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5′-methylthioadenosine phosphorylase—I

1981; Elsevier BV; Volume: 30; Issue: 3 Linguagem: Inglês

10.1016/0006-2952(81)90077-0

1873-2968

Todd M. Savarese, Gerald W. Crabtree, Robert E. Parks,

Cancer-related gene regulation

5′-Deoxy-5′-methylthioadenosine phosphorylase (MTA phosphorylase), an enzyme involved in the salvage of adenine moieties from 5′-deoxy-5′-methylthioadenosine (MTA) produced primarily during polyamine biosynthesis, is present in Sarcoma 180 cells (0.0026 ± 0.0002 μM units/mg cytosol protein). 5′-Deoxyadenosine (5′-dAdo), an adenosine analog previously thought not to be metabolizable, has been shown [D. Hunting and J.F. Henderson, Biochem. Pharmac. 27, 2163 (1978)] to have a number of biochemical effects on Ehrlich ascites cells. We have now found that 5′-dAdo is a substrate for the MTA phosphorylase from Sarcoma 180 cells, yielding free adenine and 5-deoxyribose-1-phosphate. The reaction was reversible and totally dependent upon phosphate. Evidence that MTA phosphorylase is responsible for 5′-dAdo phosphorylase activity includes the following: (1) Sarcoma 180 MTA phosphorylase preparations did not show additive rates of adenine production in the presence of saturating concentrations of both 5′-dAdo and MTA; (2) double-reciprocal plots of the rates of adenine formation from 5′-dAdo by Sarcoma 180 enzyme preparations in the presence of MTA displayed a pattern characteristic of alternative, competing substrates; (3) the rate of depletion of 5′-dAdo by Sarcoma 180 preparations was inhibited by the presence of MTA; (4) the Ki value of a competitive inhibitor of Sarcoma 180 MTA phosphorylase, 5′-deoxy-5′-chloroformycin, was the same when either MTA or 5′-dAdo was employed as substrate; and (5) the apparent Km values of phosphate for both MTA and 5′-dAdo phosphorylase activities were identical (3.5mM). The Km of Sarcoma 180 MTA phosphorylase for MTA is 4 μM; the Km for 5′-dAdo is 23 μM (Vmax relative to MTA = 180 per cent). Incubation of Sarcoma 180 cells with either 5′-dAdo or MTA caused profound elevations of adenine nucleotides, as well as an inhibition of 5-phosphoribosyl-l-pyrophosphate (PRPP) accumulation. The reaction of 5′-dAdo with MTA phosphorylase to yield free adenine, which is then salvaged to adenine nucleotides, can account for many of the previously reported biochemical effects of 5′-dAdo, such as inhibitions of PRPP accumulation, purine de novo synthesis, and glycolysis that have previously been attributed to the unmetabolized nucleoside. The other product of this reaction, 5-deoxyribose-l-phosphate, may also contribute to these effects.