Nathalie Lunau scite author profile

A reliable and high yielding synthetic pathway for the synthesis of the biologically highly important class of nucleoside diphosphate sugars (NDP-sugars) was developed by using various cycloSal-nucleotides 1 and 9 as active ester building blocks. The reaction with anomerically pure pyranosyl-1-phosphates 2 led to the target NDP-sugars 20-45 in a nucleophilic displacement reaction, which cleaves the cycloSal moiety in anomerically pure forms. As nucleosides cytidine, uridine, thymidine, adenosine, 2'-deoxy-guanosine and 2',3'-dideoxy-2',3'-didehydrothymidine were used while the phosphates of D-glucose, D-galactose, D-mannose, D-NAc-glucosamine, D-NAc-galactosamine, D-fucose, L-fucose as well as 6-deoxy-D-gulose were introduced.

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A new topical panthenol-containing emollient: Results from two randomized controlled studies assessing its skin moisturization and barrier restoration potential, and the effect on skin microflora

Stettler

Lunau³

et al. 2016

Journal of Dermatological Treatment

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(2017) A new topical panthenol-containing emollient: Results from two randomized controlled studies assessing its skin moisturization and barrier restoration potential, and the effect on skin microflora, Journal of Dermatological Treatment, 28:2, 173-180, DOI: 10.1080/09546634.2016 Purpose: Two randomized, intra-individual comparison studies were performed in healthy subjects to evaluate the skin moisturization and barrier restoration potential of a new topical panthenol-containing emollient (NTP-CE) (Study 1), and its effect on skin microflora (Study 2). Methods: In Study 1 (N ¼ 23), two skin areas, one challenged with 0.5% sodium dodecyl sulfate (SDS) solution and one unchallenged, were treated with NTP-CE for 3 weeks. Transepidermal water loss (TEWL), skin hydration, and intercellular lipid lamellae (ICLL) organization were measured at regular intervals during the study. In Study 2 (N ¼ 20), quantitative bacterial cultures were obtained over 6 h from a skin area undergoing wash stress with 10% SDS with subsequent single application of NTP-CE. Results: In Study 1, mean AUC for TEWL reduction from baseline was more pronounced with NTP-CE compared with control (À168.36 vs. À123.38 g/m 2 /h, p ¼ 0.023). NTP-CE use was also associated with statistically significant improvements in stratum corneum hydration and an increase in mean ICLL length from baseline (day 22: 120.61 vs. 35.85 nm/1000 nm 2 , p < 0.001). In Study 2, NTP-CE use had no negative impact on bacterial viability. Conclusions: NTP-CE use has favorable and lasting effects on barrier function and repair as well as skin hydration without negatively influencing bacterial viability. ARTICLE HISTORY

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A convenient synthesis of nucleoside diphosphate glycopyranoses and other polyphosphorylated bioconjugates

Wolf

Zismann

Lunau

et al. 2010

European Journal of Cell Biology

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Fluorescently Labeled Substrates for Monitoring α1,3‐Fucosyltransferase IX Activity

Lunau

Seelhorst

Kahl

et al. 2013

Chemistry A European J

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Fucosylation is often the final process in glycan biosynthesis. The resulting glycans are involved in a variety of biological processes, such as cell adhesion, inflammation, or tumor metastasis. Fucosyltransferases catalyze the transfer of fucose residues from the activated donor molecule GDP‐β‐L‐fucose to various acceptor molecules. However, detailed information about the reaction processes is still lacking for most fucosyltransferases. In this work we have monitored α1,3‐fucosyltransferase activity. For both donor and acceptor substrates, the introduction of a fluorescent ATTO dye was the last step in the synthesis. The subsequent conversion of these substrates into fluorescently labeled products by α1,3‐fucosyltransferases was examined by high‐performance thin‐layer chromatography coupled with mass spectrometry as well as dual‐color fluorescence cross‐correlation spectroscopy, which revealed that both fluorescently labeled donor GDP‐β‐L‐fucose‐ATTO 550 and acceptor N‐acetyllactosamine‐ATTO 647N were accepted by recombinant human fucosyltransferase IX and Helicobacter pylori α1,3‐fucosyltransferase, respectively. Analysis by fluorescence cross‐correlation spectroscopy allowed a quick and versatile estimation of the progress of the enzymatic reaction and therefore this method can be used as an alternative method for investigating fucosyltransferase reactions.

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Synthesis of L‐Altrose and Some Derivatives

Lunau

Meier

2012

Eur J Org Chem

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A convenient approach to the chemical synthesis of L‐altrose (1) and its 6‐deoxy derivative 2 has been developed by starting from D‐galactose (9) and D‐fucose (10), respectively. The 5‐epimerization by a Mitsunobu inversion of the open‐chain D‐hexoses was the key step for these routes. Furthermore, the conversion of 2 into peracetylated TDP‐6‐deoxy‐α‐L‐altrose (3a) was achieved by the cycloSal approach. However, the final deacetylation led to an unexpected side‐reaction resulting in the previously unknown 6‐deoxy‐α‐L‐altropyranose 1,3‐cyclophosphate (4).

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Nathalie Lunau

Reliable Synthesis of Various Nucleoside Diphosphate Glycopyranoses

A new topical panthenol-containing emollient: Results from two randomized controlled studies assessing its skin moisturization and barrier restoration potential, and the effect on skin microflora

A convenient synthesis of nucleoside diphosphate glycopyranoses and other polyphosphorylated bioconjugates

Fluorescently Labeled Substrates for Monitoring α1,3‐Fucosyltransferase IX Activity

Synthesis of L‐Altrose and Some Derivatives

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