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Hong Zhao Christopher R. Chiaro Limin Zhang Philip B. Smith Chung Yu Chan Anthony M. Pedley Raymond J. Pugh Jarrod B. French Andrew D. Patterson Stephen J. Benkovic 《The Journal of biological chemistry》2015,290(11):6705-6713
Enzymes in the de novo purine biosynthesis pathway are recruited to form a dynamic metabolic complex referred to as the purinosome. Previous studies have demonstrated that purinosome assembly responds to purine levels in culture medium. Purine-depleted medium or 2-dimethylamino-4,5,6,7-tetrabromo-1H-benzimidazole (DMAT) treatment stimulates the purinosome assembly in HeLa cells. Here, several metabolomic technologies were applied to quantify the static cellular levels of purine nucleotides and measure the de novo biosynthesis rate of IMP, AMP, and GMP. Direct comparison of purinosome-rich cells (cultured in purine-depleted medium) and normal cells showed a 3-fold increase in IMP concentration in purinosome-rich cells and similar levels of AMP, GMP, and ratios of AMP/GMP and ATP/ADP for both. In addition, a higher level of IMP was also observed in HeLa cells treated with DMAT. Furthermore, increases in the de novo IMP/AMP/GMP biosynthetic flux rate under purine-depleted condition were observed. The synthetic enzymes, adenylosuccinate synthase (ADSS) and inosine monophosphate dehydrogenase (IMPDH), downstream of IMP were also shown to be part of the purinosome. Collectively, these results provide further evidence that purinosome assembly is directly related to activated de novo purine biosynthesis, consistent with the functionality of the purinosome. 相似文献
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Yijun Deng Jongsik Gam Jarrod B. French Hong Zhao Songon An Stephen J. Benkovic 《The Journal of biological chemistry》2012,287(43):36201-36207
The enzymes in the human de novo purine synthesis pathway were found to form a cellular complex, the purinosome, upon culturing cells in purine-depleted medium (An, S., Kumar R., Sheets, E. D., and Benkovic, S. J. (2008) Science 320, 103–106). Purinosome formation and dissociation were found to be modulated by several factors, including the microtubule network and cell signaling involving protein phosphorylation. To determine whether the pathway enzymes are in physical contact, we probed for the protein-protein interactions (PPIs) within the purinosome with a novel application of the Tango PPI reporter system (Barnea, G., Strapps, W., Herrada, G., Berman, Y., Ong, J., Kloss, B., Axel, R., and Lee, K. J. (2008) Proc. Natl. Acad. Sci. U.S.A. 105, 64–69). We found PPIs among all six enzymes within the pathway and evidence for a core involving the first three enzymes. We also captured purinosomes under both purine-rich and purine-depleted conditions. The results provide additional insights into the transient nature and topography of the purinosome. 相似文献
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Purine nucleotides, generated by de novo synthesis and salvage pathways, are essential for metabolism and act as building blocks of genetic material. To avoid an imbalance in the nucleotide pool, nature has devised several strategies to regulate/tune the catalytic performance of key purine metabolic enzymes. Here, we discuss some recent examples, such as stress-regulating alarmones that bind to select pathway enzymes, huge ensembles like dynamic metabolons and self-assembled filaments that highlight the layered fine-control prevalent in the purine metabolic pathway to fulfill requisite purine demands. Examples of enzymes that turn-on only under allosteric control, are regulated via long-distance communication that facilitates transient conduits have additionally been explored. 相似文献
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