Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
 2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effectiveness of purines and purine analogues as inducers of erythroid differentiation in cultured murine erythroleukemia cells has been investigated. These cell lines have previously been shown to differentiate in vitro in response to dimethylsulfoxide (DMSO) and a number of other polar solvents. Two purine analogues, 6-thioguanine and 6-mercaptopurine, as well as the naturally occuring purine, purine, hypoxanthine, are shown to be extremely potent inducers. 6-Thioguanine is effective at a concentration of 0.06 mM, 750 fold lower than the DMSO concentration required for equivalent induction. 6-Mercaptopurine and hypoxanthine are effective inducers at a concentration of approximately 2 mM. Accumulation of globin mRNA was monitored during induction with purine inducers and shown to be similar in amount to globin mRNA levels reached in DMSO-induced cultures. Induction of differentiation by all three compounds follows a similar time course to induction with DMSO. All three compounds are potent inducers of HGPRT (hypoxanthine-guanine phosphoribosyltransferase)-negative cell lines; hence incorporation of purines into DNA is not required for induction of differentiation. Comparison of these compounds with other purines and purine analogues suggests a high degree of specificity in their interaction with a cellular target.
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PMID:Induction of erythroid differentiation in vitro by purines and purine analogues. 97 85

MEL cells, undergoing erythroid differentiation and parasynchronized by dimethyl sulfoxide (DMSO) induction, were irradiated with a 3-s pulse of UV light at sublethal dose. A large number of clones deficient in different gene functions are found in the progeny of the treated cells, if the pulse irradiation is performed 18-24 h from the start of DMSO induction. Kinetics of thymidine incorporation into DNA show that the period of sensitivity corresponds to the S phase. The results show that the activities of the tested genes are differently affected depending on the exact time of cell irradiation. Maximum percent inhibition of cells not expressing glucose-6-phosphate dehydrogenase (G-6-PD) (70%) is produced by irradiating at 20 h from the start of DMSO induction; 6-phosphogluconate dehydrogenase (6-PGD) (55%), and hypoxanthine (guanine) phosphoribosyltransferase (HPRT) (33%), at 21 h; hemoglobin (50%), at 22 h. The time difference in the sensitivity to UV light is highly reproducible and has been exploited to isolate, with high efficiency, cellular clones deficient in any one of the tested functions. Determinations of enzymatic activities on cell lysates show that the expression of tested genes is actually altered in cells that, on the basis of cytochemical tests, appear unaffected by UV irradiation. While the production of mutant clones is observed only during the S phase of the cell cycle, immediate statistical damage of the cellular DNA is produced at all times of irradiation. This finding excludes that the two types of phenotypic alterations, blocked or altered gene expression, both propagated in the progeny of the cells as clonal properties, may derive from a preferential alteration of those functions during the S phase.
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PMID:Selective gene mutation in MEL cells. 137 Jul 18

The results of our previous studies suggested that differences in the primary structures of the hypoxanthine phosphoribosyltransferase (HPRT) A and B proteins (EC 2.4.2.8) of mice are associated with altered turnover of these proteins in reticulocytes. On the basis of nucleotide sequence comparisons of their corresponding cDNAs, we show here that the HPRT A and B proteins differ at two positions; there is an alanine/proline substitution at amino acid position 2 and a valine/alanine substitution at amino acid position 29 (HPRT A/B proteins, respectively; total protein length, 218 amino acids). On the basis of results obtained from sequencing of the N termini of the purified HPRT A and B proteins, we also show that these amino acid substitutions are associated with differences in processing of the proteins; HPRT B, which is encoded as N-terminal Met-Pro, has a free N-terminal proline residue; HPRT A, which is encoded as N-terminal Met-Ala, lacks a free N-terminal alpha-amino group and is presumed to be acetylated following removal of the N-terminal methionine (i.e. AcO-Ala). These observations are discussed in reference to the idea that the N terminus of a protein plays a role in determining the rate at which the protein is degraded in erythroid cells.
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PMID:Altered turnover of allelic variants of hypoxanthine phosphoribosyltransferase is associated with N-terminal amino acid sequence variation. 337 61

