Your search keyword '"Linclau B"' showing total 106 results

1. Chemoenzymatic synthesis of 3-deoxy-3-fluoro-l-fucose and its enzymatic incorporation into glycoconjugates

Author

Valverde P, Vandeville JB, Hollingsworth K, Mattey A, Keenan T, Chidwick H, Ledru H, Huang K, Light M, Turner N, Jimenez-Barbero J, Galan MC, Fascione MA, Flitsch S, Turnbull WC, and Linclau B

Subjects

glycomimetics, fluorine, glycosyl transferase

Abstract

The first synthesis of 3-deoxy-3-fluoro-l-fucose is presented, which employs ad- tol-sugar translation strategy, and involves an enzymatic oxidation of 3-deoxy-3-fluoro-l-fucitol. Enzymatic activation (FKP) and glycosylation using ana-1,2 and ana-1,3 fucosyltransferase to obtain two fluorinated trisaccharides demonstrates its potential as a novel versatile chemical probe in glycobiology.

Published

2020

2. Fluorous triphasic reactions: Transportative deprotection of fluorous silyl ethers with concomitant purification

Author

Nakamura, Hiroyuki, Linclau, B, and Curran, DP

Subjects

Fluorocarbons, Acetonitriles, Silylation, Chemistry, General Chemistry, Biochemistry, Catalysis, Colloid and Surface Chemistry, Solubility, Concomitant, Organic chemistry, Organosilicon Compounds, Organic Chemicals, Ethers

Published

2001

3. Enantioselective Desymmetrization: Group-Selective Diels-Alder Reaction.

Author

Azzi, N., Griffen, E., Light, M., and Linclau, B.

Published

2007

4. The synthesis of CD - ring modified 1α,25-dihydroxy vitamin D analogues: Six-membered D-ring analogues II

Author

Linclau, B., De Clercq, P., Vandewalle, M., Bouillon, R., and Verstuyf, A.

Published

1997

5. ChemInform Abstract: The Synthesis of CD-Ring Modified 1α,25-Dihydroxy Vitamin D Analogues: Six-Membered D-Ring Analogues. Part 1.

Author

LINCLAU, B., DE CLERCQ, P., VANDEWALLE, M., BOUILLON, R., and VERSTUYF, A.

Published

1997

6. ChemInform Abstract: The Synthesis of CD-Ring Modified 1α,25-Dihydroxy Vitamin D Analogues: Six-Membered D-Ring Analogues. Part 2.

Author

LINCLAU, B., DE CLERCQ, P., VANDEWALLE, M., BOUILLON, R., and VERSTUYF, A.

Published

1997

7. ChemInform Abstract: The Synthesis of 10,19-Dihydro-10-methyl-1α,25-dihydroxyvitamin D3.

Author

LINCLAU, B. and VANDEWALLE, M.

Published

1996

8. In pursuit of larger lipophilicity enhancement: an investigation of sugar deoxychlorination.

Author

Van De Velde J, Calderón Rodríguez A, Wang Z, Wheatley DE, and Linclau B

Abstract

The excessive hydrophilicity of carbohydrates hampers their application in drug discovery. Deoxyfluorination is one of the strategies to increase sugar lipophilicity. However, lipophilicities of dideoxy-difluorinated monosaccharides are still well below the desired range for oral drug candidates. Here we investigate the power of deoxychlorination to increase sugar lipophilicities. A series of dideoxygenated chloro-fluorosugars was synthesized and for these substrates it was shown that deoxychlorination increased the log  P by an average of 1.37 log  P units, compared to 0.83 log  P units for analogous deoxyfluorination. This shows the potential of deoxychlorination of carbohydrates to increase lipophilicity while limiting the number of potentially important hydrogen bond donating groups to be sacrificed, and will be of interest for glycomimetic development.

Published

2025

9. De Novo Enantioselective Synthesis of Hexafluorinated d-Glucose.

Author

Depienne S, Fontenelle CQ, Light ME, Hecke KV, and Linclau B

Abstract

We report a de novo enantioselective synthesis of 2,3,4-trideoxy-2,2,3,3,4,4-hexafluoro-d- glycero -hexopyranose (hexafluorinated d-glucose), an iconic polar hydrophobic glycomimetic. The 12-step synthesis features robust and reproducible chemistry and was achieved by incorporating an asymmetric dihydroxylation step to install the stereogenic center with excellent enantioselectivity (95:5 er ). Virtual enantiopurity (>99.5% ee ) was further reached using a simple crystallization procedure and the absolute confirmation was ascertained by X-ray analysis. The synthetic route also allowed access to the novel hexafluorinated heptose derivative 2,3,4-trideoxy-2,2,3,3,4,4-hexafluoro-l- threo -heptopyranose.

Published

2024

10. Harnessing glycofluoroforms for impedimetric biosensing.

Author

Hewson AR, Lloyd-Laney HO, Keenan T, Richards SJ, Gibson MI, Linclau B, Signoret N, Fascione MA, and Parkin A

Abstract

Glycans play a major role in biological cell-cell recognition and signal transduction but have found limited application in biosensors due to glycan/lectin promiscuity; multiple proteins are capable of binding to the same native glycan. Here, site-specific fluorination is used to introduce protein-glycan selectivity, and this is coupled with an electrochemical detection method to generate a novel biosensor platform. 3F-lacto- N -biose glycofluoroform is installed onto polymer tethers, which are subsequently immobilised onto gold screen printed electrodes, providing a non-fouling surface. The impedance biosensing platform is shown to selectively bind cancer-associated galectin-3 compared to control glycans and proteins. To improve the analytical capability, Bayesian statistical analysis was deployed in the equivalent circuit fitting of electrochemical impedance spectroscopy data. It is shown that Markov Chain Monte Carlo (MCMC) analysis is a helpful method for visualising experimental irreproducibility, and we apply this as a quality control step., Competing Interests: The authors declare no competing financial interest., (This journal is © The Royal Society of Chemistry.)

Published

2024

11. Synthesis and screening of a library of Lewis x deoxyfluoro-analogues reveals differential recognition by glycan-binding partners.

Author

Hollingsworth K, Di Maio A, Richards SJ, Vendeville JB, Wheatley DE, Council CE, Keenan T, Ledru H, Chidwick H, Huang K, Parmeggiani F, Marchesi A, Chai W, McBerney R, Kamiński TP, Balmforth MR, Tamasanu A, Finnigan JD, Young C, Warriner SL, Webb ME, Fascione MA, Flitsch S, Galan MC, Feizi T, Gibson MI, Liu Y, Turnbull WB, and Linclau B

Subjects

Protein Binding, Binding Sites, Humans, Halogenation, Lewis X Antigen metabolism, Lewis X Antigen chemistry, Nanoparticles chemistry, Polysaccharides metabolism, Polysaccharides chemistry

Abstract

Glycan-mediated interactions play a crucial role in biology and medicine, influencing signalling, immune responses, and disease pathogenesis. However, the use of glycans in biosensing and diagnostics is limited by cross-reactivity, as certain glycan motifs can be recognised by multiple biologically distinct protein receptors. To address this specificity challenge, we report the enzymatic synthesis of a 150-member library of site-specifically fluorinated Lewis x analogues ('glycofluoroforms') using naturally occurring enzymes and fluorinated monosaccharides. Subsequent incorporation of a subset of these glycans into nanoparticles or a microarray revealed a striking spectrum of distinct binding intensities across different proteins that recognise Lewis x . Notably, we show that for two proteins with unique binding sites for Lewis x , glycofluoroforms exhibited enhanced binding to one protein, whilst reduced binding to the other, with selectivity governed by fluorination patterns. We finally showcase the potential diagnostic utility of this approach in glycofluoroform-mediated bacterial toxin detection by lateral flow., (© 2024. The Author(s).)

