Spencer Huynh scite author profile

Spencer Huynh

2Publications

0Citation Statements Received

144Citation Statements Given

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University of Illinois at Chicago

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Live Cell Light Sheet Imaging with Low- and High-Spatial-Coherence Detection Approaches Reveals Spatiotemporal Aspects of Neuronal Signaling

et al. 2023

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Light sheet microscopy in live cells requires minimal excitation intensity and resolves three-dimensional (3D) information rapidly. Lattice light sheet microscopy (LLSM) works similarly but uses a lattice configuration of Bessel beams to generate a flatter, diffraction-limited z-axis sheet suitable for investigating subcellular compartments, with better tissue penetration. We developed a LLSM method for investigating cellular properties of tissue in situ. Neural structures provide an important target. Neurons are complex 3D structures, and signaling between cells and subcellular structures requires high resolution imaging. We developed an LLSM configuration based on the Janelia Research Campus design or in situ recording that allows simultaneous electrophysiological recording. We give examples of using LLSM to assess synaptic function in situ. In presynapses, evoked Ca2+ entry causes vesicle fusion and neurotransmitter release. We demonstrate the use of LLSM to measure stimulus-evoked localized presynaptic Ca2+ entry and track synaptic vesicle recycling. We also demonstrate the resolution of postsynaptic Ca2+ signaling in single synapses. A challenge in 3D imaging is the need to move the emission objective to maintain focus. We have developed an incoherent holographic lattice light-sheet (IHLLS) technique to replace the LLS tube lens with a dual diffractive lens to obtain 3D images of spatially incoherent light diffracted from an object as incoherent holograms. The 3D structure is reproduced within the scanned volume without moving the emission objective. This eliminates mechanical artifacts and improves temporal resolution. We focus on LLS and IHLLS applications and data obtained in neuroscience and emphasize increases in temporal and spatial resolution using these approaches.

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G protein βγ subunits bind to and inhibit the function of multiple Qa- and Qb,c-SNARE isoforms

Zurawski

Huynh

Kaya

et al. 2022

Preprint

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While the ability of G protein βγ subunits (Gβγ ) to bind to and functionally inhibit the neuronal SNARE proteins Stx1A, SNAP25, and synaptobrevin in the presence of the calcium sensor synaptotagmin I is well documented, these three SNARE proteins, which form the core SNARE complex for synchronous evoked release in neurons, are but a subset of the larger family of SNARE proteins, which participate in many other exocytic processes within the cell and in other populations of secretory cells throughout the body, from which the release of neurotransmitters, hormones, and other factors is regulated by Gi/o-coupled GPCRs. The ability of Gβγ to regulate these processes is unknown. To investigate the feasibility of this mechanism to inhibit SNARE function more broadly, we utilized a series of biochemical assays of binding and function with four Qa-SNAREs (Stx1A, Stx2, Stx3, and Stx4) and four Qb,c-SNAREs (SNAP25, SNAP23, SNAP29, and SNAP47) in tandem with the R-SNARE synaptobrevin, synaptotagmin I, and Gβγ. Gβγ was found to bind to multiple Qa-SNARE isoforms as well as SNAP23, and inhibit the lipid mixing function of these SNAREs, as well as SNAP29. Together, this data suggests a more broad role for the Gβγ -SNARE pathway in the regulation of exocytosis beyond cells that express Stx1A or SNAP25.

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Spencer Huynh

Live Cell Light Sheet Imaging with Low- and High-Spatial-Coherence Detection Approaches Reveals Spatiotemporal Aspects of Neuronal Signaling

G protein βγ subunits bind to and inhibit the function of multiple Qa- and Qb,c-SNARE isoforms

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