Induction of fetal thymidine kinase by phyto-estrogens in the immature rat uterus

Administration of phytooestrogens to immature female rats leads to a large increase in uterine thymidine kinase activity. That increase concerns to a large extent the fetal isoenzyme of thymidine kinase. These results confirm the estrogenic properties of phytoestrogens and allow to specify their physiological effects.     

Effect of chloramphenicol and cycloheximide on the formation of mitochondrial-specific thymidine kinase isozymes in HeLa(BU25) cells.

HeLa(BU25) cells, though deficient in cytosol thymidine kinase-F activity, contain 2 mitochondrial thymidine kinase molecular forms, designated thymidine kinase A and thymidine kinase B. The formation of thymidine kinase A activity is cycloheximide-sensitive and chloramphenicol-resistant, while the reverse applies to the formation of thymidine kinase B. Formation of cytosol thymidine kinase F in wild-type and chloramphenicol-resistant HeLa S3 cells is also cycloheximide-sensitive and chloramphenicol-resistant.     

Mutant strains of Tetrahymena thermophila defective in thymidine kinase activity: biochemical and genetic characterization.

Three mutant strains, one conditional, of Tetrahymena thermophila were defective in thymidine phosphorylating activity in vivo and in thymidine kinase activity in vitro. Nucleoside phosphotransferase activity in mutant cell extracts approached wild-type levels, suggesting that thymidine kinase is responsible for most, if not all, thymidine phosphorylation in vivo. Thymidine kinase activity in extracts of the conditional mutant strain was deficient when the cells were grown or assayed or both at the permissive temperature, implying a structural enzyme defect. Analysis of the reaction products from in vitro assays with partially purified enzymes showed that phosphorylation by thymidine kinase and nucleoside phosphotransferase occurred at the 5' position. Genetic analyses showed that the mutant phenotype was recessive and that mutations in each of the three mutant strains did not complement, suggesting allelism.     

Creatine kinase of rat lymphocytes and its activity as affected by adenosine, cAMP, AMP and products of their transformation

Creatine kinase is found in the thymus and spleen lymphocytes of rats. Its activity in the spleen lymphocytes is considerably higher than in the thymocytes. The data of enzyme-electrophoresis chromatography on DEAE-Sephadex A-50, thermostability and pH optimum indicate that lymphocyte creatine kinase is a "cerebral" isoenzyme. It is mainly concentrated in hyaloplasm and mitochondrial fraction and, to a less extent--in the microsomal and nuclear-cellular fractions. It is shown that adenosine, inosine, hypoxanthin, NH4, cAMP and GTP have no effect on the creatine kinase activity of thymocytes but pyrophosphate causes its decrease. Creatine kinase of lymphocytes as compared with its myocardium isoenzyme MM possesses a less substrate specificity to nucleotide diphosphates.     

A rapid two-step purification of rat liver fetal thymidine kinase

The fetal isoenzyme of thymidine kinase was purified to apparent homogeneity from cytosols of rat fetuses liver. A two-step purification including anion exchange chromatography and affinity chromatography was developed. The purified enzyme appears as oligomeric with a relative molecular weight of 71 kDa. In denaturing media its molecular weight was 24 kDa, and its pHi 8.3.     

A Rapid Two-Step Purification of Rat Liver Fetal Thymidine Kinase

The fetal isoenzyme of thymidine kinase was purified to apparent homogeneity from cytosols of rat fetuses liver. A two-step purification including anion exchange chromatography and affinity chromatography was developed. The purified enzyme appears as oligomeric with a relative molecular weight of 71 kDa. In denaturing media its molecular weight was 24 kDa, and its pHi 8.3.     

Investigations of the mechanism of decreased tumorigenicity of cells grown in BrdU

Transplantable SV40-transformed hamster cells cultivated in the presence of low concentrations of BrdU for prolonged periods of time and cells made deficient in the enzyme thymidine kinase (dTK) by continued exposure to BrdU became less tumorigenic. In both instances, when grown in BrdU the cells contained analog substituted DNA. The tumorigenicity of dTK⁺ cells exposed to low concentrations of BrdU, but not the dTK^? cells, returned to control values when the cells were grown in medium devoid of BrdU. A tumorigenic mouse cell line made dTK deficient also had diminished oncogenicity. However, transformed hamster cells made deficient in another salvage pathway enzyme, hypoxanthineguanine phosphoribosyl-transferase by growth in eight azaguanine, retained their tumorigenicity. Two of five revertant cell lines, in which thymidine kinase activity was restored, transplanted more readily to hamsters than the dTK^? cells from which they were derived. It is concluded that there is a relative loss of tumorigenicity when BrdU is incorporated into the DNA of tumorigenic cell lines, or when there is a genetic modification of thymidine kinase activity.     

