UMLS:C0038187 - FACTA Search

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

Two carbamyl phosphate synthetases, the first an arginine-synthetic enzyme (CPS(arg)) and the second a pyrimidine-synthetic enzyme (CPS(pyr)), are shown to be present in Neurospora. The two enzymes can be separated on the basis of size and are distinguished by several different properties. Both CPS(pyr) and CPS(arg) have substrate requirements of adenosine triphosphate, HCO(3) (-), and l-glutamine, although NH(4) (+) in high concentration will partially replace glutamine. CPS(pyr) activity can be completely inhibited by 5 x 10(-4) to 10 x 10(-4)m uridine triphosphate (UTP). CPS(pyr) is cold-labile and can be protected against cold inactivation by UTP. The synthesis of CPS(pyr) and aspartate transcarbamylase (ATC), the initial enzymatic steps of the pyrimidine pathway, are co-derepressed by pyrimidine starvation. Mutations affecting CPS(pyr) and ATC all map at the same locus, pyr-3. Three classes of mutants with respect to the two activities were found: CPS(+)ATC(-), CPS(-)ATC(+), and CPS(-)ATC(-). The distribution of these mutants on the genetic map, together with other data, indicate that the two activities are carried by a bifunctional protein.
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PMID:Pyrimidine-specific carbamyl phosphate synthetase in Neurospora crassa. 543 4

The effects of guanosine tetraphosphate (ppGpp) and pyrimidine ribonucleoside triphosphates on Escherichia coli aspartate transcarbamylase (ATCase) synthesis were examined. To determine the effect of ppGpp, a stringent (relA+) and relaxed (relA) isogenic pair of E. coli K-12 strains was starved for isoleucine, and the residual rate of synthesis of this enzyme was measured. It was necessary to starve the strains for uracil before the isoleucine limitation to maintain similar, low levels of UTP, the putative pyrimidine effector of ATCase synthesis. The isoleucine starvation of the stringent strain caused an immediate 10-fold increase in the intracellular concentration of ppGpp, which was coincident with the cessation of the synthesis of the enzyme. The elevated level of ppGpp then decayed until it reached an intracellular concentration similar to that found in unstarved cells. Enzyme synthesis resumed at this time. In the relaxed strain, the intracellular concentration of ppGpp did not increase upon isoleucine starvation and synthesis of the enzyme was not repressed. These experiments strongly indicated that ppGpp acts as a negative effector of ATCase synthesis. The repression of ATCase synthesis by ppGpp was demonstrated directly by using a Salmonella typhimurium (relA) in vitro coupled transcription-translation system with a lambda specialized transducing phage carrying the E. coli K-12 operon encoding the subunits of this enzyme (pyrBI) as a source of DNA. This in vitro system was also used to measure the effects of UTP and CTP on ATCase synthesis. Increasing the concentration of UTP in the in vitro reaction mixture resulted in strong repression of this synthesis, whereas increasing the CTP concentration did not affect synthesis significantly. Possible mechanisms for the regulation of pyr gene expression, including attenuation control, are discussed.
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PMID:Regulation of Escherichia coli aspartate transcarbamylase synthesis by guanosine tetraphosphate and pyrimidine ribonucleoside triphosphates. 633 30

The regulatory role of autonomic nerves in liver regeneration after partial hepatectomy was studied in rats by bilateral subdiaphragmatic vagotomy or splanchnicectomy. 1. In control rats the wet weight of the regenerating liver was restored to approximately 80% of the preoperative weight 72 h after partial hepatectomy. Restoration of the liver weight was significantly impaired in vagotomy rats, but not in splanchnicectomy. Increases in the DNA and protein contents of the regenerating liver were also suppressed by vagotomy. 2. Hepatic DNA synthesis, measured as the incorporation of [methyl-3H]thymidine into DNA at various times after partial hepatectomy, was significantly less in vagotomized rats, and slightly more in splanchnicectomized rats than in control rats. The onset of DNA synthesis triggered by partial hepatectomy was also delayed by vagotomy. 3. The increases in activities of hepatic aspartate transcarbamoylase and thymidine kinase, the key enzymes in synthesis of pyrimidine nucleotides via the de novo and salvage pathways respectively, during liver regeneration, were significantly suppressed and retarded in vagotomized rats. Conversely, splanchnicectomy tended to stimulate these enzyme inductions after partial hepatectomy. 4. During starvation the plasma insulin level decreased after partial hapatectomy in control and vagotomized rats, as in sham-operated rats, but showed a transient increase 6 h after partial hepatectomy in splanchnicectomized rats. It is concluded that vagotomy inhibits and delays DNA synthesis and proliferation of liver cells after partial hepatectomy, whereas splanchnicectomy tends to stimulate these processes. The data also suggest that parasympathetic innervation of the liver may play an important regulatory role in liver regeneration.
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PMID:Effect of autonomic denervation on DNA synthesis during liver regeneration after partial hepatectomy. 634 92

