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Physiological Reviews, Vol 77, 1133-1164, Copyright © 1997 by American Physiological Society
JOURNAL ARTICLE |
H. C. Lee
Department of Physiology, University of Minnesota, Minneapolis, USA.
Cells possess various mechanisms for transducing external signals to intracellular responses. The discovery of inositol 1,4,5-trisphosphate (IP3) as a messenger for mobilizing internal Ca2+ stores has centralized Ca2+ mobilization among signaling mechanisms. Results reviewed in this article establish that, in addition to IP3, the internal Ca2+ stores can be mobilized by at least two other molecules, cyclic ADP-ribose (cADPR) and nicotinic acid adenine dinucleotide phosphate (NAADP), via totally independent mechanisms. Cyclic ADP-ribose is a newly discovered cyclic nucleotide derived from NAD, but, unlike adenosine 3',5'-cyclic monophosphate, its main signaling function is modulation of Ca(2+)-induced Ca2+ release, a major mechanism of Ca2+ mobilization in addition to the IP3 pathway. Evidence shows that cADPR may in fact be responsible for mediating the Ca(2+)-mobilizing activity of the gaseous messenger nitric oxide. Cells responsive to cADPR are widespread and include species from plant to mammal, indicating the generality of cADPR as a signaling molecule. In addition to cADPR, NAADP, a metabolite of NADP, can also mobilize Ca2+ stores. The release mechanism and the stores on which NAADP acts are distinct from cADPR and IP3. Nicotinic acid adenine dinucleotide phosphate may play a role in generating Ca2+ oscillations, since liberation of NAADP in live cells by photolyzing its caged analog produces long lasting Ca2+ oscillations. These two new Ca2+ agonists are intimately related, since the same metabolic enzymes can, under appropriate conditions, synthesize either one, suggesting a unified mechanism may regulate both pathways. Elucidation of these two new Ca2+ mobilization pathways is likely to have an important impact on our understanding of cellular signaling mechanisms.
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