Effect of colchicine and vincristine on DNA synthesis in regenerating rat liver

The increases in the activities of hepatic thymidylate synthetase and thymidine kinase were significantly suppressed at 24 h after 70% partial hepatectomy in rats which had been administered a microtubule disrupter, colchicine or vincristine. The decrease of these enzymic activities was accompanied by a reduction of DNA content in 24 h regenerating liver. The immunoblotting assay showed that the depression of the thymidylate synthetase activity by the injection of colchicine or vincristine was due to the decrease of the enzyme protein. These results indicate that colchicine and vincristine inhibit the DNA synthesis during liver regeneration by inhibiting the induction of the key enzyme in DNA synthesis.     

Differentiation associated changes in thymidylate synthetase and thymidine kinase activities in intestinal cells.

Proliferative and mature intestinal cells of the jejunum and colon of rat, colon of man, and the surface cells of neoplastic colon lesions of man were assayed for thymidylate synthetase and thymidine kinase activities. Cells from the proliferative region of rat jejunal mucosa were found to have higher enzyme activities than cells from the non-proliferative region. Thymidylate synthetase activity was observed to decrease as cells migrated from base to upper crypt, whereas thymidine kinase activity increased during crypt migration and then declined as cells migrated onto villi. Thymidine kinase activity also remained elevated longer than thymidylate synthetase during cell migration in colonic mucosa of rat and man. High thymidine kinase: thymidylate synthetase ratios similar to those observed in flat mucosa before cells become fully mature were found in cells removed from expanding neoplastic lesions of man.     

Thymidylate synthetase during synchronous nuclear division cycle and differentiation of Physarum polycephalum

Thymidylate synthetase and thymidine kinase activities in wild type strain M₃b and in thymidine kinase-deficient mutant TU63 of Physarum polycephalum are studied. Whenever nuclear division occurs in macroplasmodia of wild type, thymidine kinase and thymidylate synthetase activities sharply increase, although the increase of thymidylate synthetase activity is less pronounced than thymidine kinase activity. This is also true for other investigated nuclear divisions during the life cycle of P. polycephalum. It is shown for the first time that thymidylate synthetase is a periodically fluctuating enzyme during the naturally synchronous nuclear division cycle of P. polycephalum with a peak of specific activity in the S phase. In macroplasmodia, as well as after germination of microsclerotia of M₃b, thymidine kinase is the dominant enzyme, whereas at the time of the precleavage mitosis in sporulating macroplasmodia thymidylate synthetase is the predominant enzyme. This study describes and compares both dTMP-synthesizing enzymes during proliferation and differentiation of the same organism.     

Thymidine phosphorylase, thymidine kinase and thymidylate synthetase activities in cerebral hemispheres of developing chick embryos

The changes in activities of thymidine phosphorylase (EC 2.4.2.4), thymidine kinase (EC 2.7.1.75) and thymidylate synthetase (methylenetetrahydrofolate:dUrd-5′-P C-methyltransferase, EC 2.1.1.-) in the cerebral hemispheres of developing chick embryos were determined and compared with the course of DNA synthesis and of natural cell death in this organ. Thymidine phosphorylase activity reaches a broad maximum at the 12th to 14th day of incubation, followed by a rapid decrease. Thymidine kinase and thymidylate synthetase activities are highest at the earliest time studied (day 10) and decrease until day 14, followed by an increase from day 14 to 16 and a further decrease from day 16 through 1 day post-hatching. The rate of DNA synthesis essentially follows these activities, but the increase at day 16 is not discernible. Our previous study revealed high DNA synthesis at day 10, with natural cell death concurring on days 12-14, followed by another peak after day 16 (glial proliferation) and a decrease after day 16. It appears that thymidine phosphorylase activity reaches a maximum (days 12-14) at the time of maximum cell death, which may be correlated with the degradative function of this enzyme. This was also the time for minimum activities of thymidine kinase and thymidylate synthetase; on the other hand, these activities reach a first (day 10) and second (day 16) maximum at the time of maximum DNA synthesis; this may be correlated with the synthetic functions of these enzymes.     