PALA (N-phosphonoacetyl-L-aspartate) impairs de novo pyrimidine biosynthesis by inhibiting the enzyme aspartate transcarbamylase. During cancer chemotherapy trials the drug was given by weekly intravenous infusion. Seizures developed in 9 (11%) of the first 80 patients to receive a total dose of 9 gm/m2 or more. Seven of the affected patients had structural brain lesions; they developed seizures at a lower total dose (median of 16.4 gm/m2) than the 2 patients without clinically detectable brain lesions (115 to 130 gm/m2). Reversible encephalopathy was observed in 6 (7.5%) additional patients without clinically detectable cause other than PALA. Both seizures and encephalopathy began after the second dose of PALA or later. Experiments in rats demonstrated similar delayed-onset seizures after two or three combined systemic and intracerebral doses of PALA at 4-day intervals. Concurrent administration of uridine or carbamyl aspartate prevented the development of seizures in rats, indicating that pyrimidine starvation of the central nervous system was responsible for PALA neurotoxicity.
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PMID:Neurotoxicity of the pyrimidine synthesis inhibitor N-phosphonoacetyl-L-aspartate. 712 6

The widely used and closely related Escherichia coli "wild types" W3110 and MG1655, as well as their common ancestor W1485, starve for pyrimidine in minimal medium because of a suboptimal content of orotate phosphoribosyltransferase, which is encoded by the pyrE gene. This conclusion was based on the findings that (i) the strains grew 10 to 15% more slowly in pyrimidine-free medium than in medium containing uracil; (ii) their levels of aspartate transcarbamylase were highly derepressed, as is characteristic for pyrimidine starvation conditions; and (iii) their levels of orotate phosphoribosyltransferase were low. After introduction of a plasmid carrying the rph-pyrE operon from strain HfrH, the growth rates were no longer stimulated by uracil and the levels of aspartate transcarbamylase were low and similar to the levels observed for other strains of E. coli K-12, E. coli B, and Salmonella typhimurium. To identify the mutation responsible for these phenotypes, the rph-pyrE operon of W3110 was cloned in pBR322 from Kohara bacteriophage lambda 2A6. DNA sequencing revealed that a GC base pair was missing near the end of the rph gene of W3110. This one-base-pair deletion results in a frame shift of translation over the last 15 codons and reduces the size of the rph gene product by 10 amino acid residues relative to the size of RNase PH of other E. coli strains, as confirmed by analysis of protein synthesis in minicells. The truncated protein lacks RNase PH activity, and the premature translation stop in the rph cistron explains the low levels of orotate phosphoribosyltransferase in W3110, since close coupling between transcription and translation is needed to support optimal levels of transcription past the intercistronic pyrE attenuator.
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PMID:The Escherichia coli K-12 "wild types" W3110 and MG1655 have an rph frameshift mutation that leads to pyrimidine starvation due to low pyrE expression levels. 850 Oct 45

