Mr. Kun Xie Profile

Kun Xie

at Augusta Univ

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Proceedings Article | 13 March 2024 Presentation + Paper

Optogenetic control of arterial diameter in three-dimensions in vivo

Philip O'Herron, David Hartmann, Kun Xie, Prakash Kara, Andy Shih

Proceedings Volume 12829, 128290G (2024) https://doi.org/10.1117/12.3006878

KEYWORDS: Optogenetics, Light emitting diodes, Visualization, Brain, Spatial light modulators, Blood circulation, Tissues, Education and training, Beam diameter, Animals

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Modulation of brain arteriole diameter is critical for maintaining cerebral blood pressure and controlling regional hyperemia during neural activity. However, studies of hemodynamic function in health and disease have lacked a method to control arteriole diameter independently with high spatiotemporal resolution. Here, we describe an all-optical approach to manipulate and monitor brain arteriole contractility in 3-dimensions using combined in vivo two-photon optogenetics and imaging. The expression of the red-shifted excitatory opsin, ReaChR, in vascular smooth muscle cells enabled rapid and repeated vasoconstriction controlled by brief light pulses. Two-photon activation of ReaChR using a spatial light modulator produced highly localized constrictions when targeted to individual arterioles within the neocortex. Wide-field photoactivation with an LED constricted all arteries in the imaging field leading to widespread reductions in blood flow. We demonstrate the utility of this method for examining arteriole contractile dynamics and creating transient focal blood flow reductions. Additionally, we show that optogenetic constriction can be used to reshape vasodilatory responses to sensory stimulation, providing a valuable tool to dissociate blood flow changes from neural activity. We also demonstrate the confound in fluorescence imaging caused by changes in vessel diameter and discuss potential remedies.

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