Click Here for ISCCB-22, January 21-25, 2024 Ein Gedi Kibbutz Hotel, Dead Sea, Israel

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This was ISCCBB-21

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  • Home
  • Program & Abstracts
  • Young ISN Awardees
  • About ISCCB
  • Accommodation and Travel
  • Confirmed Speakers
  • Schedule of Events Part 1
  • Schedule of Events Part 2
  • Contact Us
  • ISCCB-21 Registration

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List of Speakers

in alphabetical order


  • Isaac Akefe, Univ. Queensland - QBI, Australia: Greasing the wheels of memory with myristic fatty acids
  • Wolfhard Almers, Oregon Health and Sciences Univ., USA: Syntaxin clusters and granules at the plasma membrane of cultured endocrine cells
  • Vikas Arige, Univ. Rochester NY, USA Functional Determination of Calcium binding sites required for the activation of inositol 1,4,5-trisphosphate receptors
  • Uri Ashery, Univ. Tel Aviv, Israel: Novel platform for detection of alpha-synuclein aggregation from skin biopsy using super-resolution microscopy
  • Bademosi, Adekunle, Queensland Brain Inst., Australia: Super-resolving the molecular machinery underpinning fusion pore formation
  • Ute Becherer, Univ. Saarland, Germany: CAPS1 and CAPS2 localization and function at dorsal ganglion root synapses
  • Ricardo Borges, Univ. La Laguna, Spain: A secretory vesicle failure in Parkinson’s disease occurs in human platelets
  • Axel Brunger, Stanford Univ., USA: Molecular mechanisms of calcium-triggered exocytosis
  • Jacqueline Burré, Weill Cornell Med. School, USA: Disease-causing mutations in Munc18-1 / STXBP1 impair neurotransmitter release at multiple levels
  • Valentina Carabelli, Univ Torino, Italy: Micro-graphite patterned diamond sensors to monitor midbrain neurons activity and its alteration by α-synuclein
  • Emilio Carbone, Univ Torino, Italy: Chromaffin cell firing viewed through MEAs: evidence for two distinct firing modes and well-resolved action potential-driven Na+, K+ and Ca2+ currents at the cell-microelectrode contact region
  • Sahar El Aidy, Univ. Groningen, The Netherlands: Catestatin plays crucial roles in regulating the. abundance of gut bacterial taxa with selective antimicrobial resistance
  • Andrew Ewing, University of Gothenburg, Sweden: Repetitive Stimulations, a new paradigm for understanding the role of partial exocytosis in plasticity
  • Manfred Frick, Univ. of Ulm, Germany: Exocytotic release of surfactant from the alveolar type II lung cells in health and disease
  • Borut Furlani, University of Ljubljana, Slovenia: Monitoring SARS-CoV-2 infection in human astrocytes
  • Antonio Garcia, Univ. Autónoma, Madrid, Spain: Altered exocytosis and mitochondrial function in chromaffin cells from the SOD1-G93A mouse model of amyotrophic lateral sclerosis
  • Kevin Gillis, Univ. Missouri, USA: Sensing catecholamines and using them as building blocks
  • Liangwei Gong, Univ. Illinois, USA: Roles of sphingosine kinase 1 in synaptic vesicle recycling
  • Luis  Gutiérrez, Univ. Alicante, Spain: The sphingosine analogue FTY-720 influences membrane fusion and cell survival in chromaffin cells
  • Raul Guzman, Forschungszentrum Jülich, Germany: CLC anion/proton exchangers regulate secretory vesicle filling and  granule exocytosis in chromaffin cells
  • Martin Heine, Johannes Gutenberg Univ. Mainz, Germany: Dynamic organization of voltage gated calcium channels in the presynaptic membrane
  • Ronald Holz, Univ. Michigan, Ann Arbor, USA: VAMP2 and synaptotagmin mobility in chromaffin granule membranes: implications for regulated exocytosis (abstract only)
  • Meyer Jackson, Univ. Wisconsin, USA: Rigid and flexible fusion pores of exocytosis
  • Reinhard Jahn, MPI Göttingen, Germany: Intermediate steps in SNARE-mediated membrane fusion
  • Jernej Jorgačevski , Univ. Ljubljana, Slovenia: Fusion pore stabilization by SNARE-interacting proteins and cholesterol in astrocytes and pituitary cells; relevance for lysosomal storage disease
  • Volker Kiessling, Univ. Virginia, USA: Fusion studies using supported membranes
  • Brian Kim, UCF Orlando, USA: 1024-ch Amperometric Microelectrode Array for Accelerated Quantal Analysis from Human Neuroblastoma and PC-12 Cells
  • Grant Kusick, Johns Hopkins Univ.  USA: Synaptotagmin 7 docks and Doc2α fuses synaptic vesicles during asynchronous neurotransmitter release and facilitation
  • Manfred Lindau, Univ. of Miami, FL, USA: A surprise from spatiotemporal analysis of simultaneous TIRF and electrochemical imaging of exocytic  events  in chromaffin cells
