Saskia Schröter scite author profile

The small open reading frame tcdE is located between the genes tcdA and tcdB which encode toxin A (TcdA) and B (TcdB), respectively, within the pathogenicity locus of Clostridium difficile. Sequence and structure similarities to bacteriophage-encoded holins have led to the assumption that TcdE mediates the release of the toxins from C. difficile into the extracellular environment. A TcdE-deficient C. difficile 630 strain was generated by insertional inactivation of the tcdE gene. Data revealed that TcdE does not regulate or affect growth or sporogenesis. TcdE-deficiency was accompanied by a moderately increased accumulation of TcdA and TcdB prior to sporulation in this microorganism. Interestingly, this observation did not correlate with a delayed or inhibited toxin release: inactivation of TcdE neither significantly altered kinetics of release nor the absolute level of secreted TcdA and TcdB, indicating that TcdE does not account for the pathogenicity of C. difficile strain 630. Furthermore, mass spectrometry analysis could not reveal differences in the secretome of wild type and TcdE-deficient C. difficile, indicating that TcdE did not function as a secretion system for protein release. TcdE was expressed as a 19 kDa protein in C. difficile, whereas TcdE expressed in Escherichia coli appeared as a 19 and 16 kDa protein. Expression of the short 16 kDa TcdE correlated with bacterial cell death. We conclude that TcdE does not exhibit pore-forming function in C. difficile since in these cells only the non-lytic full length 19 kDa protein is expressed.

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ER arrival sites for COPI vesicles localize to hotspots of membrane trafficking

Schröter

Beckmann

Schmitt

2016

The EMBO Journal

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COPI-coated vesicles mediate retrograde membrane traffic from the cis-Golgi to the endoplasmic reticulum (ER) in all eukaryotic cells. However, it is still unknown whether COPI vesicles fuse everywhere or at specific sites with the ER membrane. Taking advantage of the circumstance that the vesicles still carry their coat when they arrive at the ER, we have visualized active ER arrival sites (ERAS) by monitoring contact between COPI coat components and the ER-resident Dsl tethering complex using bimolecular fluorescence complementation (BiFC). ERAS form punctate structures near Golgi compartments, clearly distinct from ER exit sites. Furthermore, ERAS are highly polarized in an actin and myosin V-dependent manner and are localized near hotspots of plasma membrane expansion. Genetic experiments suggest that the COPI•Dsl BiFC complexes recapitulate the physiological interaction between COPI and the Dsl complex and that COPI vesicles are mistargeted in dsl1 mutants. We conclude that the Dsl complex functions in confining COPI vesicle fusion sites.

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Influence of cytokines on Dmt1 iron transporter and ferritin expression in insulin-secreting cells

Lortz

Schröter

Stückemann

et al. 2014

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Free intracellular ferrous iron (Fe 2C ) is essential for the generation of the extremely toxic hydroxyl radicals, which contribute to b-cell destruction by cytokines. Therefore the expression of the different divalent metal transporter 1 (Dmt1) isoforms and ferritin (Ft) subunits, responsible for iron import and chelation, was analyzed under pro-inflammatory conditions (IL1b alone or together with TNFaCIFNg). The Dmt1 isoforms (1A/1B and CIRE/ KIRE) and the total Dmt1 expression in insulin-producing cells (RINm5F and INS-1E), in primary rat islets and, for comparison, in the neuroendocrine PC12 cell line were quantified by qRT-PCR. In addition, the expression of the light (L-Ft) and heavy Ft (H-Ft) subunits and the mitochondrial Ft isoform (Mtft) in insulin-producing cells under control conditions and after cytokine treatment was estimated. The 1B isoform was the predominant Dmt1 mRNA in all insulin-producing cells, accounting for almost 100% of the 1A/1B isoform expression. For the IRE variants, CIRE expression was higher than KIRE expression. Pro-inflammatory cytokines accelerated the expression of Dmt1 isoforms significantly with an overall 2.5-to 3-fold increase in the total Dmt1 expression. In contrast, the expression of the iron-buffering ferritin subunits L-and H-Ft was unaffected by IL1b and only slightly induced by the cytokine mixture. Mtft expression was also not increased. Dmt1 expression was significantly elevated through pro-inflammatory cytokines, whereas Ft expression was marginally increased. This imbalance between the increased iron transport capacity and the almost unaffected iron storage capacity can foster cytokine-mediated formation of hydroxyl radicals and thus pro-inflammatory cytokine toxicity through elevated free iron concentrations.

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Coat/Tether Interactions—Exception or Rule?

Schröter

Beckmann

Schmitt

2016

Front. Cell Dev. Biol.

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Coat complexes are important for cargo selection and vesicle formation. Recent evidence suggests that they may also be involved in vesicle targeting. Tethering factors, which form an initial bridge between vesicles and the target membrane, may bind to coat complexes. In this review, we ask whether these coat/tether interactions share some common mechanisms, or whether they are special adaptations to the needs of very specific transport steps. We compare recent findings in two multisubunit tethering complexes, the Dsl1 complex and the HOPS complex, and put them into context with the TRAPP I complex as a prominent example for coat/tether interactions. We explore where coat/tether interactions are found, compare their function and structure, and comment on a possible evolution from a common ancestor of coats and tethers.

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Corrigendum: Coat/Tether Interactions-Exception or Rule?

Schröter

Beckmann

Schmitt

2016

Front. Cell Dev. Biol.

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