Developmental studies on creatine kinase. Isoenzyme in rat gastrointestinal tract

Creatine kinase activity and its isoenzymatic profile in rat intestinal mucose during normal development have been studied. Creatine kinase enzymatic activity increased stepwise during fetal development and the first week of life. An isoenzymatic pattern of exclusively CK-BB types occurred in all segments of the digestive tract during the early fetal stage. The isoenzyme profile of creatine kinase in the esophagic tissue with advancing maturation of the fetus shifted in the same way as in adults, with preferential concentration of CK-MM. However, CK-BB continued to be the main isoenzyme in the rest of the digestive tract. Our results show that rats are particularly suitable for experimental studies of intestinal creatine kinase isoenzymes.     

叶酸缺乏致胎鼠宫内发育迟缓及肝脏胰岛素生长因子系统表达变化

目的：叶酸是一种水溶性B族维生素,在体内氨基酸与核苷酸代谢中起重要作用,是胎儿生长发育所必须的营养素。本文通过建立叶酸缺乏的孕鼠模型,探讨叶酸缺乏对胎鼠宫内发育的影响,并研究胎鼠肝脏组织中胰岛素生长因子（IGF）系统的表达变化。方法：雌性C57BL／6J小鼠叶酸缺乏组6只、正常对照组6只,分别饲以不舍叶酸和含2mg叶酸／kg的纯合饲料。四周后与雄鼠交配,于怀孕第13．5天（13．5dpc）对孕鼠剖腹取胎,观察和评价胎鼠发育指标,并对宫内发育迟缓（IUGR）比率进行统计。用Real-timePCR法检测胎鼠肝脏组织中胰岛素生长因子I（IGFI）、胰岛素生长因子I受体（IGFIR）、胰岛素生长因子II（IGFII）、胰岛素生长因子II受体（IGFIIR）、胰岛素生长因子结合蛋白1（IGFBP-1）和胰岛素生长因子结合蛋白3（IGFBP-3）mRNA的相对表达水平。结果：叶酸缺乏组雌鼠合笼前每日体重增长量降低,13．5dpc胎鼠吸收胎和死胎比率升高,胎重下降,IUGR比率显著升高,差异有统计学意义（P〈0．05）;叶酸缺乏组胎鼠肝脏组织中IGFII和IGFIIRmRNA的相对表达水平均低于正常对照组（P〈0．05）,IGFI、IGFIR、IGFBP-1和IGFBP-3mRNA的相对表达水平两组间没有差异（P〉0．05）。结论：叶酸缺乏会导致小鼠孕中期胎鼠IUGR比率升高及胎肝IGFII和IGFIIRmRNA的表达水平降低,提示叶酸缺乏对IGF系统基因的调控,可能与胎鼠I-UGR发生机制有关。     

An uncommon form of thymidine kinase in breast cancers

An unusual form of thymidine kinase has been found in cytosols from breast cancers. It differs from the adult and fetal isoenzymes of thymidine kinase in so far as its activity could not be isolated from that of thymidylate kinase. Following sucrose density gradients, electrofocusing, ion exchange chromatography or molecular sieving, both activities appeared as a single peak. These facts suggest that they could be attributed to a single multifunctional protein.     

Deoxycytidine kinase is constitutively expressed in human lymphocytes: Consequences for compartmentation effects, unscheduled dna synthesis, and viral replication in resting cells

Deoxycytidine kinase specific activity was high in human peripheral lymphocytes and increased less than 2-fold when the lymphocytes were stimulated by phytohemagglutinin A. Ion-exchange chromatography showed the same profile of deoxycytidine kinase activity in resting and proliferating cells. This enzyme could also efficiently phosphorylate deoxyadenosine and deoxyguanosine. In contrast, the thymidine kinase activity was very low in resting peripheral lymphocytes and increased more than 40-fold upon stimulation. Similar relative changes in the activities of the two enzymes were observed in human T-lymphoblast cells (CCRF-CEM) separated by centrifugal elutriation into cells of different cell cycle phases. The ratio of deoxycytidine to thymidine kinase activities is 20:1 in extracts from resting human lymphocytes and 1:2 in PHA-stimulated cells. This drastic change in deoxyribonucleoside phosphorylating activities during the cell cycle in human lymphocytes is of importance for studies on unscheduled DNA synthesis, for the design of therapies to interfere with viral DNA metabolism, and for a correct interpretation of the compartmentation effects observed in DNA precursor metabolism.     

