Immucillin-H (ImmH, also known as Forodesine) is a transition-state analog inhibitor of purine nucleoside phosphorylase (PNPases). It has been extensively studied for the treatment of patients with T-cell acute lymphoblastic leukemia (T-ALL), and its C-nucleoside hydrochloride form is in phase II clinical trials as an anti-T-cell leukemia agent
[10][28]. Various Immucillin analogs modified at the 2′-, 3′-, or 5′-positions of the aza sugar moiety or at the 6-, 7-, or 8-positions of the deazapurine, have been synthesized and tested for their inhibition of human PNPases
[11][29]. Inspired by the nucleoside-like structures of Immucillin analogues and their binding modes with PNPases by crystal structures
[12][13][30,31], their
L-enantiomers have been investigated as novel pharmaceuticals against T-cell mediated disorders
[14][32]. The synthetically achieved (1R)-1-(9-Deazahypoxanthin-9-yl)-1,4-dideoxy-1,4-imino-
L-ribitol (
Figure 2,
6a) was an
L-enantiomer of natural
D-ImmH, and its hydrochloride complex was revealed to be a slow-onset tight-binding inhibitor of PNPases of human, bovine, and
Plasmodium falciparum. Although this compound showed less activity than
D-ImmH when inhibiting the selected enzymes, it still demonstrated more excellent binding potency compared to 3′- and 5′-modified
D-ImmH. Moreover, the
L-enantiomer of second-generation Immucillin analogue, 4′-deaza-1′-aza-2′-deoxy-1′-(9-methylene)-Immucillin-H (DADMe-ImmH)
[15][33], was also synthesized. The
L-DADMe-ImmH (
Figure 2,
6b) also displayed lower activities as an inhibitor, when binding to the three enzymes. However, it was interesting to observe the sub-nanomolar binding capacities of these two
L-formed Immucillin analogues, plus they had the potential to be applied in different circumstances.