Regulation of de novo purine biosynthesis in human lymphoblasts. Coordinate control of proximal (rate-determining) steps and the inosinic acid branch point.
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Purine nucleotide synthesis de novo has been studied in a permanent tissue culture line of human splenic lymphoblasts with particular attention to coordination of control of the proximal (rate-determining) steps with the distal branch point of the pathway. An assay was used which permits simultaneous determination of the overall rate of labeling of all intracellular purines with sodium [14C]formate, as well as the distribution of isotope into all intracellular guanine- and adenine-containing compounds. The guanine to adenine labeling ratio was used as an index of IMP branch point regulation. It was found that exogenous adenine and guanine produce feedback-controlling effects not only on the first step in the de novo pathway, but also on the IMP branch point. Concentrations of adenine which produce less than 40% inhibition of the overall rate of de novo purine synthesis do so by selectively inhibiting adenine nucleotide synthesis de novo by 50 to 70% while stimulating guanine nucleotide synthesis de novo by up to 20%. A reciprocal effect is seen with exogenous guanine. The adenosine analog 6-methylmercaptopurine ribonucleoside selectivity inhibits adenine nucleotide synthesis via the de novo pathway but not from exogenous hypoxanthine. Thus, the reactions of purine nucleotide interconversion, in particular adenylosuccinate synthetase, may be regulated differently in cells deriving their purine nucleotides solely from de novo synthesis than when deriving them via "salvage" of preformed hypoxanthine. (+info)
The cytotoxicity of DNA carboxymethylation and methylation by the model carboxymethylating agent azaserine in human cells.
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Carboxymethylating agents are potential sources of endogenous DNA damage that have been proposed as possible contributors to gastrointestinal carcinogenesis. The cytotoxicity of the model DNA carboxymethylating agent azaserine was investigated in human cells. Expression of the DNA repair enzyme O(6)-methylguanine-DNA methyltransferase (MGMT) did not affect sensitivity to the drug in two related Raji Burkitt's lymphoma cell lines. DNA mismatch repair-defective variants of Raji cells which display increased tolerance to DNA methylation damage were not selectively resistant to azaserine. Complementary results were obtained with a second carboxymethylating agent, potassium diazoacetate. In contrast, lymphoblastoid cell lines representative of each of the xeroderma pigmentosum complementation groups, including the variant, were all significantly more sensitive to azaserine than nucleotide excision repair-proficient cells. The hypersensitivity of XP cells was not due to systematic differences in the concentrations of intracellular thiol compounds or related thiol metabolizing enzymes. The data indicate that of the two types of potentially lethal DNA damage which azaserine introduces, carboxymethylated bases and O(6)-methylguanine, the former are repaired by nucleotide excision repair and are a more significant contributor to azaserine lethality in human cells. (+info)
Regulation of insulin-stimulated glucose transport by chronic glucose exposure in 3T3-L1 adipocytes.
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Chronic hyperglycemia causes insulin resistance, termed glucose toxicity. Herein we studied chronic glucose-dependent regulation of the glucose transport system in adipocytes. 3T3-L1 adipocytes were incubated for up to 24 h with low (1 mM) or high (25 mM) glucose, and glucose transport was subsequently analyzed. 100 nM insulin was present throughout the experiments. 24 h incubation with 1 mM glucose caused a 2.3+/-0.4 fold increase in glucose transport activity, compared to the values obtained with 25 mM glucose. This difference was not observed when 24 h incubation was carried out without insulin. Glucose transport activity was not increased at 3 or 6 h incubation with 1 mM glucose, but was increased at 12 h, which closely paralleled increased expression of GLUT1. In addition to increased GLUT1 expression, more efficient translocation of GLUT1 to the plasma membrane was observed when incubated with 1 mM glucose compared to 25 mM glucose. The addition of azaserin or deprivation of glutamine at 25 mM glucose did not increase the glucose transport activity to the level obtained with 1 mM glucose. PD98059 did not affect glucose transport activity when incubated with 1 mM or 25 mM glucose. In conclusion, the present study is the first to show that, in 3T3-L1 adipocytes, chronic exposure to low (1 mM) and high (25 mM) glucose leads to different insulin-stimulated glucose transport activities. These differences result from the difference in the expression and plasma membrane distribution of GLUT1, but not of GLUT4, and the hexosamine biosynthesis pathway or extracellular signal-regulated protein kinase is not involved. (+info)
Cellular autophagic capacity is highly increased in azaserine-induced premalignant atypical acinar nodule cells.