Published

2024

12. Conformational Analysis of 1,3-Difluorinated Alkanes.

Author

Poole WG, Peron F, Fox SJ, Wells N, Skylaris CK, Essex JW, Kuprov I, and Linclau B

Abstract

Fluorine substitution can have a profound impact on molecular conformation. Here, we present a detailed conformational analysis of how the 1,3-difluoropropylene motif (-CHF-CH 2 -CHF-) determines the conformational profiles of 1,3-difluoropropane, anti - and syn -2,4-difluoropentane, and anti - and syn -3,5-difluoroheptane. It is shown that the 1,3-difluoropropylene motif strongly influences alkane chain conformation, with a significant dependence on the polarity of the medium. The conformational effect of 1,3-fluorination is magnified upon chain extension, which contrasts with vicinal difluorination. Experimental evidence was obtained from NMR analysis, where polynomial complexity scaling simulation algorithms were necessary to enable J -coupling extraction from the strong second-order spectra, particularly for the large 16-spin systems of the difluorinated heptanes. These results improve our understanding of the conformational control toolkit for aliphatic chains, yield simple rules for conformation population analysis, and demonstrate quantum mechanical time-domain NMR simulations for liquid state systems with large numbers of strongly coupled spins.

Published

2024

13. Molecular dynamics and NMR reveal the coexistence of H-bond-assisted and through-space J FH coupling in fluorinated amino alcohols.

Author

Chiari C, Batista PR, Viesser RV, Schenberg LA, Ducati LC, Linclau B, and Tormena CF

Abstract

The J FH coupling constants in fluorinated amino alcohols were investigated through experimental and theoretical approaches. The experimental J FH couplings were only reproduced theoretically when explicit solvation through molecular dynamics (MD) simulations was conducted in DMSO as the solvent. The combination of MD conformation sampling and DFT NMR spin-spin coupling calculations for these compounds reveals the simultaneous presence of through-space (TS) and hydrogen bond (H-bond) assisted J FH coupling between fluorine and hydrogen of the NH group. Furthermore, MD simulations indicate that the hydrogen in the amino group participates in both an intermolecular bifurcated H-bond with DMSO and in transmitting the observed J FH coupling. The contribution of TS to the J FH coupling is due to the spatial proximity of the fluorine and the NH group, aided by a combination of the non-bonding transmission pathway and the hydrogen bonding pathway. The experimental J FH coupling observed for the molecules studied should be represented as 4TS/1h J FH coupling.

Published

2024

14. Novel chemotype NLRP3 inhibitors that target the CRID3-binding pocket with high potency.

Author

Vande Walle L, Said M, Paerewijck O, Bertoni A, Gattorno M, Linclau B, and Lamkanfi M

Subjects

Humans, Animals, Mice, Sulfonamides pharmacology, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Inflammasomes metabolism

Abstract

The NLRP3 inflammasome plays a central role in various human diseases. Despite significant interest, most clinical-grade NLRP3 inhibitors are derived from sulfonylurea inhibitor CRID3 (also called MCC950). Here, we describe a novel chemical class of NLRP3-inhibiting compounds (NIC) that exhibit potent and selective NLRP3 inflammasome inhibition in human monocytes and mouse macrophages. BRET assays demonstrate that they physically interact with NLRP3. Structural modeling further reveals they occupy the same binding site of CRID3 but in a critically different conformation. Furthermore, we show that NIC-11 and NIC-12 lack the off-target activity of CRID3 against the enzymatic activity of carbonic anhydrases I and II. NIC-12 selectively reduces circulating IL-1ß levels in the LPS-endotoxemia model in mice and inhibits NLRP3 inflammasome activation in CAPS patient monocytes and mouse macrophages with about tenfold increased potency compared with CRID3. Altogether, this study unveils a new chemical class of highly potent and selective NLRP3-targeted inhibitors with a well-defined molecular mechanism to complement existing CRID3-based NLRP3 inhibitors in pharmacological studies and serve as novel chemical leads for the development of NLRP3-targeted therapies., (© 2024 Vande Walle et al.)

Published

2024

15. Quantitative Analysis of 2D EXSY NMR Spectra of Strongly Coupled Spin Systems in Transmembrane Exchange.

Author

Shishmarev D, Fontenelle CQ, Linclau B, Kuprov I, and Kuchel PW

Subjects

Magnetic Resonance Spectroscopy methods, Molecular Conformation, Computer Simulation, Magnetic Resonance Imaging

Abstract

Solute translocation by membrane transport proteins is a vital biological process that can be tracked, on the sub-second timescale, using nuclear magnetic resonance (NMR). Fluorinated substrate analogues facilitate such studies because of high sensitivity of 19 F NMR and absence of background signals. Accurate extraction of translocation rate constants requires precise quantification of NMR signal intensities. This becomes complicated in the presence of J-couplings, cross-correlations, and nuclear Overhauser effects (NOE) that alter signal integrals through mechanisms unrelated to translocation. Geminal difluorinated motifs introduce strong and hard-to-quantify contributions from non-exchange effects, the nuanced nature of which makes them hard to integrate into data analysis methodologies. With analytical expressions not being available, numerical least squares fitting of theoretical models to 2D spectra emerges as the preferred quantification approach. For large spin systems with simultaneous coherent evolution, cross-relaxation, cross-correlation, conformational exchange, and membrane translocation between compartments with different viscosities, the only available simulation framework is Spinach. In this study, we demonstrate GLUT-1 dependent membrane transport of two model sugars featuring CF 2 and CF 2 CF 2 fluorination motifs, with precise determination of translocation rate constants enabled by numerical fitting of 2D EXSY spectra. For spin systems and kinetic networks of this complexity, this was not previously tractable., (© 2023 The Authors. ChemBioChem published by Wiley-VCH GmbH.)

Published

2024

16. Photoinduced Formation of Cubyl Aryl Thioethers and Synthesis of Monocubyl Analogue of Dapsone.

Author

Donnier-Valentin L, Kassamba S, Legros J, Fressigné C, Vuluga D, Brown RCD, Linclau B, and De Paolis M

Abstract

1,4-Disubstituted cubyl aryl thioethers were generated from the corresponding iodocubanes and aryl thiolates upon UV irradiation in dimethyl sulfoxide at room temperature. This simple procedure was found to be compatible with a variety of substituted aryl thiolates. This finding paved the way to a synthesis of the monocubyl analogue of dapsone, a key molecule in the treatment of leprosy, also known as Hansen's disease, and of acne.

