Luigi Lay

SYNTHESIS OF AZASUGARS BY GRIGNARD REACTION ON GLYCOSYLAMINES

Abstract Pyrrolidines 5a-b, and piperidines 10a,b and 15, were synthesised by Grignard reaction on a glycosylamine, easily obtained from the parent sugar and a primary amine, followed by cyclization with triflic anhydride.

Expeditious synthesis of water-soluble, monolayer-protected gold nanoparticles of controlled size and monolayer composition.

A protocol is reported for the preparation of water-soluble, thiol-protected Au nanoparticles (Au-MPC) where dioctylamine is used as a stabilizing agent when the gold cluster is formed using the two-phase Brust and Schiffrin procedure. The amount of amine controls the size of the nanoparticles in the 1.9-8.9 nm diameter range. The final stabilization of the gold clusters by addition of functionalized thiols is performed under very mild conditions compatible with most biomolecules. The procedure is suitable for a wide variety of functional groups present in the thiol and allows one to use thiol mixtures with a precise control of their composition in the monolayer. As a proof of principle, examples of nanoparticles protected with thiols comprising functional groups ranging from polyethers, saccharides, polyamines and ammonium ions are reported.

Synthesis of carboranyl derivatives of alkynyl glycosides as potential BNCT agents

Abstract A series of amphiphilic carbohydrate-carborane hybrids consisting of a lipophilic core (carborane cage) and a glycoside moiety for conferring high-affinity recognition by the cellular lectins have been prepared in a chemically accessible fashion.

Phosphorylation of the Synthetic Hexasaccharide Repeating Unit Is Essential for the Induction of Antibodies to Clostridium difficile PSII Cell Wall Polysaccharide

Clostridium difficile is emerging worldwide as a major cause of nosocomial infections. The negatively charged PSII polysaccharide has been found in different strains of C. difficile and, thereby, represents an important target molecule for a possible carbohydrate-based vaccine. In order to identify a synthetic fragment that after conjugation to a protein carrier could be able to induce anti-PSII antibodies, we exploited a combination of chemical synthesis with immunochemistry, confocal immunofluorescence microscopy, and solid state NMR. We demonstrate that the phosphate group is crucial in synthetic glycans to mimic the native PSII polysaccharide; both native PSII and a phosphorylated synthetic hexasaccharide repeating unit conjugated to CRM(197) elicit comparable immunogenic responses in mice. This finding can aid design and selection of carbohydrate antigens to be explored as vaccine candidates.

A new procedure for the synthesis of azasugars

Abstract Reaction of the commercially available 2,3,5-tri-O-benzyl-D-arabinose with a primary amine (RNH2) affords the arabinofuranosylamine 2, which on treatment with a Grignard reagent stereoselectively gives the aminoalcohol 3. 3 is an useful precursor of azasugars: it is converted into the pyrrolidine 4 by treatment with Tf2O-Py, whereas by oxidation with PCC it affords the lactam 5 which can be reduced to the corresponding amine 6.

Capsular polysaccharide of Streptococcus pneumoniae type 19F: synthesis of the repeating unit

A new and more versatile synthesis of beta-D-ManpNAc-(1-->4)-alpha-D-Glcp-(1-->2)-alpha-L-Rhap, the trisaccharide repeating unit of the Streptococcus pneumoniae type 19F capsular polysaccharide, is described. The present approach allows a simple access to different fragments containing the trisaccharide and the conjugation of the product(s) to a protein through the selective manipulation of the anomeric position at the reducing end and of the HO-4 function at the nonreducing end. The synthetic scheme shows an efficient application of the sulfoxide method for the stereoselective and high yielding formation of the glycosidic linkages.

First synthesis of C. difficile PS-II cell wall polysaccharide repeating unit.

Clostridium difficile is the most commonly diagnosed cause of nosocomial diarrhea with increasing incidence and mortality among elderly and hospitalized patients. We report the first synthesis of the surface polysaccharide PS-II repeating unit and its nonphosphorylated analogue, with a linker for conjugation, via a (4 + 2) convergent approach from a common AB(D)C tetrasaccharide intermediate.