Cells often acquire resistance to the antiproliferative agents methotrexate (MTX) or N-phosphonacetyl-L-aspartate (PALA) through amplification of genes encoding the target enzymes dihydrofolate reductase or carbamylphosphate synthetase/aspartate transcarbamylase/dihydroorotase (CAD), respectively. We showed previously that Syrian hamster BHK cells resistant to selective concentrations of PALA (approximately 3 x ID50) arise at a rate of approximately 10(-4) per cell per generation and contain amplifications of the CAD gene as ladder-like structures on one of the two B9 chromosomes, where CAD is normally located. We now find that BHK cells resistant to high concentrations of PALA (approximately 15 x ID50) appear only after prior exposure to selective concentrations of PALA for approximately 72 h. Furthermore, in contrast to untreated cells, BHK cells pretreated with selective concentrations of MTX give colonies in high concentrations of PALA, and cells pretreated with selective concentrations of PALA give colonies in high concentrations of MTX or 5-fluorouracil. As judged by measuring numbers of cells and metaphase cell pairs, BHK cells do not arrest completely when starved for pyrimidine nucleotides by treatment with selective concentrations of PALA for up to 72 h. We propose that DNA damage, caused when cells fail to stop DNA synthesis promptly under conditions of dNTP starvation, stimulates amplification throughout the genome by mechanisms--such as bridge-breakage-fusion cycles--that are triggered by broken DNA. Amplified CAD genes were analyzed by fluorescence in situ hybridization both in cells where amplification was induced by PALA pretreatment and in cells in which the amplification occurred spontaneously, before selection with PALA. The ladder-like structures that result from bridge-breakage-fusion cycles were observed in both cases.
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PMID:Inefficient growth arrest in response to dNTP starvation stimulates gene amplification through bridge-breakage-fusion cycles. 886 64

The six biochemical steps of the de novo pyrimidine biosynthesis pathway are conserved in all known organisms. However, in animals and fungi, unlike prokaryotes, at least the first two activities are grouped on a multifunctional enzyme. Here, we report cloning, mapping and transcriptional characterization of some pyrimidine biosynthesis genes in the filamentous fungus Aspergillus nidulans. The first two steps of the pathway are performed by a multifunctional enzyme comprising the activities of carbamoyl phosphate synthetase (CPSase) and aspartate transcarbamylase (ATCase). This polypeptide is encoded by a 7 kbp cluster gene, pyrABCN, which has a high degree of nucleotide identity with the Ura2 gene in Saccharomyces cerevisiae. The enzyme of the third step, dihydroorotase (DHOase), is encoded by a separate locus, pyrD. However, the pyrABCN gene apparently contains an evolutionary remnant of a DHOase-encoding sequence, similarly to the Ura2 gene of Saccharomyces cerevisiae. The pyrABCN gene is transcribed as a single 7 kb mRNA species. The level of transcripts of pyrABCN, pyrD and, to a lesser degree, pyrF genes responds to the presence of exogenous pyrimidines and to the conditions of pyrimidine starvation. Derepression of pyrABCN and pyrD under pyrimidine starvation is noticeably enhanced in pyrE mutants that accumulate dihydroorotic acid. The pyrABCN gene maps to the distal portion of the right arm of the chromosome VIII, whereas the pyrD gene, in contrast to early genetic data, is closely linked to the brlA gene and located to the right of it. Our data on mitotic recombination should help to verify the genetic map of the chromosome VIII. Comparison of amino acid sequences of active dihydroorotases with related enzymes and with their non-functional homologues in yeast and Aspergillus indicates that the active dihydroorotases from fungi are more similar to ureases and enzymes of the pyrimidine degradation pathway. The 'silent' dihydroorotase domains of the multifunctional enzymes from fungi and active DHOase domains of the multifunctional enzymes in higher eukaryotes are more closely related to bacterial dehydroorotases.
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PMID:Structural and transcriptional analysis of the pyrABCN, pyrD and pyrF genes in Aspergillus nidulans and the evolutionary origin of fungal dihydroorotases. 1041 50