  • Nitish Mahapatra, IIT Madras, Chennai, India: Functional human variants of catestatin and pancreastatin peptides enhance cardiometabolic disease risk
  • Sushil Mahata, UC Sandiego, USA: Chromogranin A regulation of age-associated development of hypertension, diabetes, and dementia
  • Constanza Maldefassi, Univ. of Bern, Switzerland: Crosstalk between Pannexin1, P2X7 and α7 nicotinic acetylcholine receptors potentiate exocytosis
  • Fred Meunier, Queensland Brain Inst., Australia: Nano-biomolecular  condensates control the clustering of synaptic vesicles
  • Ira Milosevic, Univ. Oxford, UK: Regulation of timing and efficacy of neurotransmitter release by the core complex associated protein complexin
  • Elke Muntjewerff, Uppsala Univ., Sweden: The role of chromogranin A and catestatin in homeostasis and disease
  • Erwin Neher, MPI, Göttingen, Germany: Dynamic Priming in both Chromaffin cells and Synaptic Terminals
  • Yongsoo Park, Qatar Biomed. Res. Inst., Qatar: Requirement of cholesterol for calcium-dependent vesicle fusion by stabilizing synaptotagmin-1-induced membrane bending
  • Vladimir Parpura, Univ. Alabama, USA: Vesicle docking:  Mechanical interactions between SNARE proteins rvealed by atomic force  spectroscopy
  • Teresa Pasqua, Univ. Catanzaro, Italy: Novel insight on Chromogranin A cardiac mechanism of action: the role of Neuropilin-1
  • Jose Rizo-Rey, Univ. Texas Southwestern, Dallas, USA: Understanding neurotransmitter release in atomic detail  
  • Carmine Rocca, University of Calabria, Italy: A new predictive sensor for the doxorubicin-dependent cardiotoxicity: the paradigm of the cardioprotector chromogranin-A 
  • Christian Rosenmund, Charité, Berlin, Germany: Syntaxin-1A modulates vesicle fusion in mammalian neurons via juxtamembrane domain dependent palmiyoylation of its transmembarbe domain
  • Markus Sauer, Julius-Maximilians-Universität Würzburg, Germany:  Molecular resolution fluorescence imaging
  • Manu Sharma, Weill Cornell Med. School, USA: Lysosomal exocytosis releases pathogenic α-synuclein species from neuron
  • Ahmed Shabaan, Univ. of Copenhagen, Denmark: Dissecting the functional properties of serotonin release from "the other" chromaffin cells in the gut
  • Ali Shaib, University of Göttingen Medical Center, Göttingen, Germany: Optimized nanoscale expansion microscopy
  • Pradeep Singh, Rockefeller University, New York, USA: Vascular contribution in Alzheimer’s disease associated blood brain barrier damage, neuroinflammation and cognitive decline
  • Jakob Sørensen, Univ.  Copenhagen, Denmark: ubMunc13-2, synaptotagmin-7 and phorbolesters/diacylglycerol: a triad for dense-core vesicle priming 
  • Lukas Tamm, Univ. Virginia, USA:  Role of cholesterol in the tug of war between viral fusion proteins and cellular restriction factors in virus entry
  • Emeline Tanguy, INCI – CNRS, Strasbourg, France: The multiple function of different phosphatidic acid species along the different steps of neuroendocrine secretion
  • Justin Taraska, NIH, Bethesda,USA: Imaging the nanoscale structures of exocytosis and endocytosis with light and electron microscopy
  • Petronel Tuluc, University of Innsbruck, Austria: Loss of α2δ-1 calcium channel subunit function increases excitability and promotes burst firing in mouse chromaffin cells
  • Geert van den Bogaart, Univ. Groningen, Netherlands: Regulation of syntaxin-5 function by alternate sites of translation initiation
  • Matthijs Verhage, VU Amsterdam, Netherlands: Organizing release sites for secretory vesicle exocytosis in chromaffin cells and neuron
  • Julia von Blume, Yale Univ., USA:  Liquid-liquid phase separation facilitates the biogenesis of secretory storage granules 
  • Gary Whittaker, Cornell University USA: Activation of membrane fusion by the coronavirus spiike protein
  • Ling-Gang Wu, NIH Bethesda, USA: Visualizing membrane dynamics of exo- and endocytosis
  • Wei Ying, UC San Diego, USA: A CRIg+ macrophage-dependent defense against microbial extracellular vesicle-induced adrenomedullary dysfunctions 
  • Yongli Zhang, Yale Univ., USA: Energetics and kinetics of chaperoned SNARE assembly revealed by optical tweezers
  • Joshua Zimmerberg, NIH Bethesda, USA: Planar aggregation of the influenza viral fusion peptide alters membrane structure and hydration, promoting poration 
  • Robert Zorec, University of Ljubljana, Slovenia: Heterologous lysosomal fusion and the cell-based immunotherapy of prostate cancer

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