Determination of relative values of de novo biosynthesis and salvage pathway of thymidylate formation in rat decidual tissue

A method for the determination of relative values (%) of two pathways of thymidine-5'-phosphate (dTMP) formation, e.g. via de novo biosynthesis and through thymidine reutilization (salvage pathway), is proposed. It is shown that the relative values of dTMP formation through the salvage pathway in the mesometrial part of developing decidua in pregnant rats (9-11th day of ppregnancy) are 1.5-3.4 times higher as compared to those in the antimesometrial part. When dTMP biosynthesis is suppressed by aminopterine, up to 80% of total DNA thymind is synthesized at the expense of thymidine reutilization. The incorporation of 3H-thymidine into DNA was thereby increased approximately 8-fold irrespective of the decrease in the DNA synthesis rate (approximately 2.4 times). The dependence of the relative values of the thymidine reutilization pathway on the correlation of the thymidylate synthetase and thymidine kinase activities in the tissue is discussed. The ability of the cells to reutilize thymidine is interpreted in terms of their relative resistance to the effect of folic acid antagonists.     

Association of thymidylate kinase activity with pyrimidine deoxyribonucleoside kinase induced by herpes simplex virus.

Thymidine kinase derived from LMTK+ does not exhibit thymidylate kinase activity. However, protein isolated by affinity column chromatography from thymidine kinase-deficient mouse cells (LMTK-) infected by herpes simplex virus type 1 shows thymidylate kinase activity in addition to thymidine kinase and deoxycytidine kinase activities. The virus-induced multifunctional enzyme has a molecular weight of 85,000, whereas the molecular weight of thymidylate kinase from uninfected LMTK- mouse cells is 71,000. The virus-induced enzyme has a Km for thymidine of 0.8 micromolar, and for thymidylate of 25 micromolar, and for thymidylate of 25 micromolar; the ratio of Vmax for thymidylate kinase to thymidine kinase is 1.7. When subjected to isoelectric focusing, thymidylate kinase activity is not separated from thymidine kinase activity, and even though four peaks of activity are observed they have a constant ratio of thymidylate kinase to thymidine kinase activity. The isoelectric points (pI) of these four peaks are 4.8, 5.8, 6.2, and 6.6, respectively. Thymidylate kinase, derived from uninfected cells when subjected to isoelectric focusing, separates into a major component with an isoelectric point at pH 8.2 and a minor component at pH 7.7. Although thymidine and thymidylate kinase activities derived from the virus-infected cells cannot be separated either by affinity column chromatography, glycerol density gradient centrifugation, or isoelectric focusing, there is a differential rate of inactivation when the enzyme is subjected to incubation at 37 degrees, with thymidylate kinase activity being more labile than thymidine kinase activity.     

DNA synthesis in the antimesometrial and mesometrial regions of rat decidual tissue]

DNA synthesis in the decidual tissue of rats on the 9-10th day of pregnancy has been studied in intact rats and under the effect of chloridin by means of radioautography and biochemical methods. The decidual cells of antimesometral and mesometral regions were shown to differ both by morphological features and intensity of 3H-thymidine utilization and activity of thymidylate synthetase and thymidine kinase. Under the conditions of the block of dihydropholate reductase, differences between the antimesometral and mesometral regions of deciduoma manifest themselves still more markedly. The decidual tissue consists of a heterogenous population of cells which differ by the ratio of different ways of thymidylate synthesis. An estimate is given for the ratio of two ways of thymidine monophosphate synthesis in the antimesometral regions of the decidual tissue.     

Biochemical Aspects of Chick Embryo Retina Development: The Effects of Glucocorticoids

In chick embryo retina during development, DNA synthesis and the activities of DNA polymerase, thymidine kinase, thymidylate synthetase, and ornithine decarboxylase (ODC) declined in parallel from day 7 to 12. The administration in ovo of hydrocortisone reduced significantly, particularly at 8-10 days of incubation, both DNA synthesis and the four enzyme activities tested. The effect was dose dependent, reaching the maximum with 50-100 nmol of hydrocortisone, 8-16 h after treatment. The highest inhibition was found for ODC activity (70%), followed by thymidine kinase activity (62%) and DNA synthesis (45%), whereas activities of DNA polymerase and thymidylate synthetase were reduced only by 30%. The inhibitory effect was exerted by all the glucocorticoids tested, with dexamethasone and hydrocortisone being the most efficacious. The results support the view that glucocorticoids reduce the proliferative events in chick embryo retina, particularly at 8-10 days of embryonic life.     

Thymidine salvage in Pseudomonas stutzeri and Pseudomonas aeruginosa provided by heterologous expression of Escherichia coli thymidine kinase gene.