Metabolism of adenosine and thymidine in healthy females of different ages and females with mastopathies

The activity of thymidine kinase, thymidine phosphorylase, adenosine deaminase and 5'-nucleotidase of AMP was studied in tissues of 39 healthy females, as well as blood serum and lymphocytes of 60 healthy females, as well as in 50 patients with fibrocavernous mastopathy aged as 23-70. Comparative determination of adenosine metabolism enzymes activity in lymphocytes was carried out simultaneously with studying some immunological indexes in the organism of the same-aged healthy females and ones with mastopathy. It was revealed that age-related changes in the activity of thymidine kinase in blood serum reflected the analogous changes in enzyme activity in tissues of the healthy women. A direct correlation was established between thymidine kinase activity and age both in the healthy females and those with mastopathy. A significant decrease in activity of thymidine phosphorylase was demonstrated in blood serum of the patients with mastopathy in the age 46-60. Determined 4-fold increase in the activity of adenosine deaminase in serum was accompanied by decreased enzyme activity in lymphocytes and decreased Lymphocyte Blast Transformation Index in the same age range. Changes of immunological status are more expressed in T-system of immunity. The revealed metabolic changes in DNA-precursors metabolism in the patients with mastopathy aged as 46-60 might be one of the reasons of increased risk of oncological disease in this age group.     

Thymidine kinase not required for antiviral activity of acyclovir against mouse cytomegalovirus.

Previous studies of herpesvirus infections have indicated that a virus-specified thymidine kinase is required for the initial phosphorylation of acyclovir [acycloguanosine or 9-(2-hydroxyethoxymethyl)guanine] in the formation of acycloguanosine triphosphate. The latter compound accumulates in infected cells and competitively inhibits the viral DNA polymerase. We found that mouse cytomegalovirus, which does not express a thymidine kinase, was sensitive to the antiviral effects of acyclovir at a 50% inhibitory dose of approximately 0.23 microM. Acyclovir was equally effective against mouse cytomegalovirus in normal 3T3 cells and in 3T3 cells deficient in cellular thymidine kinase. Furthermore, the activity of acyclovir could not be reversed by excess thymidine, which easily reversed the antiviral activity of acyclovir against herpes simplex virus. Using a high-pressure liquid chromatography technique that easily detected acycloguanosine triphosphate in cells infected with herpes simplex virus, we could not detect acycloguanosine triphosphate in mouse cytomegalovirus-infected cells. These experiments demonstrated that the activity of acyclovir against mouse cytomegalovirus is not dependent on a thymidine phosphorylation pathway. Additional experiments are underway to determine whether acycloguanosine triphosphate is produced by another pathway in concentrations sufficient to inhibit mouse cytomegalovirus DNA polymerase.     

Human thymidine kinase: purification and some properties of the TK1 isoenzyme from placenta

Summary Human thymidine kinase TK1 isoenzyme has been purified 1 800-fold from placenta to a specific activity of 2.9 nmoles/min/mg of protein. The rapid purification procedure includes affinity chromatography on a thymidine-Sepharose column. At all stages of purification, the enzyme showed irreversible lability. The native molecular weight was determined to be 45 000. Human placental TK1 exhibited specificity for ATP and thymidine as substrates, and significant inhibition was found only with thymidine nucleotides. TTP was the most effective inhibitor.     

Effect of Vitamin B Deprivation during Pregnancy and Lactation on Homocysteine Metabolism and Related Metabolites in Brain and Plasma of Mice Offspring

Epidemiological and experimental studies indicate that the altered fetal and neonatal environment influences physiological functions and may increase the risk of developing chronic diseases in adulthood. Because homocysteine (Hcy) metabolic imbalance is considered a risk factor for neurodegenerative diseases, we investigated whether maternal Vitamin B deficiency during early development alters the offspring''s methionine-homocysteine metabolism in their brain. To this end, the dams were submitted to experimental diet one month before and during pregnancy or pregnancy/lactation. After birth, the offspring were organized into the following groups: control (CT), deficient diet during pregnancy and lactation (DPL) and deficient diet during pregnancy (DP). The mice were euthanized at various stages of development. Hcy, cysteine, glutathione (GSH), S-adenosylmethionine (SAM), S-adenosylhomocysteine (SAH), folate and cobalamin concentrations were measured in the plasma and/or brain. At postnatal day (PND) 0, total brain of female and male offspring exhibited decreased SAM/SAH ratios. Moreover, at PND 28, we observed decreased GSH/GSSG ratios in both females and males in the DPL group. Exposure to a Vitamin B-deficient diet during the ontogenic plasticity period had a negative impact on plasma folate and brain cortex SAM concentrations in aged DPL males. We also observed decreased plasma GSH concentrations in both DP and DPL males (PND 210). Additionally, this manipulation seemed to affect the female and male offspring differently. The decreased plasma GSH concentration may reflect redox changes in tissues and the decreased brain cortex SAM may be involved in changes of gene expression, which could contribute to neurodegenerative diseases over the long term.     

