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Query: UMLS:C0038187 (starvation)
 24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pools of arginine and ornithine rapidly disappear during nitrogen starvation of Neurospora crassa. Much of this disappearance can be accounted for by degradation catalyzed by preexisting catabolic enzymes. Purine degradation is also initiated by nitrogen metabolic stress. Mobilization of these compounds into degradative reactions does not appear to be a general response to nutritional stress since neither carbon starvation nor inhibition of protein synthesis elicits this response. It is suggested that nitrogen starvation may specifically alter the distribution of arginine and ornithine between vesicles and cytosol. This would be sufficient to initiate and maintain their degradation. These result suggest that compartmentation of amino acids provides a metabolic reserve to be utilized during periods of specific nutritional stress.
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PMID:Mobilization of sequestered metabolities into degradative reactions by nutritional stress in Neurospora. 15 15

Caffeine, at doses which enhance the killing action of ultraviolet light, inhibits both de novo synthesis and the utilization of exogenous purines in cultured CHO-K1, a Chinese hamster ovary cell line. The decrease in synthesis was measured as inhibition by caffeine of the accumulation of phosphoribosylformylglycineamide or of phosphoribosylaminoimidazolecarboxamide, the fourth and ninth intermediates, respectively, in the de novo biosynthetic pathway. The effect is dose dependent, with a caffeine concentration of 7.5 mM producing a 90% reduction in 15 min. Interference with utilization of exogenous purines was seen as a substantial decrease in the conversion of [14C]hypoxanthine, [14C]adenine, or [14C]guanine into their respective di- and triphosphates in the presence of caffeine. Purine deprivation either by starvation of purine-requiring mutants or by treatment of parental cells with methylmercaptopurine ribonucleoside, a known inhibitor of purine synthesis, results in a partial sensitization to killing by ultraviolet light which can be maximized by the addition of caffeine. Thus, one of the ways by which antimetabolites and caffeine act to enhance ultraviolet light killing may be by interference with the supply of purine nucleotides needed for repair.
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PMID:Effects of caffeine on purine metabolism and ultraviolet light-induced lethality in cultured mammalian cells. 49 24

Purine and pyrimidine metabolites were measured in erythrocytes, plasma, and urine of a 5-month-old infant with adenosine deaminase (adenosine aminohydrolase, EC 3.5.4.4) deficiency. Adenosine and adenine were measured using newly devised ion exchange separation techniques and a sensitive fluorescence assay. Plasma adenosine levels were increased, whereas adenosine was normal in erythrocytes and not detectable in urine. Increased amounts of adenine were found in erythrocytes and urine as well as in the plasma. Erythrocyte adenosine 5'-monophosphate and adenosine diphosphate concentrations were normal, but adenosine triphosphate content was greatly elevated. Because of the possibility of pyrimidine starvation, pyrimidine nucleotides (pyrimidine coenzymes) in erythrocytes and orotic acid in urine were measured. Pyrimidine nucleotide concentrations were normal, while orotic acid was not detected. These studies suggest that the immune deficiency associated with adenosine deaminase deficiency may be related to increased amounts of adenine, adenosine, or adenine nucleotides.
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PMID:Purine metabolism in adenosine deaminase deficiency. 106 99

Leishmania donovani promastigotes have previously been shown to possess a surface membrane bound 3'-nucleotidase/nuclease (3'-N'ase) capable of hydrolyzing both nucleic acids and 3'-ribonucleotides. The specific activity of the 3'-N'ase was increased following transfer of the parasites to fresh, nutrient-replete media or to media lacking purines and/or inorganic phosphate (Pi). In nutrient-replete media, the enzyme activity was transiently elevated during the lag and early logarithmic phases of the growth curve; enzyme activity fell as the cells continued into late log and stationary phases. Purine- and Pi-starved cells exhibited significantly greater levels of 3'-N'ase activity than nutrient-replete cells. These levels remained elevated as long as the organisms were maintained in the deficient media. Nutrient-replete and purine-starved 125I surface-labeled parasites displayed differences in electrophoretic patterns. Upon purine starvation, incorporation of radiolabel was increased in proteins which migrated with apparent molecular weights of 70, 43, and 40 kDa. Comigration, in both one- and two-dimensional systems, of 3'-N'ase activity with the radiolabeled 43-kDa band demonstrated that this band was the catalytically active protein. Peptide mapping of the 70-, 43-, and 40-kDa proteins failed to demonstrate similarities in peptide sequence consistent with either a degradation or a precursor/product relationship. Treatment of the 43- and 40-kDa peptides with N-Glycanase indicated that they were differentially glycosylated. The cumulative results of these studies indicated that L. donovani can respond to altered culture conditions by the differential expression of surface proteins. In particular, the differential expression of the protein responsible for 3'-N'ase activity is consistent with the role of this enzyme in purine acquisition.
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PMID:Leishmania donovani: regulated changes in the level of expression of the surface 3'-nucleotidase/nuclease. 216 52

