Synthesis and biological evaluation of novel membrane-permeant cyclic ADP-ribose mimics: N1-[(5'-O-phosphorylethoxy)methyl]-5'-O-phosphorylinosine 5',5'-cyclicpyrophosphate (cIDPRE) and 8-substituted derivatives

N1-(5' '-O-Phosphorylethoxy)methyl]-5'-O-phosphorylinosine 5',5'-cyclicpyrophosphate (cIDPRE 2a) and the 8-substituted derivatives 8-bromo-, 8-azido-, 8-amino-, and 8-Cl-cIDPRE (2b-e) were synthesized from N1-(5'-acetoxyethoxy)methyl]-2',3'-O-isopropylideneinosine (5) in good yields. The pharmacological activities of cIDPRE and the 8-substituted derivatives (2a-e) were analyzed in intact and permeabilized human Jurkat T-lymphocytes. The results indicate that cIDPRE permeates the plasma membrane, releases Ca2+ from an intracellular, cADPR-sensitive Ca2+ store, and subsequently initiates Ca2+ release-activated Ca2+ entry. The Ca(2+)-releasing activity of cIDPRE was confirmed directly in permeabilized cells. Using time-resolved confocal Ca2+ imaging at the single cell level, the development of global Ca2+ signals starting from local small Ca2+ signals evoked by cIDPRE was observed. 8-N3-cIDPRE 2c and 8-NH2-cIDPRE 2d were similarly effective in their agonistic activity as compared to cIDPRE 2a, showing almost indistinguishable concentration-response curves for 2a, 2c, and 2d and very similar kinetics of Ca2+ signaling. In contrast, the halogenated derivatives 8-Br- and 8-Cl-cIDPRE (2b and 2e) did not significantly elevate Ca2+]i. Therefore, cIDPRE 2a, 8-N3-cIDPRE 2c, and 8-NH2-cIDPRE 2d are novel membrane permeant cADPR mimic and may provide important novel tools to study cADPR-mediated Ca2+ signaling in intact cells.