Published

2023

17. Obtaining Pure 1 H NMR Spectra of Individual Pyranose and Furanose Anomers of Reducing Deoxyfluorinated Sugars.

Author

Poškaitė G, Wheatley DE, Wells N, Linclau B, and Sinnaeve D

Abstract

Due to tautomeric equilibria, NMR spectra of reducing sugars can be complex with many overlapping resonances. This hampers coupling constant determination, which is required for conformational analysis and configurational assignment of substituents. Given that mixtures of interconverting species are physically inseparable, easy-to-use techniques that enable facile full 1 H NMR characterization of sugars are of interest. Here, we show that individual spectra of both pyranoside and furanoside forms of reducing fluorosugars can be obtained using 1D FESTA. We discuss the unique opportunities offered by FESTA over standard sel-TOCSY and show how it allows a more complete characterization. We illustrate the power of FESTA by presenting the first full NMR characterization of many fluorosugars, including of the important fluorosugar 2-deoxy-2-fluoroglucose. We discuss in detail all practical considerations for setting up FESTA experiments for fluorosugars, which can be extended to any mixture of fluorine-containing species interconverting slowly on the NMR frequency-time scale.

Published

2023

18. Reverse thiophosphorylase activity of a glycoside phosphorylase in the synthesis of an unnatural Manβ1,4GlcNAc library.

Author

Keenan T, Hatton NE, Porter J, Vendeville JB, Wheatley DE, Ghirardello M, Wahart AJC, Ahmadipour S, Walton J, Galan MC, Linclau B, Miller GJ, and Fascione MA

Abstract

β-Mannosides are ubiquitous in nature, with diverse roles in many biological processes. Notably, Manβ1,4GlcNAc a constituent of the core N -glycan in eukaryotes was recently identified as an immune activator, highlighting its potential for use in immunotherapy. Despite their biological significance, the synthesis of β-mannosidic linkages remains one of the major challenges in glycoscience. Here we present a chemoenzymatic strategy that affords a series of novel unnatural Manβ1,4GlcNAc analogues using the β-1,4-d-mannosyl- N -acetyl-d-glucosamine phosphorylase, BT1033. We show that the presence of fluorine in the GlcNAc acceptor facilitates the formation of longer β-mannan-like glycans. We also pioneer a "reverse thiophosphorylase" enzymatic activity, favouring the synthesis of longer glycans by catalysing the formation of a phosphorolysis-stable thioglycoside linkage, an approach that may be generally applicable to other phosphorylases., Competing Interests: The authors declare no competing financial interest., (This journal is © The Royal Society of Chemistry.)

Published

2023

19. Glycosylation of vicinal di- and trifluorinated glucose and galactose donors.

Author

Huonnic K and Linclau B

Abstract

The acid-catalysed formation of glycosidic bonds is more difficult when glycosyl donors are fluorinated, especially at the 2-position. Here we report high-yielding glycosidation and glycosylation reactions of 2,3-difluorinated- and 2,3,4-trifluorinated gluco- and galactopyranoside donors with a variety of acceptors under conventional trichloroacetimidate/TMSOTf activation in moderate to high anomeric selectivities. This methodology allows access to highly fluorinated glycans, illustrated with the synthesis of a pentafluorinated disaccharide.

Published

2023

20. Lipophilicity Modulations by Fluorination Correlate with Membrane Partitioning.

Author

Wang Z, Felstead HR, Troup RI, Linclau B, and Williamson PTF

Subjects

Octanols chemistry, Halogenation, Water chemistry

Abstract

Bioactive compounds generally need to cross membranes to arrive at their site of action. The octanol-water partition coefficient (lipophilicity, logP OW ) has proven to be an excellent proxy for membrane permeability. In modern drug discovery, logP OW and bioactivity are optimized simultaneously, for which fluorination is one of the relevant strategies. The question arises as to which extent the often subtle logP modifications resulting from different aliphatic fluorine-motif introductions also lead to concomitant membrane permeability changes, given the difference in molecular environment between octanol and (anisotropic) membranes. It was found that for a given compound class, there is excellent correlation between logP OW values with the corresponding membrane molar partitioning coefficients (logK p ); a study enabled by novel solid-state 19 F NMR MAS methodology using lipid vesicles. Our results show that the factors that cause modulation of octanol-water partition coefficients similarly affect membrane permeability., (© 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2023

21. The Synthesis and Glycoside Formation of Polyfluorinated Carbohydrates.

Author

Huonnic K and Linclau B

Subjects

Hexoses, Pentoses, Monosaccharides, Nucleosides, Sialic Acids, Carbon, Fluorine, Carbohydrates

Abstract

Fluorinated carbohydrates have found many applications in the glycosciences. Typically, these contain fluorination at a single position. There are not many applications involving polyfluorinated carbohydrates, here defined as monosaccharides in which more than one carbon has at least one fluorine substituent directly attached to it, with the notable exception of their use as mechanism-based inhibitors. The increasing attention to carbohydrate physical properties, especially around lipophilicity, has resulted in a surge of interest for this class of compounds. This review covers the considerable body of work toward the synthesis of polyfluorinated hexoses, pentoses, ketosugars, and aminosugars including sialic acids and nucleosides. An overview of the current state of the art of their glycosidation is also provided.

Published

2022

22. Relating Conformational Equilibria to Conformer-Specific Lipophilicities: New Opportunities in Drug Discovery.

Author

Linclau B, Wang Z, Jeffries B, Graton J, Carbajo RJ, Sinnaeve D, Le Questel JY, Scott JS, and Chiarparin E

Subjects

Hydrophobic and Hydrophilic Interactions, Octanols chemistry, Water chemistry, Drug Discovery, Pharmaceutical Preparations chemistry

Abstract

Efficient drug discovery is based on a concerted effort in optimizing bioactivity and compound properties such as lipophilicity, and is guided by efficiency metrics that reflect both aspects. While conformation-activity relationships and ligand conformational control are known strategies to improve bioactivity, the use of conformer-specific lipophilicities (logp) is much less explored. Here we show how conformer-specific logp values can be obtained from knowledge of the macroscopic logP value, and of the equilibrium constants between the individual species in water and in octanol. This is illustrated with fluorinated amide rotamers, with integration of rotamer 19 F NMR signals as a facile, direct method to obtain logp values. The difference between logp and logP optimization is highlighted, giving rise to a novel avenue for lipophilicity control in drug discovery., (© 2021 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2022

23. Fluorine NMR study of proline-rich sequences using fluoroprolines.

Author

Sinnaeve D, Ben Bouzayene A, Ottoy E, Hofman GJ, Erdmann E, Linclau B, Kuprov I, Martins JC, Torbeev V, and Kieffer B

Abstract

Proline homopolymer motifs are found in many proteins; their peculiar conformational and dynamic properties are often directly involved in those proteins' functions. However, the dynamics of proline homopolymers is hard to study by NMR due to a lack of amide protons and small chemical shift dispersion. Exploiting the spectroscopic properties of fluorinated prolines opens interesting perspectives to address these issues. Fluorinated prolines are already widely used in protein structure engineering - they introduce conformational and dynamical biases - but their use as 19 F NMR reporters of proline conformation has not yet been explored. In this work, we look at model peptides where C γ -fluorinated prolines with opposite configurations of the chiral C γ centre have been introduced at two positions in distinct polyproline segments. By looking at the effects of swapping these (4 R )-fluoroproline and (4 S )-fluoroproline within the polyproline segments, we were able to separate the intrinsic conformational properties of the polyproline sequence from the conformational alterations instilled by fluorination. We assess the fluoroproline 19 F relaxation properties, and we exploit the latter in elucidating binding kinetics to the SH3 (Src homology 3) domain., Competing Interests: The contact author has declared that neither they nor their co-authors have any competing interests., (Copyright: © 2021 Davy Sinnaeve et al.)