Purine content and its alterations during a starvation period of 29 days and an infection period of 52 days were studied. During starvation the amount of uric acid increased from 2.11 +/- 0.95 mg/g dry wt in control snails to a maximum of 6.73 +/- 3.99 mg/g dry wt on day 29 of starvation for uric acid and from 4.73 +/- 2.10 mg/g dry wt in control snails to a maximum of 11.29 +/- 3.48 mg/g dry wt on day 23 of starvation for guanine. During infection there was an increase with both uric acid and guanine to maximum on day 40 post infection (7.17 +/- 3.51 mg/g dry wt for uric acid, 14.83 +/- 4.53 mg/g dry wt for guanine) and a decrease afterwards. Of all the snails' organs tested, only in the kidney were purines detectable, but it was impossible to find excreted purines.
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PMID:Purine metabolism in Biomphalaria glabrata under starvation and infection with Schistosoma mansoni. 664 Nov 59

The utilization of S-adenosyl-L-[methyl-3H]methionine ([3H-methyl]AdoMet) by Crithidia luciliae was assessed under nutrient-replete and purine-starvation conditions. Uptake experiments with intact cells demonstrated that the radiolabel from this molecule was accumulated by purine-starved organisms at a rate approximately 10-fold greater than that observed in those cultivated in nutrient-replete medium. Purine-starved cells also incorporated the radiolabel into trichloroacetic acid insoluble material at an approximately 10-fold faster rate than nutrient-replete cells. No differences, however, were observed in the intracellular levels of AdoMet and its metabolites between organisms cultivated under the two conditions. Results of comparative labeling studies with [3H-methyl]AdoMet, S-adenosyl-L-[carboxyl-14C]methionine, L-[methyl-3H]methionine and L-[35S]methionine in the presence and absence of cycloheximide demonstrated that the incorporation of label from [3H-methyl]AdoMet was due to transmethylation and was independent of protein synthesis. Further, approximately 15 methylated protein bands were identified by SDS-PAGE analysis. Lysates from both purine-starved and nutrient-replete organisms demonstrated similar levels of activity of three protein methyltransferases (PMI, II, III). The differences observed in [3H-methyl]AdoMet utilization between purine-starved and nutrient-replete C. luciliae may reflect the enhanced purine transport capacity which results from purine starvation.
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PMID:Crithidia luciliae: effect of purine starvation on S-adenosyl-L-methionine uptake and protein methylation. 854 93

Purine deoxyribonucleotides required for mitochondrial DNA replication are either imported from the cytosol or derived from phosphorylation of deoxyadenosine or deoxyguanosine catalyzed by mitochondrial deoxyguanosine kinase (DGUOK). DGUOK deficiency has been linked to mitochondrial DNA depletion syndromes suggesting an important role for this enzyme in dNTP supply. We have generated HeLa cell lines with 20-30% decreased levels of DGUOK mRNA by the expression of small interfering RNAs directed towards the DGUOK mRNA. The cells with decreased expression of the enzyme showed similar levels of mtDNA as control cells when grown exponentially in culture. However, mtDNA levels rapidly decreased in the cells when cell cycle arrest was induced by serum starvation. DNA incorporation of 9-beta-d-arabino-furanosylguanine (araG) was lower in the cells with decreased deoxyguanosine kinase expression, but the total rate of araG phosphorylation was increased in the cells. The increase in araG phosphorylation was shown to be due to increased expression of deoxycytidine kinase. In summary, our findings show that DGUOK is required for mitochondrial DNA replication in resting cells and that small changes in expression of this enzyme may cause mitochondrial DNA depletion. Our data also suggest that alterations in the expression level of DGUOK may induce compensatory changes in the expression of other nucleoside kinases.
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PMID:Depletion of mitochondrial DNA by down-regulation of deoxyguanosine kinase expression in non-proliferating HeLa cells. 1749 Jun 47

