An Improved Stereoselective Synthesis of (1 R ,2 S ,3 S ,4 R ,5 R )-4-Amino-5-(hydroxymethyl)-cyclopentane-1,2,3-triol

Iminosugars are sugar mimetics present in plants and microorganisms that were first reported in the 1960s. [...]

Iminosugars are sugar mimetics present in plants and microorganisms that were first reported in the 1960s [1,2]. They can formally result from the replacement of the endocyclic oxygen atoms monosaccharides by a basic nitrogen and the lack of the anomeric hydroxy group (Figure 1). Taking into account their ability to inhibit carbohydrate-processing enzymes such as glucosidases, they have been proposed as a source for therapeutic agents [3]. Thus, two derivatives of the natural iminosugar deoxynojirimycin (DNJ) are now marketed drugs: miglitol for the treatment of type 2 diabetes and miglustat for the treatment of the lysosomal storage disorders Gaucher's and Nieman-Pick type 2 diseases. Aminocyclopentitols are also inhibitors of glucosidases that can be considered as carbohydrate mimics resulting from the lack of the endocyclic oxygen atom of furanoses and that carry an exocyclic amino group [4]. Similar to the deoxynojirimycins, they are mimicking either the protonated glycoside [5,6] or the intermediate glycosyl (oxycarbenium) cation [7].
As part of our continued interest in glycosidase inhibitors, we report here an improved stereoselective synthesis of aminocyclopentitol V.
As shown in Scheme 1, protection of the OH group of the starting diaceton-D-glucose as OBn was followed by the selective deprotection of the exocyclic acetonide group of the resulting compound 3 [8]. Treatment of this compound with Björn Classon conditions provided sugar olefin 4, in good yield [9]. Reaction of this compound with a 2:1 TFA/H2O mixture resulted in the removal of the acetonide-protecting group, a process that allows one to obtain compound 5 with its anomeric position free, as required for further transformations.
Molecular modelling studies carried out allowed us to explain the 88:11 ratio for compounds 7 and 8. Calculations using the MM2 software by Allinger [13,14] provided a value of 19.9563 Kcal/mol for compound 7 and 22.1753 for compound 8 (Figure 2). The difference of 2.219 kcal/mol is small enough to justify that 88:11 ratio. This suggests that this reaction could be subjected to a kinetic control. This suggests that this reaction could be subjected to kinetic control. Two parallel reactions take place, of which the fastest is the one through the most stable intermediate, 6a. Its Newman projection through the C-1-C-2 bond shows that the conformation of its transition state is energetically more favorable than that corresponding to 6b. The eclipsed arrangement of the nitrate and hydrogen at the C-2 positions present a lower steric hindrance than in the case of the conformation of intermediate 6b, in which the nitrate and the l hydroxy group in the C-2 position are eclipsed. As a whole, here we report a modified route for the synthesis of aminocyclopentitol 9 [15], a known glycosidase inhibitor [16].
Work is now in progress aimed at the transformation of 9 into its b-amino acid derivative 10b [17,18], a polyhydroxylated derivative of cispentacin (10a), a natural antifungal antibiotic [19].