Synthesis of N-acetylglucosamine containing Lewis A and Lewis X building blocks based on N-tetrachlorophthaloyl protection—synthesis of Lewis X pentasaccharide

Phenyl 6-O-benzyl-2-deoxy-2-tetrachlorophthalimido-1-thio-beta-D- glucopyranoside (5a) and thexyldimethylsilyl 6-O-benzyl-2-deoxy-2-tetrachlorophthalimido-beta-D- glucopyranoside (5b) gave with O-(2,3,4,6-tetra-O-acetyl-alpha-D-galactopyranosyl)trichloroacetimida te (8) in the presence of BF3.Et2O as catalyst exclusively lactosamine derivatives 7a and 7b, respectively, in high yields. Ensuing reaction with O-(3, 4-di-O-acetyl-2-O-benzyl-alpha-L-fucopyranosyl) trichloroacetimidate (9) in the presence of TMSOTf as catalyst afforded Le(x) trisaccharide intermediates 10a,b. With fucosyl donor 9 and 5a,b as acceptors in the presence of TMSOTf as catalyst glycosylation either at the 3-O or the 4-O was observed, thus leading to mixtures of disaccharides 11a/12a and 11b/12b, respectively; their reaction with 8 furnished Le(x) trisaccharide intermediates 10a,b and Le(a) trisaccharide intermediates 14a,b. Transformation of 10b into the corresponding trichloroacetimidate 17 and reaction with lactose acceptor 19 in the presence of Zn(OTf)2 as catalyst gave protected Le(x) pentasaccahride intermediate 21, which on deprotection led to unprotected Le(x) pentasaccharide 1.

Probing specific protein recognition by size-controlled glycosylated cyclodextrin nanoassemblies

The balance between hydrophobic and hydrophilic components in amphiphilic β-cyclodextrins, targeted by receptor specific groups (SC6CDGlc, SC6CDGal, SC16CDGlc, SC16CDGal), sensitively influences the structural properties of these systems. The different amphiphilic features of single cyclodextrins generate micellar aggregates and vesicles with an internal aqueous compartment able to encapsulate guests, such as rhodamine 6G. Small-angle light scattering (SAXS), cryo-TEM and AFM investigations describe the size and shape of these self-organized glycoligands. Recognition of the nanoassemblies by a specific receptor has effectively been demonstrated by means of time resolved fluorescence and is addressed in water by the morphological properties of cyclodextrin aggregates. Exclusively galactosylated thiohexyl-cyclodextrin binds specifically lectin from Pseudomonas aeruginosa. β-D-Galactose competes with galactosylated cyclodextrin aggregates by inhibiting lectin binding but does not affect the mesoscopic environment of the protein. The better selectivity of the less hydrophobic cyclodextrins towards lectin should probably be ascribed to the morphology (size and shape) of these cyclodextrin aggregates. The recognition properties of this particular cyclodextrin (SC6CDGal) are probably due to the presence of small micelles which interact more efficiently with the lectin binding site. The modulation of the hydrophobic–hydrophilic balance of the macrocycle labelled with targeting groups allows the design of “active” nanosized carriers for drug delivery.

Synthesis of disaccharidic sub-units of a new series of heparin related oligosaccharides

The chemical synthesis of disaccharides1 and2, useful building-blocks for the preparation of a new series of heparin related oligosaccharides containing the unusual sequence (GlcN-IdoA)n, is described. In addition, the orthogonality of the protective groups would allow access to a wide array of differently sulfated oligosaccharides. As the simplest members of this new class of oligomer, the synthesis of sulfated disaccharides3 and4 fully deprotected is reported. Compounds1 and2 have been synthesised as building blocks for a new family of heparin related oligosaccharides containing the unusual sequence (GlcN-IdoA)n. In addition, the orthogonality of the protective groups would allow access to a wide array of differently sulfated oligosaccharides. Download full-size image