Plasmodium falciparum, the primary cause of deaths from malaria, is a purine auxotroph and relies on hypoxanthine salvage from the host purine pool. Purine starvation as an antimalarial target has been validated by inhibition of purine nucleoside phosphorylase. Hypoxanthine depletion kills Plasmodium falciparum in cell culture and in Aotus monkey infections. Hypoxanthine-guanine-xanthine phosphoribosyltransferase (HGXPRT) from P. falciparum is required for hypoxanthine salvage by forming inosine 5'-monophosphate, a branchpoint for all purine nucleotide synthesis in the parasite. Here, we present a class of HGXPRT inhibitors, the acyclic immucillin phosphonates (AIPs), and cell permeable AIP prodrugs. The AIPs are simple, potent, selective, and biologically stable inhibitors. The AIP prodrugs block proliferation of cultured parasites by inhibiting the incorporation of hypoxanthine into the parasite nucleotide pool and validates HGXPRT as a target in malaria.
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PMID:Acyclic immucillin phosphonates: second-generation inhibitors of Plasmodium falciparum hypoxanthine-guanine-xanthine phosphoribosyltransferase. 2272 86

Nitrogen availability is one of the most important factors for the survival of cyanobacteria. Previous studies on Synechocystis revealed a contradictory situation with regard to metabolism during nitrogen starvation; that is, glycogen accumulated even though the expressions of sugar catabolic genes were widely upregulated. Here, we conducted transcript and metabolomic analyses using capillary electrophoresis-mass spectrometry on Synechocystis sp. PCC 6803 under nitrogen starvation. The levels of some tricarboxylic acid cycle intermediates (succinate, malate and fumarate) were greatly increased by nitrogen deprivation. Purine and pyrimidine nucleotides were markedly downregulated under nitrogen depletion. The levels of 19 amino acids changed under nitrogen deprivation, especially those of amino acids synthesized from pyruvate and phosphoenolpyruvate, which showed marked increases. Liquid chromatography-mass spectrometry analysis demonstrated that the amount of NADPH and the NADPH/NADH ratio decreased under nitrogen depletion. These data demonstrate that there are increases in not only glycogen but also in metabolites downstream of sugar catabolism in Synechocystis sp. PCC 6803 under nitrogen starvation, resolving the contradiction between glycogen accumulation and induction of sugar catabolic gene expression in this unicellular cyanobacterium.
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PMID:Capillary electrophoresis-mass spectrometry reveals the distribution of carbon metabolites during nitrogen starvation in Synechocystis sp. PCC 6803. 2379 28

The ability of Leishmania to survive in their insect or mammalian host is dependent upon an ability to sense and adapt to changes in the microenvironment. However, little is known about the molecular mechanisms underlying the parasite response to environmental changes, such as nutrient availability. To elucidate nutrient stress response pathways in Leishmania donovani, we have used purine starvation as the paradigm. The salvage of purines from the host milieu is obligatory for parasite replication; nevertheless, purine-starved parasites can persist in culture without supplementary purine for over three months, indicating that the response to purine starvation is robust and engenders parasite survival under conditions of extreme scarcity. To understand metabolic reprogramming during purine starvation we have employed global approaches. Whole proteome comparisons between purine-starved and purine-replete parasites over a 6-48 h span have revealed a temporal and coordinated response to purine starvation. Purine transporters and enzymes involved in acquisition at the cell surface are upregulated within a few hours of purine removal from the media, while other key purine salvage components are upregulated later in the time-course and more modestly. After 48 h, the proteome of purine-starved parasites is extensively remodeled and adaptations to purine stress appear tailored to deal with both purine deprivation and general stress. To probe the molecular mechanisms affecting proteome remodeling in response to purine starvation, comparative RNA-seq analyses, qRT-PCR, and luciferase reporter assays were performed on purine-starved versus purine-replete parasites. While the regulation of a minority of proteins tracked with changes at the mRNA level, for many regulated proteins it appears that proteome remodeling during purine stress occurs primarily via translational and/or post-translational mechanisms.
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PMID:Metabolic reprogramming during purine stress in the protozoan pathogen Leishmania donovani. 2458 54


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