Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.5.1.3 (dihydrofolate reductase)
 5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA sequences corresponding to specific genes may be prepared by chemical synthesis, isolation of naturally occurring DNA, or reverse transcription. Such DNA may then be inserted into vectors such as plasmids or bacteriophages which carry the DNA into bacterial cells. Although significant differences exist in the basic molecular biology of eucaryotic and procaryotic organisms, these differences do not constitute absolute barriers to the expression of eucaryotic genes in bacteria. Several eucaryotic proteins, including insulin, growth hormone, ovalbumin, dihydrofolate reductase and somatostatin have been produced in bacteria. The use of chimeric microorganisms harboring recombinant DNA offers a completely new approach to the production of biologically useful polypeptides.
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PMID:Use of recombinant DNA technology for the production of polypeptides. 9 11

The paper presents a survey of literature concerned with the possibility of expression of plasmid-clones genes from eukaryotic organisms in bacteria cells. Studies on bacterial synthesis of somatostatin, human insulin, hormone of rat growth and proteins: chicken ovalbumin and mouse dihydrofolate reductase are discussed.
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PMID:[Expression of eukaryotic genes in Escherichia coli cells]. 38 36

gamma-Glutamyl hydrolase (also known as conjugase) is a ubiquitous enzyme that has the capacity to cleave folyl- and antifolylpolyglutamates. This study has revealed that the enzyme is secreted by primary cultures of rat hepatocytes and by H35 hepatoma cells. H35 cells have lower cellular levels of gamma-glutamyl hydrolase than do hepatocytes but secrete a greater proportion of gamma-glutamyl hydrolase. More than 99% of the total enzyme from H35 cells accumulated in the medium after 48 h. The cells were shown to remain intact during the secretion period since lactate dehydrogenase, dihydrofolate reductase, and lysosomal hydrolases other than gamma-glutamyl hydrolase were retained within the cell. Using the substrate 4-amino-10-methyl-pteroyldiglutamate (4-NH2-10-CH3-Pte-Glu2), the intracellular and secreted enzyme form(s) from H35 cells were found to have the following properties (a) Km values of 24.3 +/- 3.7 microM and 34.8 +/- 8.6 microM, respectively, and (b) maximal activity at pH 5 to 7 and apparent molecular weights of 120,000 by gel filtration. Both the cellular and secreted enzymes convert 4-NH2-10-CH3-PteGlu4 and pteroylpentaglutamate acid, to the corresponding monoglutamates with little or no appearance of intermediate chain length polyglutamates. This suggests that both act primarily as endopeptidases. Thus far, the cellular and secreted enzymes cannot be differentiated although the current studies do not establish this point unequivocally. Alterations in the cellular and secreted H35 cell gamma-glutamyl hydrolase levels in response to changes in culture conditions revealed that glutamine enhances activity while insulin diminishes it. Other transformed cells found to secrete this protein are Hep-G2 human hepatoma, JAR human choriocarcinoma, HeLa, and rat glioma. gamma-Glutamyl hydrolase could not be detected in medium conditioned by human MCF-7 breast cancer cells, and relatively low activities were found in the medium from CCRF-CEM or K562 leukemia cells. These studies directly establish for the first time the secretion of gamma-glutamyl hydrolase in vitro.
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PMID:Secretion of gamma-glutamyl hydrolase in vitro. 171 22

We have studied the specificity requirements for processing of the human insulin proreceptor by successively replacing each basic amino acid in the tetrabasic cleavage site with alanine. These mutated receptor cDNAs have then been overexpressed in Chinese hamster ovary cells, using vectors containing the mouse dihydrofolate reductase gene to amplify the transfected cDNAs in the presence of increasing concentrations of methotrexate. High levels of expression, ranging up to 6 x 10(7) receptors/cell were achieved in these experiments. Replacement of the P1 arginine with alanine led to the complete suppression of processing, as occurs also in a naturally occurring serine mutation at this site (Yoshimasa, Y., Seino, S., Whittaker, J., Kakehi, T., Kosaki, A., Kuzuya, H., Imura, H., Bell, G. I., and Steiner, D. F. (1988) Science 240, 783-787). A small amount of cleavage at alternative sites was detected. Replacement of the P2 arginine or P3 lysine with alanine did not in either case affect conversion to mature alpha and beta subunits, while replacement of the P4 arginine significantly inhibited processing. The binding isotherms for the processed versions of the receptor were comparable to previously published normal values. The unprocessed proreceptor bound insulin normally but was autophosphorylated less efficiently than processed versions of the receptor expressed in the same cells. These results suggest that a single processing protease with trypsin-like specificity may be involved in processing both insulin and insulin-like growth factor-I receptor precursors as well as a variety of viral envelope glycoprotein precursors.
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PMID:Effects of amino acid replacements within the tetrabasic cleavage site on the processing of the human insulin receptor precursor expressed in Chinese hamster ovary cells. 221 23

