Publications

Wrublewsky, S., Speer, T., Nalbach, L., Boewe, A. S., Pack, M., Alansary, D. et al. (2022). Targeting Pancreatic Islet NLRP3 Improves Islet Graft Revascularization. Diabetes, db210851. http://doi.org/10.2337/db21-0851
Tandl, D., Sponagel, T., Alansary, D., Fuck, S., Smit, T., Hehlgans, S. et al. (2022). X-ray irradiation triggers immune response in human T-lymphocytes via store-operated Ca2+ entry and NFAT activation. The Journal of General Physiology, 154 (5), e202112865. http://doi.org/10.1085/jgp.202112865
Knörck, A., Schäfer, G., Alansary, D., Richter, J., Thurner, L., Hoth, M. et al. (2022). Cytotoxic Efficiency of Human CD8+ T Cell Memory Subtypes. Frontiers in Immunology, 13, 838484. http://doi.org/10.3389/fimmu.2022.838484
Souza Bomfim, G. H., Niemeyer, B. A., Lacruz, R. S. & Lis, A. (2022). On the Connections between TRPM Channels and SOCE. Cells, 11 (7), 1190. http://doi.org/10.3390/cells11071190
Shieh, B. H. & Niemeyer, B. (1995). A novel protein encoded by the InaD gene regulates recovery of visual transduction in Drosophila. Neuron, 14 (1), 201–210.
Wu, L., Niemeyer, B., Colley, N., Socolich, M. & Zuker, C. S. (1995). Regulation of PLC-mediated signalling in vivo by CDP-diacylglycerol synthase. Nature, 373 (6511), 216–222.
Niemeyer, B. A., Suzuki, E., Scott, K., Jalink, K. & Zuker, C. S. (1996). The Drosophila light-activated conductance is composed of the two channels TRP and TRPL. Cell, 85 (5), 651–659.
Schwarz, E. C., Wissenbach, U., Niemeyer, B. A., Strauss, B., Philipp, S. E., Flockerzi, V. et al. (2006). TRPV6 potentiates calcium-dependent cell proliferation. Cell Calcium, 39 (2), 163–173.
Erler, I., Al-Ansary, D. M., Wissenbach, U., Wagner, T. F., Flockerzi, V. & Niemeyer, B. A. (2006). Trafficking and assembly of the cold-sensitive TRPM8 channel. J Biol Chem, 281 (50), 38396–38404.
Al-Ansary, D., Bogeski, I., Disteldorf, B. M., Becherer, U. & Niemeyer, B. A. (2010). ATP modulates Ca2+ uptake by TRPV6 and is counteracted by isoform-specific phosphorylation. FASEB J, 24 (2), 425–435.
Bogeski, I., Kummerow, C., Al-Ansary, D., Schwarz, E. C., Koehler, R., Kozai, D. et al. (2010). Differential redox regulation of ORAI ion channels: a mechanism to tune cellular calcium signaling. Sci Signal, 3 (115), ra24–ra24.
Bogeski, I., Al-Ansary, D., Qu, B., Niemeyer, B. A., Hoth, M. & Peinelt, C. (2010). Pharmacology of ORAI channels as a tool to understand their physiological functions. Expert Rev Clin Pharmacol, 3 (3), 291–303.
Quintana, A., Pasche, M., Junker, C., Al-Ansary, D., Rieger, H., Kummerow, C. et al. (2011). Calcium microdomains at the immunological synapse: how ORAI channels, mitochondria and calcium pumps generate local calcium signals for efficient T-cell activation. EMBO J, 30 (19), 3895–3912.
Niemeyer, B. A. & Hoth, M. (2011). Excitable T cells: Ca(v)1.4 channel contributions and controversies. Immunity, 35 (3), 315–317.
Bogeski, I., Kappl, R., Kummerow, C., Gulaboski, R., Hoth, M. & Niemeyer, B. A. (2011). Redox regulation of calcium ion channels: chemical and physiological aspects. Cell Calcium, 50 (5), 407–423.
Stanisz, H., Stark, A., Kilch, T., Schwarz, E. C., Müller, C. S., Peinelt, C. et al. (2012). ORAI1 Ca(2+) channels control endothelin-1-induced mitogenesis and melanogenesis in primary human melanocytes. J Invest Dermatol, 132 (5), 1443–1451.
Bogeski, I., Kilch, T. & Niemeyer, B. A. (2012). ROS and SOCE: recent advances and controversies in the regulation of STIM and Orai. J Physiol, 590 (17), 4193–4200.
