To investigate a key strategy of the total synthesis of salacinol. Methods: A simplified analogue of salacinol (1),1-(3-sulfooxypropyl)tetrahydrothiophenium inner salt (2) was designed and synthesized by a coupling reaction between tetrahydrothiophene (THT) and 3-iodopropanol (3-IPA) followed by the esterification of the resulting sulfonium with sulfur trioxide pyridine complex (SO3*Py). Replacement of the alkylating reagent (3-IPA) of THT led to the predominate formation of a undesirable cyclic compound,2,2-dioxo-1,3,2-dioxathiane (7). Resutls:This model experiments indicated that the tandem synthetic process leading to the sulfonium sulfate 2 could be applied for the total synthesis of salacinol (1) as an alternative method.

Aim To investigate more efficient synthetic method of the nitrogen analogue 4 of salacinol (1) for searching new antidiabetic agents. Methods The synthesis of the key intermediate 2,4-O-isopropylidene-L-erythritol 1,3-cyclic sulfate (2a) was accomplished by modification of reports from Dglucose via seven steps in much more less expensive. Using this method, an efficient synthesis of 4 was carried out. The glycosidase inhibitory activity of 4 was tested for the intestinal α-glucosidase in vitro and compared with that of salacinol. Results A nitrogen analogue 4 of salacinol (1) was synthesized by the coupling reaction between the cyclic sulfate 2a and an azasugar 3b. Conclusion Substitution of the sulfur atom in 1 with a nitrogen reduced the activity considerably.

AIMTo investigate more efficient synthetic method of the nitrogen analogue 4 of salacinol (1) for searching new antidiabetic agents.

METHODSThe synthesis of the key intermediate 2, 4-O-isopropylidene-L-erythritol 1,3-cyclic sulfate (2a) was accomplished by modification of reports from D-glucose via seven steps in much more less expensive. Using this method, an efficient synthesis of 4 was carried out. The glycosidase inhibitory activity of 4 was tested for the intestinal alpha-glucosidase in vitro and compared with that of salacinol.

RESULTSA nitrogen analogue 4 of salacinol (1) was synthesized by the coupling reaction between the cyclic sulfate 2a and an azasugar 3b.

CONCLUSIONSubstitution of the sulfur atom in 1 with a nitrogen reduced the activity considerably.

Animals ; Enzyme Inhibitors ; chemical synthesis ; chemistry ; pharmacology ; Glycoside Hydrolase Inhibitors ; Intestinal Mucosa ; drug effects ; enzymology ; Molecular Structure ; Nitrogen Compounds ; chemical synthesis ; pharmacology ; Rats ; Structure-Activity Relationship ; Sugar Alcohols ; chemical synthesis ; chemistry ; pharmacology ; Sulfates ; chemical synthesis ; chemistry ; pharmacology ; alpha-Glucosidases ; metabolism

Neokotalanol, a potent α-glucosidase inhibitor isolated from Salacia reticulata, was synthesized through a key coupling reaction between a perbenzylated thiosugar and an appropriately protected perseitol triflate derived from D-mannose. This key step was found to be quite temperature dependent, and a simultaneous cyclization of the triflate leading to a characteristic 2,4,7-trioxabicyclo[4.2.1]nonane system was detected.
Enzyme Inhibitors ; chemical synthesis ; chemistry ; Glycoside Hydrolase Inhibitors ; Plant Extracts ; chemical synthesis ; chemistry ; Salacia ; chemistry