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Although cellular autophagy is recognized as a major pathway of macromolecular catabolism, little data are available regarding its activity or regulation in tumor cells. We approach this problem by morphometrical investigation into the possible changes in autophagic activity during progression of rat pancreatic adenocarcinoma induced by azaserine and promoted by a raw soya flour-containing pancreatotrophic diet. In the present study, the autophagic capacity of the carcinogen-induced premalignant atypical acinar nodule cells was characterized and compared with controls (normal tissue of rats kept on standard laboratory or pancreatotrophic diet and host tissue of the premalignant nodules of the azaserine-treated rats). Given for 90 min, vinblastine, an enhancer of autophagic segregation (i.e. formation of autophagic vacuoles), caused a one to two orders of magnitude larger expansion of the autophagic compartment in atypical nodule cells than in the controls. Then a 20 min blockade of segregation by cycloheximide led to regression of the autophagic compartment, which was barely measurable or moderate in the controls but exceeded 50% in the premalignant cells. At the same time, the cytoplasmic volume fraction of early autophagic vacuoles regressed to a near zero value in each cell type. Expansion and regression rates of these nascent vacuoles showed that both segregation and degradation were 6-20 times faster in the nodule than in normal tissue cells. These results show that the autophagic capacity of the premalignant cells in our system is greatly increased, possibly making these cells unusually sensitive to up-regulation of their self-digesting activity in response to different extracellular signals or drugs. (+info)
Role of the basic helix-loop-helix transcription factor p48 in the differentiation phenotype of exocrine pancreas cancer cells.
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The majority of human pancreatic adenocarcinomas display a ductal phenotype; experimental studies indicate that tumors with this phenotype can arise from both acinar and ductal cells. In normal pancreas acinar cells, the pancreas transcription factor 1 transcriptional complex is required for gene expression. Pancreas transcription factor 1 is a heterooligomer of pancreas-specific (p48) and ubiquitous (p75/E2A and p64/HEB) basic helix-loop-helix proteins. We have examined the role of p48 in the phenotype of azaserine-induced rat DSL6 tumors and cancers of the human exocrine pancreas. Serially transplanted acinar DSL6 tumors express p48 whereas DSL6-derived cell lines, and the tumors induced by them, display a ductal phenotype and lack p48. In human pancreas cancer cell lines and tissues, p48 is present in acinar tumors but not in ductal tumors. Transfection of ductal pancreas cancers with p48 cDNA did not activate the expression of amylase nor a reporter gene under the control of the rat elastase promoter. In some cell lines, p48 was detected in the nucleus whereas in others it was cytoplasmic, as in one human acinar tumor. Together with prior work, our findings indicate that p48 is associated with the acinar phenotype of exocrine pancreas cancers and it is necessary, but not sufficient, for the expression of the acinar phenotype. (+info)
Biallelic methylation and silencing of mouse Aprt in normal kidney cells.
