Investigation of the Mechanism of Phosphoribosylamine Transfer from Glutamine Phosphoribosylpyrophosphate Amidotransferase to Glycinamide Ribonucleotide Synthetase

Abstract

Phosphoribosylamine (PRA) is a product of glutamine phosphoribosylpyrophosphate amidotransferase (PRPP-AT) and a substrate for glycinamide ribonucleotide synthetase (GAR-syn), the first two enzymes in the de novo purine biosynthetic pathway. PRA has a half-life of 5 s under physiological conditions, hydrolyzing to ribose 5-phosphate. The instability of this purine precursor brings to question how the efficiency of transfer from one active site to the next is ensured: Is PRA transferred by free diffusion, or is it transferred directly from one enzyme to the next through a process defined as substrate channeling? Kinetic investigations of reactions containing both enzymes monitoring the appearance of the intermediate PRA and/or the product GAR were performed and compared with the predicted kinetics assuming a free diffusion mechanism of transfer. A significant discrepancy exists between the free diffusion model and the experimental data when the ratios of the two enzymes are varied. To accommodate this discrepancy, a direct transfer mechanism is proposed that is facilitated by protein-protein interactions. Experiments to provide evidence for these stable protein-protein interactions including gel chromatography, fluorescence spectroscopy, chemical cross-linking, and affinity gel chromatography; however, have all been unsuccessful. These results suggest that the requisite channeling interaction between PRPP-AT and GAR-syn, which is indicated by the kinetic results, must be a transient one.