Murine stocks with wild-derived hypoxanthine phosphoribosyltransferase (HPRT) A alleles (Hprt a) have erythrocyte HPRT activity levels that are approximately 25-fold (Mus musculus castaneus) and 70-fold (Mus spretus) higher than those of laboratory strains of mice with the common Hprt b allele (Mus musculus: C3H/HeHa or C57B1/6). Since the purified HPRT A and B enzymes have substantially similar maximal specific activities (64 and 46 units/mg of protein, respectively), we infer that these HPRT activity levels closely approximate the relative levels of HPRT protein in these cells. Red blood cells of HPRT A and B mice have similar levels of adenine phosphoribosyltransferase activity (APRT; EC 2.4.2.7) and reticulocyte percentages, which suggests that the elevated levels of HPRT in erythrocytes of HPRT A mice are not secondary consequences of abnormal erythroid cell development. The HPRT activity levels in reticulocytes of HPRT B mice are approximately 35-fold higher than the levels in their erythrocytes and approach the HPRT activity levels in reticulocytes of HPRT A mice. Thus, the marked differences in the levels of HPRT protein in erythrocytes of HPRT A and B mice result from differences in the extent to which the HPRT A and B proteins are retained as reticulocytes mature to erythrocytes. The substantial and preferential loss of HPRT B activity from reticulocytes is paralleled by an equivalent loss of HPRT immunoreactive protein (i.e., CRM) from that cell, and we infer that the HPRT B protein is degraded or extruded as reticulocytes mature to erythrocytes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Elevated levels of erythrocyte hypoxanthine phosphoribosyltransferase associated with allelic variation of murine Hprt. 407 78

The antineoplastic agents marcellomycin (and related anthracycline antibiotics) and 6-thioguanine are effective inducers of the differentiation of cultured leukemia cells. Studies designed to investigate the relationship between structure and activity conducted with the anthracyclines in HL-60 human acute promyelocytic leukemia cells indicated a dissociation between cytotoxicity and maturation-inducing properties of these agents. In an analogous manner, 6-thioguanine induced effective erythroid and granulocytic differentiation of Friend and HL-60 leukemias, respectively, only in hypoxanthine-guanine phosphoribosyltransferase deficient cells. These findings suggest that 6-thioguanine need not be metabolized to a nucleotide to be active as an inducer of differentiation, and that the concentration of the 6-thiopurine required to initiate the commitment to maturation is greater than that producing cytotoxicity. Erythrodifferentiation of HGPRT negative Friend murine leukemia cells by 6-thioguanine was antagonized by tetracaine, d, 1-propranolol and 12-O-tetradecanoylphorbol-13-acetate, providing evidence for a cell membrane mediated component in the action of the purine antimetabolite. This suggests that the biochemical events that produce differentiation after exposure to 6-thioguanine may differ from those responsible for the toxic actions of the drug. Studies such as these, designed to gain an understanding of the target sites of inducers of differentiation, may lead to the development of new agents of potential therapeutic benefit in the treatment of certain forms of cancer based on the conversion of malignant cells to their non-proliferating mature counterparts.
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PMID:Induction of leukemia cell differentiation by chemotherapeutic agents. 640 65

A somatic cell hybrid line, called M11-X, was developed in order to study the expression and regulation of the human beta-like globin genes in a mouse erythroid environment. M11-X cells were obtained by fusing the human fibroblast cell line GM3552 (which contains the translocation chromosome t(11;X) that carries the human beta-like globin genes) with hypoxanthine phosphoribosyltransferase (HPRT) -negative tetraploid (2S) mouse erythroleukemia (MEL) cells. After induction with 5 mM hexamethylene bisacetamide (HMBA), these cells contain approximately 300-600 copies per cell of correctly initiated, processed, and terminated human beta-globin mRNA; however, neither human epsilon- nor gamma-globin mRNAs were detected. Carboxymethylcellulose chromatography followed by SDS-polyacrylamide gel electrophoresis and Western blotting revealed that normal human beta-globin protein was also present. These results suggest that the human beta-globin gene, when present in mouse erythroid cells, can be transcribed and its mRNA translated into normal products, but at a much lower level than the mouse beta-globin genes. Analysis of the frequency of cytosine methylation near the human gamma-globin genes indicated that these genes are heavily methylated in M11-X cells. The inability to express the human gamma-globin genes of these cells might be accounted for, at least in part, by DNA methylation.
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PMID:Human globin gene expression in hybrid 2S MEL X human fibroblast cells. 658 92

We have previously given evidence that the hypoxanthine-guanine phosphoribosyltransferase (HGPRT; EC 2.4.2.8) isozymes in human erythroid cells result from posttranslational modifications of a single gene product [Johnson, G. G., et al. (1982). Biochemistry 21: 960]. In the present work we compare the properties of the unmodified and two major modified isozymes, which collectively account for 90% of the HGPRT enzyme activity in cell lysates. The modified isozymes differ from the parent molecule in the pH dependence of activity and in the relative utilization of the two purine base substrates, hypoxanthine and guanine. In contrast to the changes in the catalytic properties of the enzyme, the modifications have no detectable effects on the heat stability or on the equilibrium between enzyme dimers and enzyme tetramers.
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PMID:Hypoxanthine-guanine phosphoribosyltransferase in human erythroid cells: properties of the isozymes. 686 Feb 91

