New Synthetic Routes to Chain-Extended Selenium, Sulfur, and
Nitrogen Analogues of the Naturally Occurring Glucosidase
Inhibitor Salacinol and their Inhibitory Activities against
Recombinant Human Maltase Glucoamylase
posted on 2007-08-17, 00:00authored byHui Liu, Ravindranath Nasi, Kumarasamy Jayakanthan, Lyann Sim, Heather Heipel, David R. Rose, B. Mario Pinto
Six heteroanalogues (X = S, Se, NH) of the naturally occurring glucosidase inhibitor salacinol, containing
polyhydroxylated, acyclic chains of 6-carbons, were synthesized for structure−activity studies with different
glycosidase enzymes. The target zwitterionic compounds were synthesized by means of nucleophilic
attack of the PMB-protected 1,4-anhydro-4-seleno-, 1,4-anhydro-4-thio-, and 1,4-anhydro-4-imino-d-arabinitols at the least hindered carbon atom of 1,3-cyclic sulfates. These 1,3-cyclic sulfates were derived
from d-glucose and d-galactose, and significantly, they utilized butane diacetal as the protecting groups
for the trans 2,3-diequatorial positions. Deprotection of the coupled products proceeded smoothly, unlike
in previous attempts with different protecting groups, and afforded the target selenonium, sulfonium,
and ammonium sulfates with different stereochemistry at the stereogenic centers. The four new
heterosubstituted compounds (X = Se, NH) inhibited recombinant human maltase glucoamylase (MGA),
one of the key intestinal enzymes involved in the breakdown of glucose oligosaccharides in the small
intestine. The two selenium derivatives each had Ki values of 0.10 μM, giving the most active compounds
to date in this general series of zwitterionic glycosidase inhibitors. The two nitrogen compounds also
inhibited MGA but were less active, with Ki values of 0.8 and 35 μM. The compounds in which X = S
showed Ki values of 0.25 and 0.17 μM. Comparison of these data with those reported previously for
related compounds reinforces the requirements for an effective inhibitor of MGA. With respect to chain
extension, the configurations at C-2‘ and C-4‘ are critical for activity, the configuration at C-3‘, bearing
the sulfate moiety, being unimportant. It would also appear that the configuration at C-5‘ is important
but the relationship is dependent on the heteroatom.