Kilch, T., Alansary, D., Peglow, M., Dörr, K., Rychkov, G., Rieger, H. et al. (2013). Mutations of the Ca2+-sensing stromal interaction molecule STIM1 regulate Ca2+ influx by altered oligomerization of STIM1 and by destabilization of the Ca2+ channel Orai1. J Biol Chem, 288 (3), 1653–1664.
Stanisz, H., Saul, S., Müller, C. S., Kappl, R., Niemeyer, B. A., Vogt, T. et al. (2014). Inverse regulation of melanoma growth and migration by Orai1/STIM2-dependent calcium entry. Pigment Cell Melanoma Res, 27 (3), 442–453.
Bogeski, I. & Niemeyer, B. A. (2014). Redox regulation of ion channels. Antioxid Redox Signal, 21 (6), 859–862.
Miederer*, A. M., Alansary*, D., Schwär, G., Lee, P. H., Jung, M., Helms, V. et al. (2015). A STIM2 splice variant negatively regulates store-operated calcium entry. Nat Commun, 6, *equal contribution.
Alansary, D., Bogeski, I. & Niemeyer, B. A. (2015). Facilitation of Orai3 targeting and store-operated function by Orai1. Biochim Biophys Acta, 1853 (7), 1541–1550.
Dörr, K., Kilch, T., Kappel, S., Alansary, D., Schwär, G., Niemeyer, B. A. et al. (2016). Cell type-specific glycosylation of Orai1 modulates store-operated Ca2+ entry. Sci Signal, 9 (418), ra25–ra25.
Saul, S., Gibhardt, C. S., Schmidt, B., Lis, A., Pasieka, B., Conrad, D. et al. (2016). A calcium-redox feedback loop controls human monocyte immune responses: The role of ORAI Ca2+ channels. Sci Signal, 9 (418), ra26–ra26.
Niemeyer, B. A. (2016). Changing calcium: CRAC channel (STIM and Orai) expression, splicing, and posttranslational modifiers. Am J Physiol Cell Physiol, 310 (9), C701-709-C701-709.
Noels, H., Boor, P., Goettsch, C., Hohl, M., Jahnen-Dechent, W., Jankowski, V. et al. (2018). The new SFB/TRR219 Research Centre. Eur Heart J, 39 (12), 975–977.
Kircher, S., Merino-Wong, M., Niemeyer, B. A. & Alansary, D. (2018). Profiling calcium signals of in vitro polarized human effector CD4+ T cells. Biochim Biophys Acta Mol Cell Res, 1865 (6), 932–943.
Niemeyer, B. A. (2005). Structure-function analysis of TRPV channels. Naunyn Schmiedebergs Arch Pharmacol, 371 (4), 285–294.
Niemeyer, B. A. & Schwarz, T. L. (2000). SNAP-24, a Drosophila SNAP-25 homologue on granule membranes, is a putative mediator of secretion and granule-granule fusion in salivary glands. J Cell Sci, 113 ( Pt 22), 4055–4064.
Peckys, D. B., Gaa, D., Alansary, D., Niemeyer, B. A. & Jonge, N. (2021). Supra-Molecular Assemblies of ORAI1 at Rest Precede Local Accumulation into Puncta after Activation. Int J Mol Sci, 22 (2).
Ramesh*, G., Jarzembowski*, L., Schwarz*, Y., Poth, V., Konrad, M., Knapp, M. L. et al. (2021). A short isoform of STIM1 confers frequency-dependent synaptic enhancement. Cell Reports, 34 (11), *equal contribution.
Schunk, S. J., Triem, S., Schmit, D., Zewinger, S., Sarakpi, T., Becker, E. et al. (2021). Interleukin-1α Is a Central Regulator of Leukocyte-Endothelial Adhesion in Myocardial Infarction and in Chronic Kidney Disease. Circulation, 144 (11), 893–908. http://doi.org/10.1161/CIRCULATIONAHA.121.053547
Merino-Wong, M., Niemeyer, B. A. & Alansary, D. (2021). Plasma Membrane Calcium ATPase Regulates Stoichiometry of CD4(+) T-Cell Compartments. Frontiers in immunology, 12, 687242–687242. http://doi.org/10.3389/fimmu.2021.687242
Schunk, S. J., Kleber, M. E., März, W., Pang, S., Zewinger, S., Triem, S. et al. (2021). Genetically determined NLRP3 inflammasome activation associates with systemic inflammation and cardiovascular mortality. Eur Heart J, 42 (18), 1742–1756.