De novo pyrimidine biosynthesis is activated in proliferating cells in response to an increased demand for nucleotides needed for DNA synthesis. The pyrimidine biosynthetic pathway in baby hamster kidney cells, synchronized by serum deprivation, was found to be up-regulated 1.9-fold during S phase and subsequently down-regulated as the cells progressed through the cycle. The nucleotide pools were depleted by serum starvation and were not replenished during the first round of cell division, suggesting that the rate of utilization of the newly synthesized nucleotides closely matched their rate of formation. The activation and subsequent down-regulation of the pathway can be attributed to altered allosteric regulation of the carbamoyl-phosphate synthetase activity of CAD (carbamoyl-phosphate synthetase-aspartate carbamoyltransferase-dihydroorotase), a multifunctional protein that initiates mammalian pyrimidine biosynthesis. As the culture approached S-phase there was an increased sensitivity to the allosteric activator, 5-phosphoribosyl-1-pyrophosphate, and a loss of UTP inhibition, changes that were reversed when cells emerged from S phase. The allosteric regulation of CAD is known to be modulated by MAP kinase (MAPK) and protein kinase A (PKA)-mediated phosphorylations as well as by autophosphorylation. CAD was found to be fully autophosphorylated in the synchronized cells, but the level remained invariant throughout the cycle. Although the MAPK activity increased early in G(1), the phosphorylation of the CAD MAPK site was delayed until just before the onset of S phase, probably due to antagonistic phosphorylation by PKA that persisted until late G(1). Once activated, pyrimidine biosynthesis remained elevated until rephosphorylation of CAD by PKA and dephosphorylation of the CAD MAPK site late in S phase. Thus, the cell cycle-dependent regulation of pyrimidine biosynthesis results from the sequential phosphorylation and dephosphorylation of CAD under the control of two important signaling cascades.
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PMID:Cell cycle-dependent regulation of pyrimidine biosynthesis. 1243 17

The effect of carbon source on the regulation of the de novo pyrimidine biosynthetic enzymes in the bacterium Pseudomonas mendocina was studied. When glucose was the carbon source, orotic acid supplementation of P. mendocina cells produced the greatest depression of aspartate transcarbamoylase, dihydroorotate dehydrogenase and orotate phosphoribosyltransferase activities while P. mendocina cells grown in the presence of uracil caused the maximal decrease in dihydroorotase and OMP decarboxylase activities. After the pyrimidine starvation of an orotate phosphoribosyltransferase mutant strain of P. mendocina grown on glucose, the pyrimidine biosynthetic pathway enzyme activities were generally diminished. With respect to pyrimidine starvation studies, the carbon source glucose appeared to lessen regulation at the level of enzyme synthesis compared to what has been observed when succinate served as the carbon source. The regulation of the pyrimidine biosynthetic pathway by carbon source in P. mendocina appeared to differ from how carbon source influenced the control of pyrimidine biosynthesis in the closely-related species Pseudomonas stutzeri.
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PMID:Influence of carbon source on pyrimidine synthesis in Pseudomonas mendocina. 1462 4

Arabidopsis seedlings grown for 14 d without phosphate (P) exhibited stunted growth and other visible symptoms associated with P deficiency. RNA contents in shoots decreased nearly 90%, relative to controls. In shoots, expression of Pht1;2, encoding an inducible high-affinity phosphate transporter, increased threefold, compared with controls, and served as a molecular marker for P limitation. Transcript levels for five enzymes (aspartate transcarbamoylase, ATCase, EC 2.1.3.2; carbamoyl phosphate synthetase, CPSase, EC 6.3.5.5); UMP synthase, EC 2.4.1.10, EC 4.1.1.23; uracil phosphoribosyltransferase, UPRTase, EC 2.4.2.9; UMP kinase, EC 2.7.1.14) increased 2-10-fold in response to P starvation in shoots. These enzymes, which utilize phosphorylated intermediates at putative regulated steps in de novo synthesis and salvaging pathways leading to UMP and pyrimidine nucleotide formation, appear to be coordinately regulated, at the level of gene expression. This response may facilitate pyrimidine nucleotide synthesis under P limitation in this plant. Expression of P-dependent and P-independent phosphoribosyl pyrophosphate (PRPP) synthases (PRS2 and PRS3, respectively) which provide PRPP, the phosphoribosyl donor in UMP synthesis via both de novo and salvaging pathways, was differentially regulated in response to P limitation. PRS2 mRNA levels increased twofold in roots and shoots of P-starved plants, while PRS3 was constitutively-expressed. PRS3 may play a novel role in providing PRPP to cellular metabolism under low P availability.
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PMID:Effects of phosphate limitation on expression of genes involved in pyrimidine synthesis and salvaging in Arabidopsis. 1582 Jun 55

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