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Glycogen as a fuel:metabolic interaction between glycogen and ATP catabolism in oxygen-independent muscle contraction
Full text linkThe functional logic of 5'nucleotidases
No full textAdenosine- and uridine-cytidine kinases, purine-nucleoside phosphorylase, hypoxanthine-guanine phosphoribosyl transferase, and several related enzymes, are components of the salvage pathways which reduce the loss of intracellular purine and pyrimidine rings. Although this could explain the role of these enzymes, it poses a problem of the role of the cytosolic 5'-nucleotidase. Why are nucleosides produced from nucleoside-monophosphates, only to be converted back to the same compounds? To date, it is well established that a cross talk exists between the extracellular and intracellular nucleoside metabolism. In districts, such as brain, which are dependent on salvage nucleotide synthesis, nucleosides are produced through the action of the ecto-5'-nucleotidase, the last component of a series of plasma-membrane bound enzyme proteins, catalyzing the successive dephosphorylation of released nucleoside-triphosphates. Both nucleosidetriphosphates (mainly ATP and UTP) and nucleosides (mainly adenosine), act as extracellular signals. Once transported into cell cytosol, all nucleosides are salvaged back to nucleoside-triphosphates, with the exception of inosine, whose salvage is limited to IMP. Intracellular balance of nucleosides is maintained by the action of several enzymes, such as adenosine deaminase, uridine phosphorylase and cytidine deaminase, and by at least three 5'-nucleotidases, the ADP activated AMP preferring cN-IA, the ATP-ADP activated IMP-GMP preferring cN-II, and the UMP-CMP preferring cN-III. Here we are reviewing the mechanisms whereby cytosolic 5'-nucleotidases control changes in nucleoside and nucleotide concentration, with the aim to provide a common basis for the study of the relationship between biochemistry and other related disciplines, such as physiology and pharmacology
Osservazioni sul ruolo di alcuni enzimi del metabolismo purinico nel muscolo scheletrico
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THE ROLE OF NUCLEOSIDE TRIPHOSPHATES IN CONTROL OF 3'-AMP AND 5'-AMP DEPHOSPHORYLATION IN CRUDE EXTRACTS OF B-SUBTILIS
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Determinazione del ribosio-1-fosfato in estratti grezzi ottenuti da varie fonti biologiche
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Key role of uridine kinase and uridine phosphorylase in homeostatic regulation of purine and pyrimidine salvage in brain
No full textUridine, the major circulating pyrimidine nucleoside, participating in the regulation of a number of physiological processes, is readily uptaken into mammalian cells. The balance between anabolism and catabolism of intracellular uridine is maintained by uridine kinase, catalyzing the first step of UTP and CTP salvage synthesis, and uridine phosphorylase, catalyzing the first step of uridine degradation to beta-alanine in liver. In the present study we report that the two enzymes have an additional role in the homeostatic regulation of purine and pyrimidine metabolism in brain, which relies on the salvage synthesis of nucleotides from preformed nucleosides and nucleobases, rather than on the de novo synthesis from simple precursors. The experiments were performed in rat brain extracts and cultured human astrocytoma cells. The rationale of the reciprocal regulation of purine and pyrimidine salvage synthesis in brain stands (i) on the inhibition exerted by UTP and CTP, the final products of the pyrimidine salvage pathway, on uridine kinase and (ii) on the widely accepted idea that pyrimidine salvage occurs at the nucleoside level (mostly uridine), while purine salvage is a 5-phosphoribosyl-1-pyrophosphate (PRPP)-mediated process, occurring at the nucleobase level. Thus, at relatively low UTP and CTP level, uptaken uridine is mainly anabolized to uridine nucleotides. On the contrary, at relatively high UTP and CTP levels the inhibition of uridine kinase channels uridine towards phosphorolysis. The ribose-1-phosphate is then transformed into PRPP, which is used for purine salvage synthesis
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