Klaus Lorenzoni scite author profile

Klaus Lorenzoni

2Publications

85Citation Statements Received

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Thirty-Eight C-Terminal Amino Acids of the Coupling Protein TraD of the F-Like Conjugative Resistance Plasmid R1 Are Required and Sufficient To Confer Binding to the Substrate Selector Protein TraM

Beranek

Zettl

Lorenzoni³

et al. 2004

J Bacteriol

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Coupling proteins (CPs) are present in type IV secretion systems of plant, animal, and human pathogens and are essential for DNA transfer in bacterial conjugation systems. CPs connect the DNA-processing machinery to the mating pair-forming transfer apparatus. In this report we present in vitro and in vivo data that demonstrate specific binding of CP TraD of the IncFII R1 plasmid transfer system to relaxosomal protein TraM. With overlay assays and enzyme-linked immunosorbent assays we showed that a truncated version of TraD, termed TraD11 (⌬N155), interacted strongly with TraM. The apparent TraD11-TraM association constant was determined to be 2.6 ؋ 10 7 liters/mol. Electrophoretic mobility shift assays showed that this variant of TraD also strongly bound to TraM when it was in complex with its target DNA. When 38 amino acids were additionally removed from the C terminus of TraD, no binding to TraM was observed. TraD15, comprising the 38 amino-acid-long C terminus of TraD, bound to TraM, indicating that the main TraM interaction domain resides in these 38 amino acids of TraD. TraD15 exerted a dominant negative effect on DNA transfer but not on phage infection by pilus-specific phage R17, indicating that TraM-TraD interaction is important for conjugative DNA transfer but not for phage infection. We also observed that TraD encoded by the closely related F factor bound to TraM encoded by the R1 plasmid. Our results thus provide evidence that substrate selection within the IncF plasmid group is based on TraM's capability to select the correct DNA molecule for transport and not on substrate selection by the CP.

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Comparison of Pharmacological Modulation of APP Metabolism in Primary Chicken Telencephalic Neurons and in a Human Neuroglioma Cell Line

Czvitkovich¹,

Duller²,

Mathiesen³

et al. 2010

J Mol Neurosci

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Sequential cleavage of amyloid precursor protein (APP) by β- and γ-secretases and the formation of Aβ peptides are pivotal for Alzheimer's disease. Therefore, a large number of drugs has been developed targeting APP metabolism. However, many pharmacological compounds have been identified in vitro in immortalized APP overexpressing cell lines rather than in primary neurons. Here, we compared the effect of already characterized secretase inhibitors and modulators on Aβ formation in primary chicken telencephalic neurons and in a human neuroglioma cell line (H4) ectopically expressing human APP with the Swedish double mutation. Primary chicken neurons replicated the effects of a β-secretase inhibitor (β-secretase inhibitor IV), two γ-secretase inhibitors (DAPM, DAPT), two non-steroidal-anti-inflammatory drugs (sulindac sulfide, CW), and of the calpain inhibitor calpeptin. With the exception of the two γ-secretase inhibitors, all tested compounds were more efficacious in primary chicken telencephalic neurons than in the immortalized H4 cell line. Moreover, H4 cells failed to reproduce the effect of calpeptin. Hence, primary chicken telencephalic neurons represent a suitable cell culture model for testing drugs interfering with APP processing and are overall more sensitive to pharmacological interference than immortalized H4 cells ectopically expressing mutant human APP.

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Klaus Lorenzoni

Thirty-Eight C-Terminal Amino Acids of the Coupling Protein TraD of the F-Like Conjugative Resistance Plasmid R1 Are Required and Sufficient To Confer Binding to the Substrate Selector Protein TraM

Comparison of Pharmacological Modulation of APP Metabolism in Primary Chicken Telencephalic Neurons and in a Human Neuroglioma Cell Line

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