Published

2021

24. Synthesis of Ortho -Functionalized 1,4-Cubanedicarboxylate Derivatives through Photochemical Chlorocarbonylation.

Author

Collin DE, Kovacic K, Light ME, and Linclau B

Abstract

The cubane ring has received intense attention as a 3D benzene isostere and scaffold. Mono- and 1,4-disubstituted cubanes are well-described. Here we report a practical procedure for a direct radical-mediated chlorocarbonylation process initially reported by Bashir-Hashemi, to access a range of 2-substituted 1,4-cubanedicarboxylic ester derivatives. A subsequent regioselective ester hydrolysis to give fully differentiated 1,2,4-trisubstituted cubanes is demonstrated.

Published

2021

25. Synthesis and Structural Characteristics of all Mono- and Difluorinated 4,6-Dideoxy-d- xylo -hexopyranoses.

Author

Wheatley DE, Fontenelle CQ, Kuppala R, Szpera R, Briggs EL, Vendeville JB, Wells NJ, Light ME, and Linclau B

Subjects

Carbohydrates, Humans, Stereoisomerism, Fluorine, Halogenation

Abstract

Protein-carbohydrate interactions are implicated in many biochemical/biological processes that are fundamental to life and to human health. Fluorinated carbohydrate analogues play an important role in the study of these interactions and find application as probes in chemical biology and as drugs/diagnostics in medicine. The availability and/or efficient synthesis of a wide variety of fluorinated carbohydrates is thus of great interest. Here, we report a detailed study on the synthesis of monosaccharides in which the hydroxy groups at their 4- and 6-positions are replaced by all possible mono- and difluorinated motifs. Minimization of protecting group use was a key aim. It was found that introducing electronegative substituents, either as protecting groups or as deoxygenation intermediates, was generally beneficial for increasing deoxyfluorination yields. A detailed structural study of this set of analogues demonstrated that dideoxygenation/fluorination at the 4,6-positions caused very little distortion both in the solid state and in aqueous solution. Unexpected trends in α/β anomeric ratios were identified. Increasing fluorine content always increased the α/β ratio, with very little difference between regio- or stereoisomers, except when 4,6-difluorinated.

Published

2021

26. Rapid Screening of Diverse Biotransformations for Enzyme Evolution.

Author

Kempa EE, Galman JL, Parmeggiani F, Marshall JR, Malassis J, Fontenelle CQ, Vendeville JB, Linclau B, Charnock SJ, Flitsch SL, Turner NJ, and Barran PE

Abstract

The lack of label-free high-throughput screening technologies presents a major bottleneck in the identification of active and selective biocatalysts, with the number of variants often exceeding the capacity of traditional analytical platforms to assess their activity in a practical time scale. Here, we show the application of direct infusion of biotransformations to the mass spectrometer (DiBT-MS) screening to a variety of enzymes, in different formats, achieving sample throughputs equivalent to ∼40 s per sample. The heat map output allows rapid selection of active enzymes within 96-well plates facilitating identification of industrially relevant biocatalysts. This DiBT-MS screening workflow has been applied to the directed evolution of a phenylalanine ammonia lyase (PAL) as a case study, enhancing its activity toward electron-rich cinnamic acid derivatives which are relevant to lignocellulosic biomass degradation. Additional benefits of the screening platform include the discovery of biocatalysts (kinases, imine reductases) with novel activities and the incorporation of ion mobility technology for the identification of product hits with increased confidence., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

27. Skipped Fluorination Motifs: Synthesis of Building Blocks and Comparison of Lipophilicity Trends with Vicinal and Isolated Fluorination Motifs.

Author

Troup RI, Jeffries B, Saudain RE, Georgiou E, Fish J, Scott JS, Chiarparin E, Fallan C, and Linclau B

Subjects

Water, Fluorine, Halogenation

Abstract

Given there is an optimal lipophilicity range for orally bioavailable drugs, structural modifications applied in the drug development process are not only focused on optimizing bioactivity but also on fine-tuning lipophilicity. Fluorine introduction can be used for both purposes. Insights into how fluorine introduction affects lipophilicity are thus of importance, and systematic series of fluorinated compounds with measured octanol-water partition coefficients are a powerful way to enhance our qualitative understanding in this regard and are essential as input for computational log  P estimation programs. Here, we report a detailed comparison of all possible vicinal and skipped (1,3-substituted) fluorination motifs when embedded in structurally equivalent environments (X- CF n H 2- n - CF m H 2- m -X versus X- CF n H 2- n -CH 2 - CF m H 2- m -X, with n,m ≠ 0 and X = CH 2 OH) to compounds with isolated fluorination ( n ≠ 0; m = 0, and including X-CH 2 - CF n H 2- n -CH 2 -X, n = 0-2). It is shown that skipped fluorination is more powerful for log  P reduction purposes compared to single or vicinal fluorination. Efficient stereoselective syntheses of the compounds with skipped fluorination motifs are reported, which where relevant can be made enantioselective using known chiral building blocks. These compounds, and some intermediates, will be of interest as advanced fluorinated building blocks.

Published

2021

28. Introducing affinity and selectivity into galectin-targeting nanoparticles with fluorinated glycan ligands.

Author

Richards SJ, Keenan T, Vendeville JB, Wheatley DE, Chidwick H, Budhadev D, Council CE, Webster CS, Ledru H, Baker AN, Walker M, Galan MC, Linclau B, Fascione MA, and Gibson MI

Abstract

Galectins are potential biomarkers and therapeutic targets. However, galectins display broad affinity towards β-galactosides meaning glycan-based (nano)biosensors lack the required selectivity and affinity. Using a polymer-stabilized nanoparticle biosensing platform, we herein demonstrate that the specificity of immobilised lacto- N -biose towards galectins can be 'turned on/off' by using site-specific glycan fluorination and in some cases reversal of specificity can be achieved. The panel of fluoro-glycans were obtained by a chemoenzymatic approach, exploiting BiGalK and BiGalHexNAcP enzymes from Bifidobacterium infantis which are shown to tolerate fluorinated glycans, introducing structural diversity which would be very laborious by chemical methods alone. These results demonstrate that integrating non-natural, fluorinated glycans into nanomaterials can encode unprecedented selectivity with potential applications in biosensing., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2020

29. Profiling Substrate Promiscuity of Wild-Type Sugar Kinases for Multi-fluorinated Monosaccharides.

Author

Keenan T, Parmeggiani F, Malassis J, Fontenelle CQ, Vendeville JB, Offen W, Both P, Huang K, Marchesi A, Heyam A, Young C, Charnock SJ, Davies GJ, Linclau B, Flitsch SL, and Fascione MA

