Richard Graeff scite author profile

ADP-ribosyl cyclase catalyzes the cyclization of NAD+ to produce cyclic ADP-ribose (cADPR), which is emerging as an endogenous regulator of the Ca(2+)-induced Ca2+ release mechanism in cells. CD38 is a lymphocyte differentiation antigen which has recently been shown to be a bifunctional enzyme that can synthesize cADPR from NAD+ as well as hydrolyze cADPR to ADP-ribose. In this study, we show that both the cyclase and CD38 can also catalyze the exchange of the nicotinamide group of NADP+ with nicotine acid (NA). The product is nicotinic acid adenine dinucleotide phosphate (NAADP+), a metabolite we have previously shown to be potent in Ca2+ mobilization (Lee, H. C., and Aarhus, R. (1995) J. Biol. Chem. 270, 2152-2157). The switch of the catalysis to the exchange reaction requires acidic pH and NA. The half-maximal effective concentration of NA is about 5 mM for both the cyclase and CD38. In the absence of NA or at neutral pH, the cyclase converts NADP+ to another metabolite, which is identified as cyclic ADP-ribose 2'-phosphate. Under the same conditions, CD38 converts NADP+ to ADP-ribose 2'-phosphate instead, which is the hydrolysis product of cyclic ADP-ribose 2'-phosphate. That two different products of ADP-ribosyl cyclase and CD38, cADPR and NAADP+, are both involved in Ca2+ mobilization suggests a crucial role of these enzymes in Ca2+ signaling.

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Abscisic Acid Signaling Through Cyclic ADP-Ribose in Plants

Kuzma

Maréchal

et al. 1997

Science

391

257

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Abscisic acid (ABA) is the primary hormone that mediates plant responses to stresses such as cold, drought, and salinity. Single-cell microinjection experiments in tomato were used to identify possible intermediates involved in ABA signal transduction. Cyclic ADP-ribose (cADPR) was identified as a signaling molecule in the ABA response and was shown to exert its effects by way of calcium. Bioassay experiments showed that the amounts of cADPR in Arabidopsis thaliana plants increased in response to ABA treatment and before ABA-induced gene expression.

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Activation and Inactivation of Ca Release by NAADP

Aarhus

Dickey

Graeff

et al. 1996

Journal of Biological Chemistry

175

246

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A novel cycling assay for cellular cADP-ribose with nanomolar sensitivity

2002

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cADP-ribose (cADPR) is a novel cyclic nucleotide derived from NAD+ that has now been established as a general Ca2+ messenger in a wide variety of cells. Despite the obvious importance of monitoring its cellular levels under various physiological conditions, its measurement has been technically difficult and requires specialized reagents. In this study a widely applicable high-sensitivity assay for cADPR is described. ADP-ribosyl cyclase normally catalyses the synthesis of cADPR from NAD+, but the reaction can be reversed in the presence of high concentrations of nicotinamide, producing NAD+ from cADPR stoichiometrically. The resultant NAD+ can then be coupled to a cycling assay involving alcohol dehydrogenase and diaphorase. Each time NAD+ cycles through these coupled reactions, a molecule of highly fluorescent resorufin is generated. The reaction can be conducted for hours, resulting in more than a thousand-fold amplification of cADPR. Concentrations of cADPR in the nanomolar range can be measured routinely. The unique ability of ADP-ribosyl cyclase to catalyse the reverse reaction provides the required specificity. Using this assay, it is demonstrated that cADPR is present in all tissues tested and that the levels measured are directly comparable with those obtained using a radioimmunoassay. All the necessary reagents are widely available and the assay can be performed using a multiwell fluorescence plate reader, providing a high-throughput method for monitoring cADPR levels. This assay should be valuable in elucidating the messenger role of cADPR in cells.

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Richard Graeff

ADP-ribosyl Cyclase and CD38 Catalyze the Synthesis of a Calcium-mobilizing Metabolite from NADP+

Abscisic Acid Signaling Through Cyclic ADP-Ribose in Plants

Activation and Inactivation of Ca Release by NAADP

A novel cycling assay for cellular cADP-ribose with nanomolar sensitivity

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