Sugar nucleotide quantification by liquid chromatography tandem mass spectrometry reveals a distinct profile in Plasmodium falciparum sexual stage parasites.

The obligate intracellular lifestyle of Plasmodium falciparum and the difficulties in obtaining sufficient amounts of biological material have hampered the study of specific metabolic pathways in the malaria parasite. Thus, for example, the pools of sugar nucleotides required to fuel glycosylation reactions have never been studied in-depth in well-synchronized asexual parasites or in other stages of its life cycle. These metabolites are of critical importance, especially considering the renewed interest in the presence of N-, O-, and other glycans in key parasite proteins. In this work, we adapted a liquid chromatography tandem mass spectrometry (LC-MS/MS) method based on the use of porous graphitic carbon (PGC) columns and MS-friendly solvents to quantify sugar nucleotides in the malaria parasite. We report the thorough quantification of the pools of these metabolites throughout the intraerythrocytic cycle of P. falciparum The sensitivity of the method enabled, for the first time, the targeted analysis of these glycosylation precursors in gametocytes, the parasite sexual stages that are transmissible to the mosquito vector.

An enzymatic method of analysis for GDP-L-fucose in biological samples, involving high-performance liquid chromatography.

To investigate the biological significance of GDP-L-fucose, we established a unique method for the determination of GDP-L-fucose levels in microsomal fractions, using an HPLC assay of alpha 1-6-fucosyltransferase (alpha1-6-FucT), an enzyme that catalyzes the synthesis of core fucosylation in N-glycans. A microsomal protein and a large excess of fluorescence-labeled synthetic oligosaccharide (a substrate) were incubated with a large excess of alpha1-6-FucT. The fluorescent intensity of the fucosylated reaction product, which was analyzed by isocratic reverse phase HPLC, was proportional to the level of GDP-L-fucose in the microsomal fractions over the range 0.20-10 pmol. This assay is applicable to the determination of the GDP-L-fucose content in various cancer cell lines as well as rat liver and would be useful in developing a better understanding of the fucosylation potential of such cells and tissues.

Two time-resolved fluorometric high-throughput assays for quantitation of GDP-L-fucose.

Two rapid and simple procedures for the quantitative analysis of GDP-l-fucose (GDP-Fuc) are described. The methods are based on time-resolved fluorescence and microplate assay technology. The first assay relies on measuring the enzyme activity of alpha1, 3-fucosyltransferase. In this assay, transfer of fucose from GDP-Fuc converts sialyllactosamine to sialyl Lewis x tetrasaccharide, which is detected and quantified by relevant antibodies on a microplate. The formation of the reaction product is directly dependent on the presence of GDP-Fuc in the concentration range of 10-10,000 nM. In the second method GDP-Fuc inhibits the binding of fucose-specific Aleuria aurantia lectin to fucosylated glycan on a microwell. The lectin-based assay is less sensitive than the enzyme assay, but it is cheaper and faster. We used these assays in monitoring the amount of GDP-Fuc in crude lysates of transgenic yeast, which expresses the enzymes producing GDP-Fuc. The newly developed assays are versatile and applicable to measure also other nucleotide sugars or glycosyltransferase activities in a high-throughput manner.