribute as well. However, almost nothing is known about the mechanisms through which neuron-OPC
synapses are assembled and refined in the contexts of either health or disease.
In this application, we propose to examine the development of neuron-OPC synapses by harnessing the
retinogeniculate pathway of the mouse visual system as a model for interrogating postnatal circuit refinement. In
Aim 1, we will employ anatomical and electrophysiological approaches to map the maturation of synapses
between neurons in the retina and OPCs (or neighboring relay neurons) in the visual thalamus in the presence
or absence of OPC-expressed Neuroligins 1-3. In Aim 2, we will employ a proteomic screen to define the
molecular composition of neuron-OPC synapses during development in an unbiased manner. Given that neuron-
OPC synapses are the only synapse class through which neurons communicate directly with glia, virtually any
insights into the development of neuron-OPC synapses will repr
Istituzione: COLD SPRING HARBOR LABORATORY
PI: Lucas M Cheadle
Progetto: 1R21MH140036-01A1
Settori: National Institute of Mental Health
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