Dismutation of dihydrofolate by dihydrofolate reductase

Degradation of 7,8-dihydrofolate (H2folate) in the presence of dihydrofolate reductase (DHFR) has been shown due not to an oxygenase activity of the reductase as previously reported but to dismutation of H2folate to folate and 5,6,7,8-tetrahydrofolate (H4folate). The reaction can be followed spectrophotometrically or by analysis of the reaction mixture by high-performance liquid chromatography (HPLC). The products have also been isolated and characterized. Oxygen uptake during the reaction is much less than stoichiometric with H2folate disappearance and is attributed to autoxidation of the H4folate formed. The dismutation activity is a property of highly purified Streptococcus faecium DHFR isoenzyme 2 (but not isoenzyme 1) and of Lactobacillus casei DHFR, but not of bovine liver DHFR. The activity is dependent on tightly bound NADP+ and/or NADPH. Removal of the nucleotide results in loss of dismutation activity, which is restored by adding NADP+ or NADPH. Maximum activity is obtained when approximately 1 mol equiv of nucleotide is added per mol of DHFR. It is proposed that in the dismutation reaction bound NADP(H) is alternately reduced and oxidized by incoming molecules of H2folate with release of folate and H4folate, respectively. The relatively slow rate of folate formation presumably limits the rate of the overall reaction. The equilibrium constant for the dismutation reaction is 19.4 +/- 7.4 at 22 degrees C and pH 7.0. Calculation of standard oxidation-reduction potentials at pH 7 gave values of -0.230 V for the H2folate/H4 folate pair and -0.268 V for the folate/H2folate pair. The mechanism by which NADP+ is retained by the enzyme from some sources during purification procedures is unclear.(ABSTRACT TRUNCATED AT 250 WORDS)     

Thymidine transport in phytohaemagglutinin-stimulated pig lymphocytes.

Thymidine and uridine transporters in peripheral pig lymphocytes have structural features in common, but are not identical. Accelerated entry of [3H]thymidine begins 12h after the addition of phytohaemagglutinin. The increased thymidine uptake into the cells is characterized by an increase in Vmax. Without alteration of the apparent Km(0.6+/-0.08muM). Thymidine kinase activity is increased 12h after stimulation. Both the increased thymidine uptake and the increased thymidine kinase activity are inhibited in cultures incubated with puromycin: rates of degradation of the two systems are unchanged after phytohaemagglutinin addition, and indicate similar half-lives of about 2h. Thymidine kinase is rate-limiting for thymidine entry up to 18h after phytohaemagglutinin addition; increase in its synthesis is detectable about 6h before net incorporation of thymidine into DNA is significantly promoted.     

Effects of intracellular calcium chelation and pifithrin-alpha on deoxynucleotide metabolism in human lymphocytes

Previously, we have found that activation of deoxycytidine kinase elicited by various DNA-damaging chemical agents could be prevented by BAPTA-AM, a cell-permeable calcium chelator or by pifithrin-alpha, a pharmacological inhibitor of p53. Here, we show that stimulation of deoxycytidine kinase by UV-light also is calcium-dependent and pifithrin-alpha-sensitive in tonsillar lymphocytes, while thymidine kinase 1 activity is stabilised in the presence of BAPTA-AM. Importantly, both UV-irradiation and calcium chelation decreased the incorporation of labelled deoxycytidine and thymidine into DNA. Pifithrin-alpha dramatically reduced the labelling of both the nucleotide and DNA fractions, possibly due to inhibition of transmembrane nucleoside transport.     

DNA polymerase, thymidine kinase and DNA synthesis in erythropoietic mouse spleen cells separated on bovine serum albumin gradients.

A single dose of erythropoietin stimulates DNA synthesis in the spleen of the polycythemic mouse with the maximum effect occurring 48 h after the hormone is administered. The increase in DNA synthesis is accompanied by morphologic evidence of increased erythropoiesis and by increases in the activities per cell of both thymidine kinase and cytoplasmic high molecular weight DNA polymerase-alpha. The activity of low molecular weight DNA polymerase-beta does not change significantly. Spleen cells from mice which had received either erythropoietin or saline 48 h previously were separated into 7 density classes on discontinuous bovine serum albumin gradients. Following the administration of erythropoietin, thymidine incorporation and thymidine kinase activity showed the greatest relative increases per nucleated cell in layers 3, 4 and 5 of the gradient. DNA polymerase-alpha showed the greatest increase in cells of the denser layers 5, 6 and 7. Each layer contained normoblasts and lymphocytes. The less well differentiated erythroid elements constituted a larger proportion of cells in layers of lower density. Increases in the rates of thymidine incorporation were better correlated with increases in thymidine kinase activity than with increases in DNA polymerase activities. Measurement of iron incorporation into heme confirm the morphological impression that the cell type responsible for increased thymidine incorporation and increased DNA polymerase-alpha activity is the young normblast.