Unlike enteric bacteria, Pseudomonas spp. generally lack thymidine phosphorylase and thymidine kinase activities, thus preventing their utilization of exogenous thymine or thymidine and precluding specific radioactive labeling of their DNA in vivo. To overcome this limitation, a DNA fragment encoding thymidine kinase (EC 2.7.1.21) from Escherichia coli was cloned into pKT230, a small, broad-host-range plasmid derived from plasmid RSF1010. From transformed E. coli colonies, the recombinant plasmid bearing the thymidine kinase gene was conjugally transferred to Pseudomonas stutzeri, Pseudomonas aeruginosa, Pseudomonas mendocina, Pseudomonas alcaligenes, and Pseudomonas pseudoalcaligenes. Thymidine kinase activity was expressed in all of these species, and all gained the ability to incorporate exogenous [2-14C]thymidine into their DNA. Thymidine incorporation into P. stutzeri was enhanced 12-fold more in mutants lacking thymidylate synthetase activity. These mutants produced higher levels of thymidine kinase and were thymidine auxotrophs; thymineless death resulted from removal of thymidine from a growing culture.     

Effect of the interferone inducer, polyriboinosinic.polyribocytidylic acid on rat liver regeneration following partial hepatectomy

The administration of the interferone inducer, polyriboinosinic.polyribocytidylic acid, inhibited the rise of activities of thymidylate synthase and thymidine kinase as well as DNA content in 24 h-regenerating rat liver in a dose dependent manner. The immunoblotting assay showed that the decrease of thymidylate synthase activity was due to inhibition of the induction of the enzyme. Co-administration of putrescine did not affect the inhibitory effect of polyriboinosinic.polyribocytidylic acid. Polyriboinosinic acid did not affect DNA synthesis in rat liver regeneration.     

Deoxycytidine transport and pyrimidine deoxynucleotide metabolism in phytohaemagglutinin-stimulated pig lymphocytes.

Increased entry of deoxy[3H]cytidine begins at about 12h after addition of phytohaemagglutinin to peripheral pig lymphocyte cultures, and is accompanied by a parallel stimulation of deoxycytidine kinase up to the beginning of DNA synthesis at 24h. The increased deoxycytidine uptake is characterized by an increase in Vmax. without alteration of the apparent Km (0.7 +/- 0.11 muM). Although the entries of both nucleosides are promoted at the same time, the stimulation of deoxycytidine uptake is less than that of thymidine, and the two nucleosides are transported by separate systems. In addition to deoxycytidien kinase, the synthesis of deoxycytidylate deaminase and thymidylate synthetase are stimulated after addition of phytohaemagglutinin, but to a lesser extent than that of thymidine kinase. The importance of the latter enzyme in forming dTMP, and of thymidylate kinase in providing dTTP, is discussed.     

The role of cyclic 3',5'-AMP in the regulation of aminoacyl-tRNA synthetase activities in mouse uterus and liver following 17beta-oestradiol treatment. Activation of a phosphoaminoacyl-tRNA synthetase phosphatase by phosphorylation with cyclic 3',5'-AMP dependent protein kinase.

The changes in the activities of 17 aminoacyl-tRNA synthetases induced by phosphorylation [1] were reversed by the action of cyclic AMP in preparations from both uterus and liver. Cyclic AMP also inhibited the phosphorylation of aminoacyl-tRNA synthetase protein by endogenous non-cyclic AMP-dependent protein kinase and [gamma-32P]ATP. The effect was not due to a stimulation of phosphoaminoacyl-tRNA synthetase phosphatase or to an influence of cyclic AMP on aminoacyl-tRNA synthetases. The activity of phosphoaminoacyl-tRNA synthetase phosphatase was increased by treatment with endogenous cyclic AMP-dependent protein kinase, ATP and cyclic AMP. Affinity chromatography of the 32P-labeled phosphorylated phosphosynthetase phosphatase protein followed by gel electrophoresis showed that the activated phosphatase was phosphorylated. In the uterus, the changes in 17 aminoacyl-tRNA synthetase activities observed 5 min after dibutyryl cyclic AMP administration to ovariectomized mice were similar to those observed after 17beta-oestradiol treatment, whereas in the liver the changes in these activities were the opposite to those found after treatment with 17beta-oestradiol. A mechanism for the regulation of the 17 aminoacyl-tRNA synthetase activities is proposed, which suggests that the synthetase activities inhibited (group I) or stimulated (group II) by phosphorylation with a non-cyclic AMP-dependent aminoacyl-tRNA synthetase kinase are reactivated (group I) or inhibited (group II), respectively, by the action of a cyclic AMP-dependent phosphatase kinase through the increased activity of phosphorylated phosphoaminoacyl-tRNA synthetase phosphatase.     

Molecular cloning and expression of the human deoxythymidylate kinase gene in yeast.

