Your search keyword '"Schorb, Martin"' showing total 3 results

1. Microtubule depolymerization contributes to spontaneous neurotransmitter release in vitro.

Author

Velasco, Cecilia D., Santarella-Mellwig, Rachel, Schorb, Martin, Gao, Li, Thorn-Seshold, Oliver, and Llobet, Artur

Subjects

SYNAPTIC vesicles, MICROTUBULES, NEURAL transmission, DEPOLYMERIZATION, NERVOUS system, CYTOSOL, ORGANELLES

Abstract

Microtubules are key to multiple neuronal functions involving the transport of organelles, however, their relationship to neurotransmitter release is still unresolved. Here, we show that microtubules present in the presynaptic compartment of cholinergic autaptic synapses are dynamic. To investigate how the balance between microtubule growth and shrinkage affects neurotransmission we induced synchronous microtubule depolymerization by photoactivation of the chemical inhibitor SBTub3. The consequence was an increase in spontaneous neurotransmitter release. An analogous effect was obtained by dialyzing the cytosol with Kif18A, a plus-end-directed kinesin with microtubule depolymerizing activity. Kif18A also inhibited the refilling of the readily releasable pool of synaptic vesicles during high frequency stimulation. The action of Kif18A was associated to one order of magnitude increases in the numbers of exo-endocytic pits and endosomes present in the presynaptic terminal. An enhancement of spontaneous neurotransmitter release was also observed when neurons were dialyzed with stathmin-1, a protein with a widespread presence in the nervous system that induces microtubule depolymerization. Taken together, these results support that microtubules restrict spontaneous neurotransmitter release as well as promote the replenishment of the readily releasable pool of synaptic vesicles. Microtubules restrict spontaneous neurotransmitter release and favour the replenishment of the readily releasable pool of synaptic vesicles in cholinergic autapses. [ABSTRACT FROM AUTHOR]

Published

2023

2. Ultrastructural Characterization of Zika Virus Replication Factories.

Author

Cortese, Mirko, Goellner, Sarah, Acosta, Eliana Gisela, Neufeldt, Christopher John, Oleksiuk, Olga, Lampe, Marko, Haselmann, Uta, Funaya, Charlotta, Schieber, Nicole, Ronchi, Paolo, Schorb, Martin, Pruunsild, Priit, Schwab, Yannick, Chatel-Chaix, Laurent, Ruggieri, Alessia, and Bartenschlager, Ralf

Abstract

Summary A global concern has emerged with the pandemic spread of Zika virus (ZIKV) infections that can cause severe neurological symptoms in adults and newborns. ZIKV is a positive-strand RNA virus replicating in virus-induced membranous replication factories (RFs). Here we used various imaging techniques to investigate the ultrastructural details of ZIKV RFs and their relationship with host cell organelles. Analyses of human hepatic cells and neural progenitor cells infected with ZIKV revealed endoplasmic reticulum (ER) membrane invaginations containing pore-like openings toward the cytosol, reminiscent to RFs in Dengue virus-infected cells. Both the MR766 African strain and the H/PF/2013 Asian strain, the latter linked to neurological diseases, induce RFs of similar architecture. Importantly, ZIKV infection causes a drastic reorganization of microtubules and intermediate filaments forming cage-like structures surrounding the viral RF. Consistently, ZIKV replication is suppressed by cytoskeleton-targeting drugs. Thus, ZIKV RFs are tightly linked to rearrangements of the host cell cytoskeleton. [ABSTRACT FROM AUTHOR]

Published

2017

3. Correlated fluorescence and 3D electron microscopy with high sensitivity and spatial precision.

Author

Kukulski, Wanda, Schorb, Martin, Welsch, Sonja, Picco, Andrea, Kaksonen, Marko, and Briggs, John A. G.

Subjects

*FLUORESCENCE microscopy, *ELECTRON microscopy, *PROTEINS, *MICROTUBULES, *ELECTRONS

Abstract

Correlative electron and fluorescence microscopy has the potential to elucidate the ultrastructural details of dynamic and rare cellular events, but has been limited by low precision and sensitivity. Here we present a method for direct mapping of signals originating from .20 fluorescent protein molecules to 3D electron tomograms with a precision of less than 100 nm. We demonstrate that this method can be used to identify individual We also apply the method to image microtubule end structures bound to mal3p in fission yeast, and demonstrate that growing microtubule plus-ends are flared in vivo. We localize Rvs167 to endocytic sites in budding yeast, and show that scission takes place halfway through a 10-s time period during which amphiphysins are bound to the vesicle neck. This new technique opens the door for direct correlation of fluorescence and electron microscopy to visualize cellular processes at the ultrastructural scale. HIV particles bound to mammalian cell surfaces. [ABSTRACT FROM AUTHOR]

Published

2011