Previous studies have demonstrated that insulin augments methotrexate transport and enhances its cytotoxicity to human breast cancer cells. We therefore investigated the effects of insulin on methotrexate polyglutamate synthesis and binding to dihydrofolate reductase (DHFR) in two human breast cancer cell lines, MCF-7 and MDA-MB-231. Cells were exposed to 2 microM [3H]MTX and varying insulin concentrations for the desired time before determination of the polyglutamate content by high-performance liquid chromatography (HPLC). DHFR-bound drug was separated from free intracellular drug by chromatography on DEAE-Sephacel minicolumns prior to HPLC analysis. Incubation of MCF-7 cells with 2.5 nM insulin for 48 h before exposure to 2 microM [3H]MTX for a further 24 h resulted in a significant increase in both total drug and total polyglutamates compared with control cells. Increasing the insulin concentration in the medium yielded further increases in polyglutamylation so that at 250 nM insulin and above total polyglutamates were increased by 64% compared with control cells. Further evaluation of the effects of physiologic insulin levels on polyglutamate synthesis revealed that 2.5 nM insulin caused an increase in the net glutamylation rate for each polyglutamate derivative during the final 12 h of a 24 h exposure to MTX. Analysis of the effects of insulin on polyglutamate binding to DHFR revealed that exposure to 2.5 nM insulin resulted in the preferential binding of higher polyglutamates to DHFR. In MDA-231 cells, a breast cancer cell line with a poor capacity for polyglutamate synthesis, insulin exposure resulted in an increase in the cellular accumulation of each polyglutamate derivative, with the greatest proportionate increases occurring in the cellular levels of higher polyglutamates. These data suggest that insulin augmentation of MTX polyglutamate synthesis may account for its previously observed ability to enhance MTX cytotoxicity.
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PMID:Insulin effects on methotrexate polyglutamate synthesis and enzyme binding in cultured human breast cancer cells. 241 22

Methotrexate is glutamylated in cultured hepatoma cells to derivatives that contain a total of 2 to 5 gamma-glutamyl residues. The rate of polyglutamate formation and extent of accumulation are saturable with respect to both medium concentration of methotrexate and time. Maximal rates of glutamylation and accumulation of methotrexate polyglutamates at steady state occur at approximately 10 microM extracellular methotrexate. Inclusion of physiologic concentrations of insulin or removal of folate from the medium each cause a doubling of the rate of glutamylation, and these effects are additive. Insulin and folate restriction also enhance the accumulation of methotrexate polyglutamates. In combination they result in a doubling in the intracellular methotrexate polyglutamate pool at steady state and a shift in the polyglutamate distribution to longer-chain-length species. The importance of the longer-chain-length polyglutamates is apparent from the 6-hr retention of the polyglutamate species: Glu2, 15%; Glu3, 21%; Glu4, 50%; and Glu5, 83%. In probing the glutamylation reaction, a new series of inhibitors have been initiated. These are based upon replacing the incoming glutamate with 4-fluoroglutamate or synthesizing methotrexate with the glutamate replaced by 4-fluoroglutamate. The 4-fluoroglutamyl analogs of methotrexate are effective inhibitors of dihydrofolate reductase but cannot be glutamylated. They will be utilized to probe the role of glutamylation in antifolate activity and folate metabolism.
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PMID:Glutamylation of methotrexate in hepatoma cells in vitro: regulation and the development of specific inhibitors. 241 93

A cDNA library of Ob1771 preadipocytes was constructed, and a cDNA clone designated pOb24 was isolated by differential screening. The pOb24 mRNA, 6 kilobases in length, rose sharply in early differentiating Ob1771 and 3T3-F442A cells and decreased thereafter. In mouse adipose tissue, it was present at a high level in stromal-vascular cells (containing adipose precursor cells) and at a low level in mature adipocytes. Thus, pOb24 mRNA appears to be both in vitro and in vivo an unique marker of the preadipose state, i.e. of cell commitment during adipose cell differentiation. In contrast to glycerol-3-phosphate dehydrogenase mRNA, the emergence of pOb24 mRNA in Ob1771 cells required neither growth hormone or triiodothyronine as obligatory hormones nor insulin as a modulating hormone. Comparative studies of the expression of pOb24 and dihydrofolate reductase genes during the cell cycle suggest that arrest at the G1/S boundary was critical for the entry into the preadipose state. Tumor necrosis factor and transforming growth factor-beta were able to induce a large decrease of pOb24 mRNA level in growth-arrested Ob1771 cells. This decrease was shown to be only confined to early differentiating, glycerol-3-phosphate dehydrogenase negative cells as no decrease of pOb24 mRNA level was observed in glycerol-3-phosphate dehydrogenase positive cells. This result suggests that signals generated by tumor necrosis factor and transforming growth factor-beta have no effect on a commitment-related gene in late differentiated cells.
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PMID:Cloning and regulation of a mRNA specifically expressed in the preadipose state. 272 62

