An efficient synthesis of a 6″-BODIPY-α-Galactosylceramide probe for monitoring α-Galactosylceramide uptake by cells.

Herein, an efficient synthesis of BODIPY-α-Galactosylceramide 3, which can be used to study the cellular uptake of the potent immunostimulatory parent compound α-Galactosylceramide, is reported. Key in our synthetic strategy is the six-step synthesis of the core BODIPY scaffold (64% yield overall) and its quantitative conversion to an N-hydroxysuccinimidyl ester to facilitate conjugation and purification of the target glycolipid. For the preparation of the core of the glycolipid, the solubility of the lipid acceptor proved to be critical.

On one leg: trehalose monoesters activate macrophages in a Mincle-dependant manner.

The C22 and C26 trehalose monoesters, each containing a single acyl chain, were synthesised in good overall yields and found to activate macrophages in a Mincle-dependent manner. The activities of the monoesters paralleled those of their diester counterparts, and both mono- and diesters could activate the immune response in the absence of priming. This is the first time that trehalose monoesters have been found to activate macrophages, and these studies thus provide an important framework for the rational design of other Mincle agonists.

Synthesis and biological activity of the lipoteichoic acid anchor from Streptococcus sp. DSM 8747.

In this study, the role of lipoteichoic acid (LTA) anchors in the activation of the innate immune response was investigated through the chemical synthesis of a series of LTA derivatives and the determination of their ability to induce NO production in bone marrow-derived macrophages (BMM). To this end, an efficient synthesis of the sn-3-O-(α-D-galactofuranosyl)-1,2-di-O-acylglycerol LTA core was developed, which was then used as a key structure to produce both phosphate and glycerylphosphate-funtionalised LTA anchors, as well as galactofuranosyldiglycerides with different fatty acid chain lengths. With a series of LTA anchors in hand, we then determined the effect of these glycolipids on the innate immune response by exploring their capacity to activate macrophages.

Long-chain lipids are required for the innate immune recognition of trehalose diesters by macrophages.

Going to any length? Trehalose diesters of various chain lengths have been synthesised in order to determine the effect of lipid length on innate immune recognition, as determined by NO and cytokine production by macrophages. In this work, we show that longer lipids (C(20) -C(26)) are required for macrophage activation, with C(22) giving optimal activity.

An improved synthesis of dansylated α-galactosylceramide and its use as a fluorescent probe for the monitoring of glycolipid uptake by cells.

A highly efficient synthesis of the biologically important fluorescent probe dansyl α-GalCer is presented. Key in our strategy is the incorporation of the fluorescent dansyl group at an early stage in the synthesis to facilitate in the monitoring and purification of intermediates via TLC and flash column chromatography, respectively, and the use of a high yielding α-selective glycosylation reaction between the phytosphingosine lipid and a galactosyl iodide donor. The ability of dansyl α-GalCer to activate iNKT cells and to serve as a fluorescent marker for the uptake of glycolipid by dendritic cells is also presented.