Use of potato tuber nucleotide pyrophosphatase to synthesize adenosine 5'-monophosphate methyl ester: evidence that the solvolytic preferences of the enzyme are regulated by pH and temperature.

Nucleotide alkyl esters are pharmacologically important as potential (ant)agonists of purinoceptors and inhibitors of enzymes. Potato nucleotide pyrophosphatase (PNP) was compared with snake venom phosphodiesterase (SVP) as a catalyst to synthesize nucleotide alkyl esters. In methanol-water mixtures, the methanolysis/hydrolysis ratio of PNP, but not SVP, changed with pH and temperature, being optimal at high pH and low temperature. In a semi-preparative experiment, a crude PNP preparation produced 0.17 mM AMP-O-methyl ester (AMP-OMe) from 1 mM diadenosine 5',5"'-P1,P2-diphosphate (AppA) and 5M methanol, at pH 9 and 0 degrees C. Drawbacks to large-scale use are: low rates inherent to low temperatures, ATP unsuitability as a substrate for alcoholysis, and high cost of AppA. Advantages of PNP vs. SVP are cheapness, non-toxicity, and availability of the enzyme source.