Properties of xanthosine 5'-monophosphate-amidotransferase from Escherichia coli.

Xanthosine 5′-phosphate (XMP)-amidotransferase catalyzes the formation of guanosine 5′-phosphate (GMP) by aminating XMP with either the amide group of glutamine (amidotransferase) or ammonia (aminase). The glutamine-supported activity of the purified enzyme from Escherichia coli has been studied, and its properties have been compared with those of other amidotransferases. The following results have been obtained. (i) The glutamine analog, 6-diazo-5-oxo-l-norleucine (DON), irreversibly inhibits the amidotransferase activity. A maximal rate of inhibition by DON is achieved in the presence of XMP, ATP, and Mg²⁺ with a pseudo-first-order rate constant of 0.276 min^?1. (ii) The total number of sulfhydryl groups is approximately 22 per dimer (126,000 M_r). In the absence of substrates, about 8 sulfhydryl groups per dimer are titratable with 5,5-dithiobis(2-nitrobenzoic acid) (DTNB), and in the presence of XMP, ATP, and Mg²⁺ an additional 6 cysteine residues per dimer become exposed. When the amidotransferase activity is inactivated by DON, only 8 sulfhydryl groups are titratable. DTNB, p-chloromercuribenzoate, and bromopyruvate all selectively inactivate the amidotransferase activity. These results are consistent with the hypothesis that cysteine residues which are exposed by the substrates are involved in the amidotransferase activity. (iii) The purified XMP amidotransferase contains a glutaminase activity which can be measured in the absence of GMP formation. The glutaminase activity requires XMP, Mg²⁺, and either psicofuranine, an analog of adenosine, or inorganic pyrophosphate (PP_i) and is inhibited by p-chloromercuribenzoate and DON. Maximal stimulation is observed with 100 μm psicofuranine or PP_i, and there is no further stimulation in the presence of both effectors. The apparent K_m is 31 μm with PP_i and 13 μm with psicofuranine; the V for glutamine hydrolysis is about 60% of the rate of the amidotransferase activity. The cooperative interactions between the binding of PP_i and psicofuranine have been confirmed. In the presence of 2.5 μm psicofuranine the K_m for PP_i is reduced 20-fold, but the maximal velocity is unchanged. Similarly, the apparent K_m for psicofuranine is reduced by low concentrations (10 μm) of PP_i. The “uncoupling” of the hydrolysis of glutamine from the amination of XMP is the basis for the reported inhibitory effects of psicofuranine and PP_i on the amidotransferase activity. (iv) Tris buffer selectively inhibits the XMP-amidotransferase activity by inhibiting the glutaminase activity. This inhibition is time dependent and reversible and may explain the previous reports on the inability of this enzyme to use glutamine as a substrate.