In a previous report we provided evidence that the three major hypoxanthine-guanine phosphoribosyltransferase (HGPRT; EC 2.4.2.8) isozymes in human erythroid cells are derived by posttranslational modification of a single enzyme [Johnson, G. G. et al. (1982). Biochemistry 21: 960]. In the experiments reported here we provide further evidence that the modified isozymes have a catalytic activity that is at least as great as that of the unmodified enzyme. However, we also show that the total HGPRT activity decrease with red-cell age, by a factor of approximately 4, and that this decrease in activity is paralleled by a loss in HGPRT immunoreactive protein. We estimate that the loss of HGPRT activity and immunoreactive protein as well as the changes in the relative abundances of the major isozymes occur early in the cell's life.
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PMID:Hypoxanthine-guanine phosphoribosyltransferase in human erythroid cells: degradation of the enzyme. 686 Feb 92

The regional gene assignments for human porphobilinogen deaminase (PBGD; EC 4.3.1.8) and esterase A4 (ESA4; EC3.1.1.1) chromosome 11 have been determined with somatic cell hybridization and immunologic, electrophoretic, and cytogenetic techniques. Dimethyl sulfoxide-induced erythroid differentiation of hybrid clones derived from the fusion of tetraploid Friend murine erythroleukemia (2S MEL) cells deficient in thymidine kinase and human Lesch--Nyhan fibroblasts (HLN) deficient in hypoxanthine phosphoribosyltransferase (HPRT-; EC 2.4.2.8) were examined for expression of human PBGD, ESA4, and lactate dehydrogenase A (LDHA; EC 1.1.1.27). Human PBGD was detected by rocket immunoelectrophoresis with rabbit anti-human PBGD IgG and by isoelectric focusing. The human chromosome complement of each clone was determined by cytogenetic and enzyme marker analyses. Of the five primary 2S MEL--HLN clones examined, three were positive for human PBGD. These were subcloned to yield a total of 10 secondary, tertiary, or quaternary clones. Analyses of these subclones permitted the regional assignment of human PBGD and ESA4 to the long arm of chromosome 11. Finer regional assignment of the loci for human PBGD and ESA4 was facilitated when two 2S MEL (HPRT-)--human fibroblast (HX/11) hybrids, each containing the X chromosome--autosome translocation (der11), t(X;11)(q25-26;q23) as the only human chromosome, were examined for expression of human PBGD, ESA4, and LDHA. One clone, HX/11-2, contained the intact X/11 translocated chromosome; in the other, HX/11-3, 11p was deleted, and the human X/11 derivative was translocated onto a mouse chromosome. HX/11-2 expressed human LDHA, but HX/11-3 did not, verifying that the latter human 11/X derivative did not include 11pter leads to 11p12; PBGD and ESA4 were not detected in either hybrid. These results confirm the location of the gene for human PBGD on chromosome 11 and establish the assignment of the loci for PBGD and ESA4 in the region 11q23 leads to 11qter.
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PMID:Regional gene assignment of human porphobilinogen deaminase and esterase A4 to chromosome 11q23 leads to 11qter. 694 13

Hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8) (HGPRT) of human red blood cells has been separated into three major isoenzymes, the relative quantities of which change as the cell ages. The predominant isoenzyme in the youngest circulating red blood cells, reticulocytes, has the same isoelectric point as the single enzyme of lymphoblasts. This lymphoblast-like enzyme is diminished in older red cells, and the major fraction of HGPRT activity is recovered in the two more acidic isoenzymes. The HGPRT enzymes of human lymphoblasts and red cells have been purified to apparent homogeneity, as evidenced by the criterion of subunit molecular weight in NaDodSO4 gels. The lymphoblast enzyme dissociates to a single subunit (alpha) upon isoelectric focusing in 8 M urea and is presumed to be a homo dimer (alpha alpha). The red cell isoenzymes dissociate to two subunits, one with the same isoelectric point as that in lymphoblasts (alpha) and one more negatively charged (alpha'). We infer that the three major red cell isoenzymes, I-III, correspond to enzyme species with none (alpha alpha), one (alpha alpha'), or both (alpha' alpha') subunits modified. Tryptic peptide maps of these iodo[2-14C]acetamide-labeled enzyme subunits indicate that the one red cell subunit (alpha) is identical with that in lymphoblasts and that the second subunit (alpha') differs from these in only one of the five cysteine-containing tryptic peptides. These results indicate that the HGPRT subunit is subject to at least one covalent and site-specific modification in human erythroid cells.
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PMID:Hypoxanthine-guanine phosphoribosyltransferase in human erythroid cells: posttranslational modification. 707 65


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