(Deoxy)thymidylate (dTMP) kinase is an enzyme which phosphorylates dTMP to dTDP in the presence of ATP and magnesium. This enzyme is important in cellular DNA synthesis because the synthesis of dTTP, either via the de novo pathway or through the exogenous supply of thymidine, requires the activity of this enzyme. It has been suggested that the activities of the enzymes involved in DNA precursor biosynthesis, such as thymidine kinase, thymidylate synthase, thymidylate kinase, and dihydrofolate reductase, are subjected to cell cycle regulation. Here we describe the cloning of a human dTMP kinase cDNA by functional complementation of a yeast dTMP kinase temperature-sensitive mutant at the non-permissive temperature. The nucleotide sequence of the cloned human cDNA is predicted to encode a 24 KD protein that shows considerable homology with the yeast and vaccinia virus dTMP kinase enzymes. The human enzyme activity has been investigated by expressing it in yeast. In this work, we demonstrate that the cloned human cDNA, when expressed in yeast, produces dTMP kinase activity.     

Effects of cytochrome P450-inducing agents on the monooxygenation of testosterone in long-term cultures of hepatocytes from male and female rats

Hepatocytes from male or female rats were cultured for up to 2 weeks in a modified Waymouth medium supplemented with 0.1 or 1.0 microM dexamethasone, 10 nM insulin, and 0.1 nM glucagon with or without addition of phenobarbital, methylcholanthrene, or isoniazid. The activities of testosterone hydroxylases were measured in the intact cell monolayer and in the corresponding microsomal fraction. Aniline hydroxylase was measured in cell homogenates. In the presence of 0.1 microM dexamethasone the testosterone hydroxylase activities varied differently in hepatocytes from male and female rats during the culture period. The activities of 6 beta- and 15 alpha-hydroxylases increased in female and were unchanged in male hepatocytes, while 16 alpha-hydroxylase activity increased in female and decreased in male, and 2 alpha- and 7 alpha-hydroxylase activities were unchanged in both male and female hepatocytes during the culture period. Increasing the dexamethasone concentration to 1.0 microM caused an increase in 6 beta- and 15 alpha-hydroxylase activities in cultures of hepatocytes from both sexes, whereas an increase of 2 alpha- and a decrease of 7 alpha- and 17-hydroxylase activities were found only in cultures of hepatocytes from female rats. Addition of phenobarbital caused an increase in the activity of 7 alpha-hydroxylase in both male and female hepatocytes, while the effect on the other hydroxylases differed with the sex. In hepatocytes from male rats phenobarbital addition decreased the activities of 2 alpha- and 16 alpha-hydroxylases, while these were increased or stable after addition of phenobarbital to hepatocytes from female rats. The activity of aniline hydroxylase was increased at Day 1 and declined afterward. The results demonstrate that the activities of different steroid hydroxylases are inducible and can be directly measured in monolayers of hepatocytes from rats.     

Human Thymidine Kinase Can Functionally Replace Herpes Simplex Virus Type 1 Thymidine Kinase for Viral Replication in Mouse Sensory Ganglia and Reactivation from Latency upon Explant

Herpes simplex virus type 1 thymidine kinase exhibits a strikingly broad substrate specificity. It is capable of phosphorylating deoxythymidine and deoxyuridine as does human thymidine kinase, deoxycytidine as does human deoxycytidine kinase, the cytosolic kinase whose amino acid sequence it most closely resembles, and thymidylate as does human thymidylate kinase. Following peripheral inoculation of mice, viral thymidine kinase is ordinarily required for viral replication in ganglia and for reactivation from latency following ganglionic explant. To determine which activity of the viral kinase is important for replication and reactivation in mouse ganglia, recombinant viruses lacking viral thymidine kinase but expressing individual human kinases were constructed. Each recombinant virus expressed the appropriate kinase activity with early kinetics following infection of cultured cells. The virus expressing human thymidine kinase exhibited thymidine phosphorylation activity equivalent to ~5% of that of wild-type virus in a quantitative plaque autoradiography assay. Nevertheless, it was competent for ganglionic replication and reactivation following corneal inoculation of mice. The virus expressing human thymidylate kinase was partially competent for these activities despite failing to express detectable thymidine kinase activity. The virus expressing human deoxycytidine kinase failed to replicate acutely in neurons or to reactivate from latency. Therefore, it appears that low levels of thymidine phosphorylation suffice to fulfill the role of the viral enzyme in ganglia and that this role can be partially fulfilled by thymidylate kinase activity alone.     

