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Visualizing the circadian neural network in vivo: A toolkit for real-time imaging and optogenetic manipulation of the suprachiasmatic nucleus

$213,000R21FY2019NSNIH

Morehouse School Of Medicine, Atlanta GA

Investigators

Linked publications, trials & patents

Abstract

PROJECT SUMMARY Due to the very recent development of in vivo widefield fluorescence imaging using a miniaturized mi- croscope, neuronal networks can now be observed in real time during responses to environmental input, goal- directed behaviors, and abnormal function with unprecedented anatomical and phenotypic specificity. The cir- cadian neural network in the hypothalamic suprachiasmatic nucleus (SCN) is an ideal model system in which to apply these tools. The SCN network is unique in that it receives direct monosynaptic sensory input from the eyes, encodes light onset and daylength into its network function, and provides neuronal output that regulates the timing of most physiological functions and behavior. However, a major limitation in investigations of SCN physiology to-date has been the need to section the brain, destroying most of the network, and divorcing it from its sensory inputs or behavioral outputs. The ability to study the intact SCN network with functional visual afferents and behavioral efferents, would represent an unprecedented leap forward for the field. We propose to develop a toolkit for the real-time imaging with cell-specific optogenetic control of SCN neurophysiological activity. This requires optimization via systematic testing of genetic constructs, viral vectors, imaging devices, mouse models, and surgical procedures. Once optimized, we will use these powerful approaches to study a critically important feature of circadian biology which was previously unaddressable: the network processing of light input that leads to shifts of the circadian behavioral rhythm.

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