3 results
Search Results
Now showing 1 - 3 of 3
- ItemHigh glucose distinctively regulates Ca2+ influx in cytotoxic T lymphocytes upon target recognition and thapsigargin stimulation(Hoboken, NJ : Wiley, 2020) Zou, Huajiao; Yang, Wenjuan; Schwär, Gertrud; Zhao, Renping; Alansary, Dalia; Yin, Deling; Schwarz, Eva C.; Niemeyer, Barbara A.; Qu, BinIn CTLs: High glucose‐culture enhances thapsigargin‐induced SOCE but decreases target recognition‐induced Ca2+ influx. High glucose‐culture regulates expression of ORAIs and STIMs without affecting glucose uptake. More high glucose‐cultured CTLs are prone to necrosis after execution of killing.
- ItemSupra-Molecular Assemblies of ORAI1 at Rest Precede Local Accumulation into Puncta after Activation(Basel : Molecular Diversity Preservation International, 2021) Peckys, Diana B.; Gaa, Daniel; Alansary, Dalia; Niemeyer, Barbara A.; de Jonge, NielsThe Ca2+ selective channel ORAI1 and endoplasmic reticulum (ER)-resident STIM proteins form the core of the channel complex mediating store operated Ca2+ entry (SOCE). Using liquid phase electron microscopy (LPEM), the distribution of ORAI1 proteins was examined at rest and after SOCE-activation at nanoscale resolution. The analysis of over seven hundred thousand ORAI1 positions revealed a number of ORAI1 channels had formed STIM-independent distinct supra-molecular clusters. Upon SOCE activation and in the presence of STIM proteins, a fraction of ORAI1 assembled in micron-sized two-dimensional structures, such as the known puncta at the ER plasma membrane contact zones, but also in divergent structures such as strands, and ring-like shapes. Our results thus question the hypothesis that stochastically migrating single ORAI1 channels are trapped at regions containing activated STIM, and we propose instead that supra-molecular ORAI1 clusters fulfill an amplifying function for creating dense ORAI1 accumulations upon SOCE-activation.
- ItemTargeting the Microtubule-Network Rescues CTL Killing Efficiency in Dense 3D Matrices(Lausanne : Frontiers Media, 2021) Zhao, Renping; Zhou, Xiangda; Khan, Essak S.; Alansary, Dalia; Friedmann, Kim S.; Yang, Wenjuan; Schwarz, Eva C.; Del Campo, Aránzazu; Hoth, Markus; Qu, BinEfficacy of cytotoxic T lymphocyte (CTL)-based immunotherapy is still unsatisfactory against solid tumors, which are frequently characterized by condensed extracellular matrix. Here, using a unique 3D killing assay, we identify that the killing efficiency of primary human CTLs is substantially impaired in dense collagen matrices. Although the expression of cytotoxic proteins in CTLs remained intact in dense collagen, CTL motility was largely compromised. Using light-sheet microscopy, we found that persistence and velocity of CTL migration was influenced by the stiffness and porosity of the 3D matrix. Notably, 3D CTL velocity was strongly correlated with their nuclear deformability, which was enhanced by disruption of the microtubule network especially in dense matrices. Concomitantly, CTL migration, search efficiency, and killing efficiency in dense collagen were significantly increased in microtubule-perturbed CTLs. In addition, the chemotherapeutically used microtubule inhibitor vinblastine drastically enhanced CTL killing efficiency in dense collagen. Together, our findings suggest targeting the microtubule network as a promising strategy to enhance efficacy of CTL-based immunotherapy against solid tumors, especially stiff solid tumors.