Subjects

Biocatalysis, Catalytic Domain, Galactokinase chemistry, Halogenation, Kinetics, Magnetic Resonance Spectroscopy, Monosaccharides chemistry, Phosphorylation, Phosphotransferases chemistry, Substrate Specificity, Fluorine chemistry, Galactokinase metabolism, Monosaccharides metabolism, Phosphotransferases metabolism

Abstract

Fluorinated sugar-1-phosphates are of emerging importance as intermediates in the chemical and biocatalytic synthesis of modified oligosaccharides, as well as probes for chemical biology. Here we present a systematic study of the activity of a wide range of anomeric sugar kinases (galacto- and N-acetylhexosamine kinases) against a panel of fluorinated monosaccharides, leading to the first examples of polyfluorinated substrates accepted by this class of enzymes. We have discovered four new N-acetylhexosamine kinases with a different substrate scope, thus expanding the number of homologs available in this subclass of kinases. Lastly, we have solved the crystal structure of a galactokinase in complex with 2-deoxy-2-fluorogalactose, giving insight into changes in the active site that may account for the specificity of the enzyme toward certain substrate analogs., Competing Interests: Declaration of Interests The authors declare no competing financial interests. Prozomix is a commercial enzyme producer., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

30. Lipophilicity trends upon fluorination of isopropyl, cyclopropyl and 3-oxetanyl groups.

Author

Jeffries B, Wang Z, Troup RI, Goupille A, Le Questel JY, Fallan C, Scott JS, Chiarparin E, Graton J, and Linclau B

Abstract

A systematic comparison of lipophilicity modulations upon fluorination of isopropyl, cyclopropyl and 3-oxetanyl substituents, at a single carbon atom, is provided using directly comparable, and easily accessible model compounds. In addition, comparison with relevant linear chain derivatives is provided, as well as lipophilicity changes occurring upon chain extension of acyclic precursors to give cyclopropyl containing compounds. For the compounds investigated, fluorination of the isopropyl substituent led to larger lipophilicity modulation compared to fluorination of the cyclopropyl substituent., (Copyright © 2020, Jeffries et al.; licensee Beilstein-Institut.)

Published

2020

31. Fluorinated carbohydrates as chemical probes for molecular recognition studies. Current status and perspectives.

Author

Linclau B, Ardá A, Reichardt NC, Sollogoub M, Unione L, Vincent SP, and Jiménez-Barbero J

Subjects

Animals, Enzyme Inhibitors chemistry, Enzyme Inhibitors metabolism, Glycosides chemistry, Halogenation, Humans, Neoplasms diagnostic imaging, Positron-Emission Tomography, Vaccines, Synthetic chemistry, Vaccines, Synthetic immunology, Carbohydrates chemistry, Molecular Probes chemistry

Abstract

This review provides an extensive summary of the effects of carbohydrate fluorination with regard to changes in physical, chemical and biological properties with respect to regular saccharides. The specific structural, conformational, stability, reactivity and interaction features of fluorinated sugars are described, as well as their applications as probes and in chemical biology.

Published

2020

32. Enzymatic glycosylation involving fluorinated carbohydrates.

Author

Council CE, Kilpin KJ, Gusthart JS, Allman SA, Linclau B, and Lee SS

Subjects

Glycoside Hydrolases chemistry, Glycosylation, Glycosyltransferases chemistry, Halogenation, Nucleotidyltransferases chemistry, Phosphorylases chemistry, Phosphotransferases chemistry, Carbohydrates chemistry, Glycoside Hydrolases metabolism, Glycosyltransferases metabolism, Nucleotidyltransferases metabolism, Phosphorylases metabolism, Phosphotransferases metabolism

Abstract

Fluorinated carbohydrates, where one (or more) fluorine atom(s) have been introduced into a carbohydrate structure, typically through deoxyfluorination chemistry, have a wide range of applications in the glycosciences. Fluorinated derivatives of galactose, glucose, N-acetylgalactosamine, N-acetylglucosamine, talose, fucose and sialic acid have been employed as either donor or acceptor substrates in glycosylation reactions. Fluorinated donors can be synthesised by synthetic methods or produced enzymatically from chemically fluorinated sugars. The latter process is mediated by enzymes such as kinases, phosphorylases and nucleotidyltransferases. Fluorinated donors produced by either method can subsequently be used in glycosylation reactions mediated by glycosyltransferases, or phosphorylases yielding fluorinated oligosaccharide or glycoconjugate products. Fluorinated acceptor substrates are typically synthesised chemically. Glycosyltransferases are most commonly used in conjunction with natural donors to further elaborate fluorinated acceptor substrates. Glycoside hydrolases are used with either fluorinated donors or acceptors. The activity of enzymes towards fluorinated sugars is often lower than towards the natural sugar substrates irrespective of donor or acceptor. This may be in part attributed to elimination of the contribution of the hydroxyl group to the binding of the substrate to enzymes. However, in many cases, enzymes still maintain a significant activity, and reactions may be optimised where necessary, enabling enzymes to be used more successfully in the production of fluorinated carbohydrates. This review describes the current state of the art regarding chemoenzymatic production of fluorinated carbohydrates, focusing specifically on examples of the enzymatic production of activated fluorinated donors and enzymatic glycosylation involving fluorinated sugars as either glycosyl donors or acceptors.

Published

2020

33. Systematic Investigation of Lipophilicity Modulation by Aliphatic Fluorination Motifs.

Author

Jeffries B, Wang Z, Felstead HR, Le Questel JY, Scott JS, Chiarparin E, Graton J, and Linclau B

Subjects

1-Butanol chemistry, Halogenation, Molecular Conformation, Pentanols chemistry, Hydrocarbons, Fluorinated chemistry, Hydrophobic and Hydrophilic Interactions

Abstract

Optimization of compound lipophilicity is a key aspect of drug discovery. The aim of this work was to compare the lipophilicity modulations induced by 16 distinct known and novel fluoroalkyl motifs on three parent models. Fifty fluorinated compounds, with 28 novel experimental aliphatic log  P values, are involved in discussing various lipophilicity trends. As well as confirming known trends, a number of novel lipophilicity-reducing motifs are introduced. Tactics to reduce lipophilicity are discussed, such as "motif extensions" and "motif rearrangements", including with concomitant extension of the carbon chain, as well as one- and two-fluorine 'deletions' within perfluoroalkyl groups. Quantum chemical log  P calculations (SMD-MN15) based on solvent-dependent three-dimensional (3D) conformational analysis gave excellent correlations with experimental values, superior to C log  P predictions based on 2D structural motifs. The availability of a systematic collection of data based on a small number of parent molecules illustrates the relative lipophilicity modulations of aliphatic fluorination motifs.

Published

2020

34. Exploring anomeric glycosylation of phosphoric acid: Optimisation and scope for non-native substrates.

Author

Beswick L, Ahmadipour S, Hofman GJ, Wootton H, Dimitriou E, Reynisson J, Field RA, Linclau B, and Miller GJ

Subjects

Glycosylation, Molecular Conformation, Molecular Structure, Stereoisomerism, Vacuum, Phosphoric Acids chemistry

Abstract

Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published

2020

35. Cubane Electrochemistry: Direct Conversion of Cubane Carboxylic Acids to Alkoxy Cubanes Using the Hofer-Moest Reaction under Flow Conditions.