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Heritable gene silencing is an important mechanism of tumor suppressor gene inactivation in a variety of human cancers. In the present study, we show that methylation-associated silencing of the autosomal adenine phosphoribosyltransferase (Aprt) locus occurs in primary mouse kidney cells. Aprt-deficient cells were isolated from mice that were heterozygous for Aprt, i.e., they contained one wild-type Aprt allele and one targeted allele bearing an insertion of the bacterial neo gene. Although silencing of the wild-type allele alone was sufficient for the cells to become completely Aprt-deficient, biallelic methylation of the promoter region was found to occur. Moreover, despite the absence of selective pressure against the targeted allele, phenotypic silencing of the inserted neo gene accompanied silencing of the wild-type Aprt allele. A potential role for allelic homology in these events is discussed. (+info)
Sterol regulatory element-binding protein-1 is regulated by glucose at the transcriptional level.
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In vivo studies suggest that sterol regulatory element-binding protein (SREBP)-1 plays a key role in the up-regulation of lipogenic genes in the livers of animals that have consumed excess amounts of carbohydrates. In light of this, we sought to use an established mouse hepatocyte cell line, H2-35, to further define the mechanism by which glucose regulates nuclear SREBP-1 levels. First, we show that these cells transcribe high levels of SREBP-1c that are increased 4-fold upon differentiation from a prehepatocyte to a hepatocyte phenotype, making them an ideal cell culture model for the study of SREBP-1c induction. Second, we demonstrate that the presence of precursor and mature forms of SREBP-1 protein are positively regulated by medium glucose concentrations ranging from 5. 5 to 25 mm and are also regulated by insulin, with the amount of insulin in the fetal bovine serum being sufficient for maximal stimulation of SREBP-1 expression. Third, we show that the increase in SREBP-1 protein is due to an increase in SREBP-1 mRNA. Reporter gene analysis of the SREBP-1c promoter demonstrated a glucose-dependent induction of transcription. In contrast, expression of a fixed amount of the precursor form of SREBP-1c protein showed that glucose does not influence its cleavage. Fourth, we demonstrate that the glucose induction of SREBP could not be reproduced by fructose, xylose, or galactose nor by glucose analogs 2-deoxy glucose and 3-O-methyl glucopyranose. These data provide strong evidence for the induction of SREBP-1c mRNA by glucose leading to increased mature protein in the nucleus, thus providing a potential mechanism for the up-regulation of lipogenic genes by glucose in vivo. (+info)
Adenocarcinoma of the pancreas in azaserine-treated rats.
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Development of a model of carcinoma of the pancreas in rats was approached by attempting to identify chemicals that (a) behave as mutagens and (b) localize in the pancreas following systemic administration; and then to study the effects of long-term administration. Azaserine was selected because it behaves as a direct-acting mutagen in two bacterial test systems and because tissue distribution studies showed concentration especially in kidney and pancreas. Groups of rats have been given i.p. injections once or twice weekly for 6 months, and rats have been autopsied after 6 to 18 months. During the first year pancreases developed (a) nodules of atypical exocrine cells which seem to represent hyperplastic foci and (b) encapsulated adenomas. After 1 year most pancreases from treated rats are diffusely abnormal and contain many hyperplastic nodules and adenomas, while more than one-quarter have had pancreatic adenocarcimona. Metastases have been observed in lymph nodes, liver, and lung. No carcinomas or adenomas have been observed in control rats. No other organ shows as high an incidence of involvement as pancreas, but renal neoplasms were frequent. Studies with another chemical O-(N-methyl-N-nitroso-beta-alanyl)-L-serine, are at an earlier stage. The tissue distribution of radioactivity following injection of a 14C-labeled sample is similar to that of azaserine; however, this compound is not a direct-acting bacterial mutagen. Rats treated for 6 months twice weekly i.p. have a higher incidence of nodules of atypical acinar cells than did controls, although the number of nodules per rat is few. No adenomas or carcinomas have been found during 13 months of the study. We conclude that azaserine is a carcinogen in rats and causes major abnormalities of growth and differentiation of the exocrine pancreas, including adenocarcinoma in some rats. O-(N-Methyl-N-mitroso-beta-alanyl)-L-serine had less effect than azaserine on pancreatic growth and differentiation. (+info)