André Weber scite author profile

The enzymatic activity of the Src family tyrosine kinase p56 (Lck) is tightly controlled by differential phosphorylation of two tyrosine residues, Tyr and Tyr Phosphorylation of Tyr and the conformational opening of Lck are believed to activate the kinase, whereas Tyr phosphorylation is thought to generate a closed, inactive conformation of Lck. We investigated whether the conformation of Lck and its phosphorylation state act in concert to regulate the initiation of T cell receptor (TCR) signaling. With a sensitive biosensor, we used fluorescence lifetime imaging microscopy (FLIM) to investigate the conformations of wild-type Lck and its phosphorylation-deficient mutants Y394F and Y505F and the double mutant Y394F/Y505F in unstimulated T cells and after TCR stimulation. With this approach, we separated the conformational changes of Lck from the phosphorylation state of its regulatory tyrosines. We showed that the conformational opening of Lck alone was insufficient to initiate signaling events in T cells. Rather, Lck additionally required phosphorylation of Tyr to induce T cell activation. Consistent with the FLIM measurements, an optimized immunofluorescence microscopy protocol revealed that the TCR-stimulated phosphorylation of Lck at Tyr occurred preferentially at the plasma membrane of Jurkat cells and primary human T cells. Our study supports the hypothesis that T cell activation through the TCR complex is accompanied by the de novo activation of Lck and that phosphorylation of Tyr plays a role in Lck function that goes beyond inducing an open conformation of the kinase.

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Wide-Field Fluorescence Lifetime Imaging of Single Molecules

Oleksiievets

Thiele

Weber

et al. 2020

J. Phys. Chem. A

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Fluorescence lifetime imaging (FLIM) has become an important microscopy technique in bioimaging. The two most important of its applications are lifetime-multiplexing for imaging many different structures in parallel, and lifetime-based measurements of Forster resonance energy transfer. There are two principal FLIM techniques, one based on confocal-laser scanning microscopy (CLSM) and time-correlated single-photon counting (TCSPC) and the other based on wide-field microscopy and phase fluorometry. Although the first approach (CLSM-TCSPC) assures high sensitivity and allows one to detect single molecules, it is slow and has a small photon yield. The second allows, in principal, high frame rates (by 2−3 orders of magnitude faster than CLSM), but it suffers from low sensitivity, which precludes its application for single-molecule imaging. Here, we demonstrate that a novel wide-field TCSPC camera (LINCam25, Photonscore GmbH) can be successfully used for single-molecule FLIM, although its quantum yield of detection in the red spectral region is only ∼5%. This is due to the virtually absent background and readout noise of the camera, assuring high signal-to-noise ratio even at low detection efficiency. We performed single-molecule FLIM of different red fluorophores, and we use the lifetime information for successfully distinguishing between different molecular species. Finally, we demonstrate single-molecule metal-induced energy transfer (MIET) imaging which is a first step for three-dimensional single-molecule localization microscopy (SMLM) with nanometer resolution.

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Desynchronisation of Glycolytic Oscillations in Yeast Cell Populations

et al. 2012

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Glycolytic oscillations of intact yeast cells of the strain Saccharomyces carlsbergensis were investigated at both the levels of cell populations and of individual cells. Individual cells showed glycolytic oscillations even at very low cell densities (e.g. 1.0105 cells/ml). By contrast, the collective behaviour on the population level was cell density-dependent: at high cell densities it is oscillatory, but below the threshold density of 1.0106 cells/ml the collective dynamics becomes quiescent. We demonstrate that the transition in the collective dynamics is caused by the desynchronisation of the oscillations of individual cells. This is characteristic for a Kuramoto transition. Spatially resolved measurements at low cell densities revealed that even cells that adhere to their neighbours oscillated with their own, independent frequencies and phases.

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Single-Molecule Fluorescence Lifetime Imaging Using Wide-Field and Confocal-Laser Scanning Microscopy: A Comparative Analysis

et al. 2022

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A recent addition to the toolbox of super-resolution microscopy methods is fluorescence-lifetime single-molecule localization microscopy (FL-SMLM). The synergy of SMLM and fluorescence-lifetime imaging microscopy (FLIM) combines superior image resolution with lifetime information and can be realized using two complementary experimental approaches: confocal-laser scanning microscopy (CLSM) or wide-field microscopy. Here, we systematically and comprehensively compare these two novel FL-SMLM approaches in different spectral regions. For wide-field FL-SMLM, we use a commercial lifetime camera, and for CLSM-based FL-SMLM we employ a home-built system equipped with a rapid scan unit and a single-photon detector. We characterize the performances of the two systems in localizing single emitters in 3D by combining FL-SMLM with metal-induced energy transfer (MIET) for localization along the third dimension and in the lifetime-based multiplexed bioimaging using DNA-PAINT. Finally, we discuss advantages and disadvantages of wide-field and confocal FL-SMLM and provide practical advice on rational FL-SMLM experiment design.

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André Weber

De novo phosphorylation and conformational opening of the tyrosine kinase Lck act in concert to initiate T cell receptor signaling

Wide-Field Fluorescence Lifetime Imaging of Single Molecules

Desynchronisation of Glycolytic Oscillations in Yeast Cell Populations

Single-Molecule Fluorescence Lifetime Imaging Using Wide-Field and Confocal-Laser Scanning Microscopy: A Comparative Analysis

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