Author

Collin DE, Folgueiras-Amador AA, Pletcher D, Light ME, Linclau B, and Brown RCD

Abstract

The highly strained cubane system is of great interest as a scaffold and rigid linker in both pharmaceutical and materials chemistry. The first electrochemical functionalisation of cubane by oxidative decarboxylative ether formation (Hofer-Moest reaction) was demonstrated. The mild conditions are compatible with the presence of other oxidisable functional groups, and the use of flow electrochemical conditions allows straightforward upscaling., (© 2019 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2020

36. 3,4-Dideoxy-3,3,4,4-tetrafluoro- and 4-OH epimeric 3-deoxy-3,3-difluoro-α-GalCer analogues: Synthesis and biological evaluation on human iNKT cells stimulation.

Author

Golten S, Patinec A, Akoumany K, Rocher J, Graton J, Jacquemin D, Le Questel JY, Tessier A, Lebreton J, Blot V, Pipelier M, Douillard JY, Le Pendu J, Linclau B, and Dubreuil D

Subjects

Antigens, CD1d chemistry, Galactosylceramides chemical synthesis, Galactosylceramides chemistry, Galactosylceramides metabolism, HeLa Cells, Humans, Hydrogen Bonding, Interferon-gamma metabolism, Interleukin-13 metabolism, Models, Molecular, Molecular Conformation, Protein Binding, Receptors, Antigen, T-Cell chemistry, Stereoisomerism, Antigens, CD1d metabolism, Galactosylceramides pharmacology, Natural Killer T-Cells drug effects, Receptors, Antigen, T-Cell metabolism

Abstract

iNKT cells recognize CD1d/α-galactosylceramide (α-GalCer) complexes via their invariant TCR receptor and stimulate the immune response. Many α-GalCer analogues have been investigated to interrogate this interaction. Following our previous work related to the modification of the hydrogen bond network between α-GalCer and CD1d, we have now focused our attention on the synthesis of 3-deoxy-3,3-difluoro- and 3,4-dideoxy-3,3,4,4-tetrafluoro-α-GalCer analogues, and studied their ability to stimulate human iNKT cells. In each case, deoxygenation at the indicated positions was accompanied by difluoro introduction in order to evaluate the resulting electronic effect on the stability of the ternary CD1d/Galcer/TCR complex which has been rationalized by modeling study. With deoxy-difluorination at the 3-position, the two epimeric 4-OH analogues were investigated to establish their capacity to compensate for the lack of the hydrogen bond donating group at the 3-position. The 3,4-dideoxytetrafluoro analogue was of interest to highlight the amide NH-bond hydrogen bond properties., (Copyright © 2019 Elsevier Masson SAS. All rights reserved.)

Published

2019

37. Molecular Insights into DC-SIGN Binding to Self-Antigens: The Interaction with the Blood Group A/B Antigens.

Author

Valverde P, Delgado S, Martínez JD, Vendeville JB, Malassis J, Linclau B, Reichardt NC, Cañada FJ, Jiménez-Barbero J, and Ardá A

Subjects

ABO Blood-Group System chemistry, Autoantigens chemistry, Binding Sites, Cell Adhesion Molecules chemistry, Fucose chemistry, Fucose metabolism, Humans, Lectins, C-Type chemistry, Molecular Docking Simulation, Protein Binding, Receptors, Cell Surface chemistry, ABO Blood-Group System metabolism, Autoantigens metabolism, Cell Adhesion Molecules metabolism, Lectins, C-Type metabolism, Receptors, Cell Surface metabolism

Abstract

The dendritic cell-specific intracellular adhesion molecule-3-grabbing nonintegrin (DC-SIGN) is an important receptor of the immune system. Besides its role as pathogen recognition receptor (PRR), it also interacts with endogenous glycoproteins through the specific recognition of self-glycan epitopes, like Le X . However, this lectin represents a paradigmatic case of glycan binding promiscuity, and it also has been shown to recognize antigens with α1-α2 linked fucose, such as the histo blood group antigens, with similar affinities to Le X . Herein, we have studied the interaction in solution between DC-SIGN and the blood group A and B antigens, to get insights into the atomic details of such interaction. With a combination of different NMR experiments, we demonstrate that the Fuc coordinates the primary Ca 2+ ion with a single binding mode through 3-OH and 4-OH. The terminal αGal/αGalNAc affords marginal direct polar contacts with the protein, but provides a hydrophobic hook in which V351 of the lectin perfectly fits. Moreover, we have found that αGal, but not αGalNAc, is a weak binder itself for DC-SIGN, which could endow an additional binding mode for the blood group B antigen, but not for blood group A.

Published

2019

38. Unraveling Sugar Binding Modes to DC-SIGN by Employing Fluorinated Carbohydrates.

Author

Martínez JD, Valverde P, Delgado S, Romanò C, Linclau B, Reichardt NC, Oscarson S, Ardá A, Jiménez-Barbero J, and Cañada FJ

Subjects

Cell Adhesion Molecules metabolism, Halogenation, Lectins, C-Type metabolism, Models, Molecular, Molecular Conformation, Nuclear Magnetic Resonance, Biomolecular, Protein Binding, Receptors, Cell Surface metabolism, Structure-Activity Relationship, Sugars metabolism, Cell Adhesion Molecules chemistry, Lectins, C-Type chemistry, Receptors, Cell Surface chemistry, Sugars chemistry

Abstract

A fluorine nuclear magnetic resonance ( 19 F-NMR)-based method is employed to assess the binding preferences and interaction details of a library of synthetic fluorinated monosaccharides towards dendritic cell-specific intercellular adhesion molecule 3-grabbing non-integrin (DC-SIGN), a lectin of biomedical interest, which is involved in different viral infections, including HIV and Ebola, and is able to recognize a variety of self- and non-self-glycans. The strategy employed allows not only screening of a mixture of compounds, but also obtaining valuable information on the specific sugar-protein interactions. The analysis of the data demonstrates that monosaccharides Fuc, Man, Glc, and Gal are able to bind DC-SIGN, although with decreasing affinity. Moreover, a new binding mode between Man moieties and DC-SIGN, which might have biological implications, is also detected for the first time. The combination of the 19 F with standard proton saturation transfer difference ( 1 H-STD-NMR) data, assisted by molecular dynamics (MD) simulations, permits us to successfully define this new binding epitope, where Man coordinates a Ca 2+ ion of the lectin carbohydrate recognition domain (CRD) through the axial OH-2 and equatorial OH-3 groups, thus mimicking the Fuc/DC-SIGN binding architecture.

Published

2019

39. Synthesis of vicinal dideoxy-difluorinated galactoses.

Author

Malassis J, Vendeville JB, Nguyen QH, Boujon M, Gaignard-Gaillard Q, Light M, and Linclau B

Abstract

Fluorinated carbohydrates have been employed as probes for fundamental studies of protein-carbohydrate interactions, but also in the development of mechanism-based enzyme inhibitors. There is a continuing demand for novel fluorinated carbohydrate probes. Whereas most examples so far involved monodeoxyfluorinated sugars, multiply deoxyfluorinated sugars have gained much interest. Here we report the synthesis and characterisation of novel vicinal dideoxy-difluorinated d-galactoses with fluorination at the 3,4-positions, and at the 2,3-positions, the latter in both the pyranose and furanose forms. This includes a successful pyranose-into-furanose isomerisation protocol.