Pick, T., Beck, A., Gamayun, I., Schwarz, Y., Schirra, C., Jung, M. et al. (2021). Remodelling of Ca(2+) homeostasis is linked to enlarged endoplasmic reticulum in secretory cells. Cell calcium, 99, 102473–102473. http://doi.org/10.1016/j.ceca.2021.102473
Knapp, M. L., Alansary, D., Poth, V., Förderer, K., Sommer, F., Zimmer, D. et al. (2021). A longer isoform of Stim1 is a negative SOCE regulator but increases cAMP-modulated NFAT signaling. EMBO reports, e53135–e53135. http://doi.org/10.15252/embr.202153135
Zewinger, S., Reiser, J., Jankowski, V., Alansary, D., Hahm, E., Triem, S. et al. (2020). Apolipoprotein C3 induces inflammation and organ damage by alternative inflammasome activation. Nat Immunol, 21 (1), 30–41.
Schmidt, B., Alansary, D., Bogeski, I., Niemeyer, B. A. & Rieger, H. (2019). Reaction-diffusion model for STIM-ORAI interaction: The role of ROS and mutations. J Theor Biol, 470, 64–75.
Diener, C., Hart, M., Alansary, D., Poth, V., Walch-Rückheim, B., Menegatti, J. et al. (2018). Modulation of intracellular calcium signaling by microRNA-34a-5p. Cell Death Dis, 9 (10), 1008–1008.
Zou, H., Yang, W., Schwär, G., Zhao, R., Alansary, D., Yin, D. et al. (2020). High glucose distinctively regulates Ca2+ influx in cytotoxic T lymphocytes upon target recognition and thapsigargin stimulation. Eur J Immunol, 50 (12), 2095–2098.
Alansary, D., Peckys, D. B., Niemeyer, B. A. & de Jonge, N. (2020). Detecting single ORAI1 proteins within the plasma membrane reveals higher-order channel complexes. J Cell Sci, 133 (1).
Alansary, D. & Niemeyer, B. A. (2019). Stepping out of the shadow: STIM2 promotes IL-3-induced cytokine release. Sci Signal, 12 (576).
Riva, B., Griglio, A., Serafini, M., Cordero-Sanchez, C., Aprile, S., Di Paola, R. et al. (2018). Pyrtriazoles, a Novel Class of Store-Operated Calcium Entry Modulators: Discovery, Biological Profiling, and in Vivo Proof-of-Concept Efficacy in Acute Pancreatitis. J Med Chem, 61 (21), 9756–9783.
Stieve, H., Niemeyer, B., Aktories, K. & Hamm, H. E. (1992). Disturbing GTP-binding protein function through microinjection into the visual cell of Limulus. Z Naturforsch C J Biosci, 47 (11–12), 915–921.
Niemeyer, B. A. (2020). TRICking SOCE into altered oscillations. Cell Calcium, 92, 102290–102290.
Grimm, M. O. W., Blümel, T., Lauer, A. A., Janitschke, D., Stahlmann, C., Mett, J. et al. (2020). The impact of capsaicinoids on APP processing in Alzheimer’s disease in SH-SY5Y cells. Sci Rep, 10 (1), 9164–9164.
Lang, I., Jung, M., Niemeyer, B. A., Ruth, P. & Engel, J. (2019). Expression of the LRRC52 γ subunit (γ2) may provide Ca2+-independent activation of BK currents in mouse inner hair cells. FASEB J, 33 (11), 11721–11734.
Zhang, X., Gibhardt, C. S., Will, T., Stanisz, H., Körbel, C., Mitkovski, M. et al. (2019). Redox signals at the ER-mitochondria interface control melanoma progression. EMBO J, 38 (15), e100871–e100871.
Bunse, L., Pusch, S., Bunse, T., Sahm, F., Sanghvi, K., Friedrich, M. et al. (2018). Suppression of antitumor T cell immunity by the oncometabolite (R)-2-hydroxyglutarate. Nat Med, 24 (8), 1192–1203.
Peckys, D. B., Alansary, D., Niemeyer, B. A. & de Jonge, N. (2016). Visualizing Quantum Dot Labeled ORAI1 Proteins in Intact Cells Via Correlative Light and Electron Microscopy. Microsc Microanal, 22 (4), 902–912.