
Cyclic ADP-ribose (cADPR) is a metabolite of NAD+ that is as active as inositol trisphosphate (IP3) in mobilizing intracellular Ca2+ in sea urchin eggs. The activity of the enzyme responsible for synthesizing cADPR is found not only in sea urchin eggs but also in various mammalian tissue extracts, suggesting that cADPR may be a general messenger for Ca2+ mobilization in cells. An aqueous soluble enzyme, thought to be an NADase, has been purified recently from the ovotestis of Aplysia californica (Hellmich and Strumwasser, 1991). This paper shows that the Aplysia enzyme catalyzes the conversion of NAD+ to cADPR and nicotinamide. The Aplysia enzyme was purified by fractionating the soluble extract of Aplysia ovotestis on a Spectra/gel CM column. The purified enzyme appeared as a single band of approximately 29,000 Da on SDS-PAGE but could be further separated into multiple peaks by high-resolution, cation-exchange chromatography. All of the protein peaks had enzymatic activity, indicating that the enzyme had multiple forms differing by charge. Analysis of the reaction products of the enzyme by anion-exchange high-pressure liquid chromatography (HPLC) indicated no ADP-ribose was produced; instead, each mole of NAD+ was converted to equimolar of cADPR and nicotinamide. The identification of the product as cADPR was further substantiated by proton NMR and also by its Ca(2+)-mobilizing activity. Addition of the product to sea urchin egg homogenates induced Ca2+ release and desensitized the homogenate to authentic cADPR but not to IP3. Microinjection of the product into sea urchin eggs elicited Ca2+ transients as well as the cortical exocytosis reaction. Therefore, by the criteria of HPLC, NMR, and calcium-mobilizing activity, the product was identical to cADPR. To distinguish the Aplysia enzyme from the conventional NADases that produce ADP-ribose, we propose to name it ADP-ribosyl cyclase.
Electrophoresis, Niacinamide, Adenosine Diphosphate Ribose - Metabolism, N-Glycosyl Hydrolases - Isolation & Purification - Metabolism, Magnetic Resonance Spectroscopy, 572, Second Messenger Systems, Cd, Nad - Metabolism, Niacinamide - Metabolism, Antigens, CD, Aplysia, Animals, Antigens, ADP-ribosyl Cyclase, N-Glycosyl Hydrolases, Cd38, Chromatography, High Pressure Liquid, Differentiation - Isolation & Purification - Metabolism, Chromatography, Adenosine Diphosphate Ribose, Cyclic ADP-Ribose, Polyacrylamide Gel, 660, Antigens, Cd38, NAD, ADP-ribosyl Cyclase 1, Antigens, Differentiation, Antigens, Differentiation - Isolation & Purification - Metabolism, Kinetics, Antigens, Cd, High Pressure Liquid, Adp-Ribosyl Cyclase, Calcium, Electrophoresis, Polyacrylamide Gel, Calcium - Metabolism, Aplysia - Enzymology, Cyclic Adp-Ribose
Electrophoresis, Niacinamide, Adenosine Diphosphate Ribose - Metabolism, N-Glycosyl Hydrolases - Isolation & Purification - Metabolism, Magnetic Resonance Spectroscopy, 572, Second Messenger Systems, Cd, Nad - Metabolism, Niacinamide - Metabolism, Antigens, CD, Aplysia, Animals, Antigens, ADP-ribosyl Cyclase, N-Glycosyl Hydrolases, Cd38, Chromatography, High Pressure Liquid, Differentiation - Isolation & Purification - Metabolism, Chromatography, Adenosine Diphosphate Ribose, Cyclic ADP-Ribose, Polyacrylamide Gel, 660, Antigens, Cd38, NAD, ADP-ribosyl Cyclase 1, Antigens, Differentiation, Antigens, Differentiation - Isolation & Purification - Metabolism, Kinetics, Antigens, Cd, High Pressure Liquid, Adp-Ribosyl Cyclase, Calcium, Electrophoresis, Polyacrylamide Gel, Calcium - Metabolism, Aplysia - Enzymology, Cyclic Adp-Ribose
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