Published

2019

40. Synthesis of 2,3,4-Trideoxy-2,3,4-trifluoroglucose.

Author

Quiquempoix L, Wang Z, Graton J, Latchem PG, Light M, Le Questel JY, and Linclau B

Abstract

There is an increasing interest in investigating how polyfluorination of carbohydrates modifies their physical and biological properties. An example that has caught much attention is 2,3,4-trideoxy-2,3,4-trifluoroglucose. Four syntheses of this compound have been reported, which are either low yielding or long (13 or more steps). We report a 6-step synthesis of 2,3,4-trideoxy-2,3,4-trifluoroglucose starting from levoglucosan. The solution-phase structure of an intermediate, 1,6-anhydro-2,4-dideoxy-2,4-difluoroallose, features a rare example of a bifurcated F···H(O)···F hydrogen bond and is compared to its crystal structure.

Published

2019

41. Synthesis and Conformational Properties of 3,4-Difluoro-l-prolines.

Author

Hofman GJ, Ottoy E, Light ME, Kieffer B, Martins JC, Kuprov I, Sinnaeve D, and Linclau B

Subjects

Halogenation, Molecular Conformation, Proline analogs & derivatives, Stereoisomerism, Proline chemical synthesis, Proline chemistry

Abstract

Fluorinated proline derivatives have found diverse applications in areas ranging from medicinal chemistry over structural biochemistry to organocatalysis. Depending on the stereochemistry of monofluorination at the proline 3- or 4-position, different effects on the conformational properties of proline (ring pucker, cis/ trans isomerization) are introduced. With fluorination at both 3- and 4-positions, matching or mismatching effects can occur depending on the relative stereochemistry. Here we report, in full, the syntheses and conformational properties of three out of the four possible 3,4-difluoro-l-proline diastereoisomers. The yet unreported conformational properties are described for (3 S,4 S)- and (3 R,4 R)-difluoro-l-proline, which are shown to bias ring pucker and cis/ trans ratios on the same order of magnitude as their respective monofluorinated progenitors, although with significantly faster amide cis/ trans isomerization rates. The reported analogues thus expand the scope of available fluorinated proline analogues as tools to tailor proline's distinct conformational and dynamical properties, allowing for the interrogation of its role in, for instance, protein stability or folding.

Published

2019

42. A New Straightforward Method for Lipophilicity (logP) Measurement using 19F NMR Spectroscopy.

Author

Wang Z, Jeffries BF, Felstead HR, Wells NJ, Chiarparin E, and Linclau B

Subjects

Carbohydrates chemistry, Fluorine chemistry, Lipids chemistry, Magnetic Resonance Spectroscopy methods

Abstract

Fluorination has become an effective tool to optimize physicochemical properties of bioactive compounds. One of the applications of fluorine introduction is to modulate the lipophilicity of the compound. In our group, we are interested in the study of the impact of fluorination on lipophilicity of aliphatic fluorohydrins and fluorinated carbohydrates. These are not UV-active, resulting in a challenging lipophilicity determination. Here, we present a straightforward method for the measurement of lipophilicity of fluorinated compounds by 19 F NMR spectroscopy. This method requires no UV-activity. Accurate solute mass, solvent and aliquot volume are also not required to be measured. Using this method, we measured the lipophilicities of a large number of fluorinated alkanols and carbohydrates.

Published

2019

43. Reducing the Lipophilicity of Perfluoroalkyl Groups by CF 2 -F/CF 2 -Me or CF 3 /CH 3 Exchange.

Author

Jeffries B, Wang Z, Graton J, Holland SD, Brind T, Greenwood RDR, Le Questel JY, Scott JS, Chiarparin E, and Linclau B

Subjects

Animals, Antineoplastic Agents chemistry, Clinical Trials as Topic, Drug Stability, Humans, Models, Molecular, Molecular Conformation, Rats, Carbon chemistry, Hydrocarbons, Fluorinated chemistry, Hydrophobic and Hydrophilic Interactions

Abstract

Fluorination is commonly employed to optimize bioactivity and pharmaco-kinetic properties of drug candidates. Aliphatic fluorination often reduces the lipophilicity (log P), but polyfluoroalkylation typically increases lipophilicity. Hence, identification of polyfluorinated motifs that nonetheless lead to similar or even reduced lipophilicities is of interest to expand the arsenal of medicinal chemistry tools in tackling properties such as compound metabolic stability or off-target selectivity. We show that changing a CF 3 -group of a perfluoroalkyl chain to a methyl group leads to a drastic reduction in lipophilicity. We also show that changing a C-F bond of a trifluoromethyl group, including when incorporated as part of a perfluoroalkyl group, to a C-Me group, leads to a reduction in log P, despite the resulting chain elongation. The observed lipophilicity trends were identified in fluorinated alkanol models and reproduced when incorporated in analogues of a drug candidate, and the metabolic stability of these motifs was demonstrated.

Published

2018

44. Transmembrane Exchange of Fluorosugars: Characterization of Red Cell GLUT1 Kinetics Using  19 F NMR.

Author

Shishmarev D, Fontenelle CQ, Kuprov I, Linclau B, and Kuchel PW

Subjects

Erythrocytes metabolism, Glucose Transporter Type 1 chemistry, Humans, Isomerism, Kinetics, Cell Membrane metabolism, Glucose Transporter Type 1 metabolism, Halogenation, Magnetic Resonance Spectroscopy, Sugars chemistry, Sugars metabolism

Abstract

We have developed a new approach, to our knowledge, to quantify the equilibrium exchange kinetics of carrier-mediated transmembrane transport of fluorinated substrates. The method is based on adapted kinetic theory that describes the concentration dependence of the transmembrane exchange rates of two competing, simultaneously transported species. Using the new approach, we quantified the kinetics of membrane transport of both anomers of three monofluorinated glucose analogs in human erythrocytes (red blood cells) using 19 F NMR exchange spectroscopy. An inosine-based glucose-free medium was shown to promote survival and stable metabolism of red blood cells over the duration of the experiments (several hours). Earlier NMR studies only yielded the apparent rate constants and transmembrane fluxes of the anomeric species, whereas we could categorize the two anomers in terms of the catalytic activity (specificity constants) of the glucose transport protein GLUT1 toward them. Differences in the membrane permeability of the three glucose analogs were qualitatively interpreted in terms of local perturbations in the bonding of substrates to key amino acid residues in the active site of GLUT1. The methodology of this work will be applicable to studies of other carrier-mediated membrane transport processes, especially those with competition between simultaneously transported species. The GLUT1-specific results can be applied to the design of probes of glucose transport or inhibitors of glucose metabolism in cells, including those exhibiting the Warburg effect., (Copyright © 2018 Biophysical Society. All rights reserved.)