The regulation of GTP-cyclohydrolase (GTP-CH) activity and tetrahydrobiopterin (BH4) levels in the adrenal cortex were studied in intact and hypophysectomized rats. Treatment with a single dose of reserpine (5 mg/kg) or insulin-induced hypoglycemia (4 h) elevated adrenocortical BH4 3-fold by 10 h; BH4 levels remained elevated after 24 h and returned to control levels by 48-72 h. GTP-CH was significantly increased 24 h after hypoglycemic shock, and the increased enzyme activity preceded the changes in BH4 levels after reserpine treatment. Two and a half hours of stress by immobilization also increased GTP-CH activity and BH4 levels in the adrenal cortex. The activities of sepiapterin reductase and dihydrofolate reductase, putative enzymes in the biosynthetic pathway from GTP to BH4, were not increased by reserpine. Both reserpine and insulin increased the apparent maximum velocity for GTP, with no increase in the affinity of the enzyme for its substrate, further suggesting that the experimental treatments induce the synthesis of GTP-CH. Hypophysectomy completely blocked the reserpine-dependent increase in both cortical GTP-CH activity and BH4 content. The administration of purified porcine ACTH to intact and hypophysectomized rats elevated adrenocortical GTP-CH activity and cofactor levels. Synthetic ACTH-(1-24) also enhanced the enzyme activity and BH4 levels in the adrenal cortex. Thus, pituitary control of adrenal cortical GTP-CH synthesis and biopterin levels appears to be mediated through the secretion of ACTH. The changes in enzyme activity and cofactor levels after activation of the hypothalamo-hypophyseal axis or ACTH administration suggest that BH4, a cofactor for certain monooxygenases, has some function, as yet unknown, in the adaptive changes of the adrenal cortex in response to stress.
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PMID:Hormonal regulation of guanosine triphosphate cyclohydrolase activity and biopterin levels in the rat adrenal cortex. 613 42

Previous work has shown that the presence of a phorbol ester tumor promoter, phorbol 12-myristate 13-acetate (PMA), during a single-step selection for methotrexate (MTX)-resistant mouse 3T6 cells results in an up to 100-fold increase in the incidence of MTX-resistant, colony-forming cells. MTX resistance of most of these cells is due to amplification of the gene for dihydrofolate reductase (DHFR), the target enzyme for MTX. We show here that other active, noncytotoxic phorbol ester tumor promoters, such as phorbol 12, 13-didecanoate and 20-phorbol 12,13-butyrate, at their optimal concentrations (approximately equal to 0.1 microM) are approximately equal to PMA in increasing the incidence of MTX-resistant 3T6 colonies. Mezerein, a potent second-stage tumor promoter, but a weak complete promoter, increases the incidence of MTX resistance up to 350-fold, the strongest effect for any of the agents so far tested. PMA analogs that are inactive as tumor promoters, such as phorbol or phorbol 12,13,20-triacetate, have no effect on the incidence of MTX-resistant 3T6 colonies. Anthralin, a nonphorbol tumor promoter, is approximately equal to 40% as active as PMA in the MTX selection assay. Remarkably, the hormones insulin, arginine vasopressin, and epidermal growth factor, all of which are mitogenic for 3T6 cells, also exert a strong PMA-like effect on the incidence of MTX-resistant 3T6 colonies under conditions of MTX selection. The effect of insulin at its optimal concentration (approximately equal to 1 microgram/ml) is approximately equal to 70% that of PMA. Although the effect of PMA on the incidence of MTX-resistant 3T6 colonies does not significantly depend on the initial density of seeded cells or volume of the medium added, the analogous effect of insulin is strongly influenced by these parameters. Mevalonic acid, arachidonic acid, thymidine, caffeine, and nicotine, all of which are known to influence patterns of DNA synthesis in mammalian cells, were tested at their highest noncytotoxic concentrations and failed to produce any significant effect on the incidence of MTX-resistant 3T6 colonies. We discuss possible mechanisms of hormone- and tumor promoter-facilitated gene amplification in mammalian cells, relationship of mitogenic hormones to tumor promoters, and also implications of our findings for the problem of drug resistance in cancer chemotherapy.
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PMID:Mitogenic hormones and tumor promoters greatly increase the incidence of colony-forming cells bearing amplified dihydrofolate reductase genes. 635 Oct 57

We discuss our recent findings in three related areas of the gene amplification field. 1) We have found that tumor-promoting phorbol esters, nonphorbol tumor promoters, and most significantly, mitogenic hormones, such as insulin, vasopressin, and epidermal growth factor (EGF), greatly increase the incidence of methotrexate (MTX) resistance in 3T6 cells under condition of MTX selection. Most of these MTX-resistant cells bear amplified dihydrofolate reductase (DHFR) genes. 2) We have discovered that when mouse cells bearing unstably amplified DHFR genes are grown in the presence of nonlethal concentrations of hydroxyurea (HU), the rate of loss of the DHFR genes from these cells is greatly increased. 3) We have developed a new method for detection and mapping of homologous, repeated and amplified DNA sequences, and have used this method to detect and clone amplified DNA fragments in mammalian cells resistant simultaneously to a number of different drugs.
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PMID:Acquisition and loss of amplified genes: dramatic effects of hormones, tumor promoters and cytotoxic drugs. 639 91


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