Published

2018

45. Minimising conformational bias in fluoroprolines through vicinal difluorination.

Author

Hofman GJ, Ottoy E, Light ME, Kieffer B, Kuprov I, Martins JC, Sinnaeve D, and Linclau B

Abstract

Monofluorination at the proline 4-position results in conformational effects, which is exploited for a range of applications. However, this conformational distortion is a hindrance when the natural proline conformation is important. Here we introduce (3S,4R)-3,4-difluoroproline, in which the individual fluorine atoms instil opposite conformational effects, as a suitable probe for fluorine NMR studies.

Published

2018

46. Isolation and characterisation of an unexpected byproduct in the regioselective butane diacetal protection of α-methyl galactopyranoside.

Author

Fontenelle CQ, Kuppala R, Light M, and Linclau B

Subjects

Crystallography, X-Ray, Magnetic Resonance Spectroscopy, Butanes chemistry, Galactose analogs & derivatives, Galactose chemistry

Abstract

The regioselective protection of both methyl galactopyranoside anomers at the 2 and 3-positions as the butane diacetal (BDA) is well known. Here we describe the formation of an unexpected byproduct, which mainly occurs when α-methyl galactopyranoside is reacted with 2,3-butanedione under BF 3 •OEt 2 catalysis. The structure of the byproduct, which did not arise from anomerisation to the β-anomer or from BDA formation at the galactopyranoside 3,4-positions, was elucidated by NMR and X-ray crystallographic analysis, and proved to be the expected BDA protected galactopyranoside, but in which the stereochemistry of both its BDA acetal centres are inverted. Interestingly, the conformation of the resulting six-membered BDA ring was distorted to a skew boat conformation in order to maintain anomeric stabilisation., (Copyright © 2017. Published by Elsevier Ltd.)

Published

2018

47. The synthesis of the 2,3-difluorobutan-1,4-diol diastereomers.

Author

Szpera R, Kovalenko N, Natarajan K, Paillard N, and Linclau B

Abstract

The diastereoselective synthesis of fluorinated building blocks that contain chiral fluorine substituents is of interest. Here we describe optimisation efforts in the synthesis of anti -2,3-difluorobutane-1,4-diol, as well as the synthesis of the corresponding syn -diastereomer. Both targets were synthesised using an epoxide opening strategy.

Published

2017

48. A Study of Intramolecular Hydrogen Bonding in Levoglucosan Derivatives.

Author

Quiquempoix L, Bogdan E, Wells NJ, Le Questel JY, Graton J, and Linclau B

Subjects

Glucose chemical synthesis, Glucose chemistry, Hydrogen Bonding, Hydroxyl Radical chemistry, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Conformation, Glucose analogs & derivatives

Abstract

Organofluorine is a weak hydrogen-bond (HB) acceptor. Bernet et al. have demonstrated its capability to perturb OH···O intramolecular hydrogen bonds (IMHBs), using conformationally rigid carbohydrate scaffolds including levoglucosan derivatives. These investigations are supplemented here by experimental and theoretical studies involving six new levoglucosan derivatives, and complement the findings of Bernet et al. However, it is shown that conformational analysis is instrumental in interpreting the experimental data, due to the occurrence of non-intramolecular hydrogen-bonded populations which, although minor, cannot be neglected and appears surprisingly significant. The DFT conformational analysis, together with the computation of NMR parameters (coupling constants and chemical shifts) and wavefunction analyses (AIM, NBO), provides a full picture. Thus, for all compounds, the most stabilized structures show the OH groups in a conformation allowing IMHB with O5 and O6, when possible. Furthermore, the combined approach points out the occurrence of various IMHBs and the effect of the chemical modulations on their features. Thus, two-center or three-center IMHB interactions are observed in these compounds, depending on the presence or absence of additional HB acceptors, such as methoxy or fluorine.

Published

2017

49. Influence of Alcohol β-Fluorination on Hydrogen-Bond Acidity of Conformationally Flexible Substrates.

Author

Graton J, Compain G, Besseau F, Bogdan E, Watts JM, Mtashobya L, Wang Z, Weymouth-Wilson A, Galland N, Le Questel JY, and Linclau B

Abstract

Rational modulations of molecular interactions are of significant importance in compound properties optimization. We have previously shown that fluorination of conformationally rigid cyclohexanols leads to attenuation of their hydrogen-bond (H-bond) donating capacity (designated by pK AHY ) when OH⋅⋅⋅F intramolecular hydrogen-bond (IMHB) interactions occur, as opposed to an increase in pK AHY due to the fluorine electronegativity. This work has now been extended to a wider range of aliphatic β-fluorohydrins with increasing degrees of conformational flexibility. We show that the observed differences in pK AHY between closely related diastereomers can be fully rationalized by subtle variations in populations of conformers able to engage in OH⋅⋅⋅F IMHB, as well as by the strength of these IMHBs. We also show that the Kenny theoretical V α (r) descriptor of H-bond acidity accurately reflects the observed variations and a calibration equation extended to fluorohydrins is proposed. This work clearly underlines the importance of the weak OH⋅⋅⋅F IMHB in the modulation of alcohol H-bond donating capacity., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

50. Development of a Solid Phase Array Assay for the Screening of Galactose Oxidase Activity and for Fast Identification of Inhibitors.

Author

Weissenborn MJ, Debecker DP, Golten S, Linclau B, Turner NJ, and Flitsch SL

Subjects

Adsorption, Biocatalysis, Galactose Oxidase antagonists & inhibitors, Gold chemistry, Halogenation, Hydrogen Peroxide chemistry, Monosaccharides chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Enzyme Inhibitors chemistry, Galactose chemistry, Galactose Oxidase chemistry, High-Throughput Screening Assays

Abstract

Background: Galactose oxidase (GOase) catalyses the highly selective oxidation of terminal galactosides on a wide range of natural glycoconjugates and has found wide applications in biotechnology - particularly in biocatalysis. GOase is copper dependent and uses oxygen to oxidise the C6-primary alcohol of galactose and produces hydrogen peroxide. The enzyme activity can be conveniently assessed by a colorimetric assay., Objectives: The objective of the present study was to develop an assay system, which is independent of the hydrogen peroxide formation to identify possible fluorinated GOase inhibitors. In case that the inhibitor bears a primary or secondary alcohol, it could also be oxidised by the enzyme. In such case, the colorimetric assay is not able to distinguish between substrate and inhibitor, since oxidation of both molecules would result in the formation of hydrogen peroxide., Methods: D-galactose (D-Gal) was immobilised onto a gold surface functionalised by selfassembled monolayers (SAMs,). A GOase solution was then added to the surface in a droplet for a certain period of time and thereafter washed away. The activity of GOase on the immobilised D-Gal can then be quantified by MALDI-ToF MS., Results: For inhibition studies, GOase was incubated together with 62.5 mM of deoxy-fluorinated monosaccharides on the D-Gal displaying platform. Five deoxy-fluorinated D-Gal showed a >50% inhibition of its activity. The array system has been moreover utilised to determine the apparent IC50 value of 3-F-Gal 15 as a proof of principle., Conclusion: The developed array platform allows the fast identification of GOase substrates and inhibitors from a library of deoxy-fluorinated sugars using MALDI-ToF MS as a label-free readout method. In addition, the enzymatic reaction enables for the in situ activation of sugar-coated surfaces to bioorthogonal aldehydes, which can be utilised for subsequent chemical modifications., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published

2017