Reduced alpha adrenergic mediated contraction of renal preglomerular blood vessels as a function of gender and aging

As human males age, a decline in baroreflex-mediated elevation of blood pressure occurs due, at least in part, to a reduction in alpha-1 adrenergic vasoconstrictor function. Alpha adrenergic constriction is mediated by guanosine triphosphate binding Protein (G Protein) coupled signaling pathways. Alpha-1 A/C, B, and D adrenergic receptor expressions, measured by GeneChip array, are not reduced during aging in renal blood vessels of male or female rats. Alpha-1 A GeneChip expression is greater, at all ages studied, in females than in males. Prazosin binding by alpha-1 adrenergic receptors is greater in young adult female rats than in young adult male rats; however, it is reduced with aging in both male and female rats. G alpha q GeneChip expression declines while expression of adrenergic receptor kinase (GRK2) and tyrosine phosphatases (TyrP) increase with aging in male rats. The declines in alpha-1 adrenergic receptor binding and G alpha q expression and also the increases in GRK2 and TyrP expression likely relate to the age-related decline of vasoconstriction in male rats. The information that the expression of alpha-1 A adrenergic receptors is greater in female rats and (GRK2) expression does not increase during aging could relate to the gender differences in vasoconstrictor function with aging. Gene therapy to ameliorate the age-related decline in renal function could possibly reduce the need for renal dialysis. Signaling pathways such as those reviewed herein may provide an outline of the molecular pathways needed to move toward successful renal gene therapy for aging individuals.     

Androgen responsiveness of the liver of the developing rat

The activities of the hepatic microsomal 2alpha-, 2beta-, 7alpha- and 18-hydroxylase systems active on 5alpha-[4-(14)C]androstane-3alpha,17beta-diol were studied in male and female rats which had been castrated at birth and at the age of 7, 13, 21, 27, 34, 43 and 55 days, treated for 5 days with 2mg of testosterone propionate/kg body weight and killed 6 days after castration. The 7alpha-hydroxylase system was affected very little by androgen treatment at all stages during development. On the other hand it was found that the rat liver passed through three phases during development with respect to androgen responsiveness as judged by changes in the activities of the 2alpha, 2beta- and 18-hydroxylase systems: a first phase (from the neonatal period up to about 19 days of age) with a relative androgen unresponsiveness in both male and female rats, a second phase (from about 27 to about 33 days of age) when male and female rats responded equally well to androgens and a final phase (from about 40 days of age) with a successively decreasing androgen responsiveness in female rats but with a retained responsiveness in male rats. The hypothesis is presented that neonatal imprinting of the liver by testicular androgen(s) determines the development and degree of androgen responsiveness of liver tissue in the rat.     

Colon tumor: enzymology of the neoplastic program

The biochemical strategy of colon tumor was investigated by comparing the enzymic programs of glycolysis, pentose phosphate production and purine and pyrimidine biosynthesis and degradation in liver, normal colon mucosa and transplantable colon adenocarcinoma in the mouse. In normal colon mucosa the carbohydrate and pentose phosphate enzymes were 2- to 9-fold higher in specific activity than those in liver. Among the enzymes of CTP synthesis, CTP synthetase was the rate-limiting one in both liver and colon. In colon tumor CTP synthetase, OMP decarboxylase, uracil phosphoribosyltransferase and thymidine kinase activities increased to 927, 863, 597 and 514% of activities of normal colon. In contrast, the activity of the catabolic enzymes, dihydrothymine dehydrogenase and uridine phosphorylase, decreased to 51 and 25%. The ratios of activities of uridine kinase/uridine phosphorylase and thymidine kinase/dihydrothymine dehydrogenase were elevated 6- and 10-fold. The activity of the key purine synthetic enzyme, glutamine PRPP amidotransferase, increased 7-fold and the opposing rate-limiting enzyme of purine catabolism, xanthine oxidase, decreased to 7%. The ratio of amidotransferase/xanthine oxidase was elevated to 8, 150%. Activities of glucose-6-phosphate dehydrogenase and transaldolase did not increase, but that of pyruvate kinase was elevated to 154%. Similar enzymic programs were observed in a transplantable adenocarcinoma of the colon in the rat. The alterations in gene expression in colon tumor manifested in an integrated pattern of enzymic imbalance indicate the display of a program, a segment of which is shared with rat and human liver and kidney tumors. These alterations in gene expression should confer selective advantages to colon tumor cells. The striking increases in the activities of CTP synthetase, OMP decarboxylase, glutamine PRPP amidotransferase and thymidine kinase mark out these enzymes as potentially sensitive targets for combination chemotherapy by specific inhibitors of these enzyme activities.     

CORRELATION OF DNA ACCUMULATION RATE WITH THYMIDYLATE SYNTHETASE AND THYMIDINE KINASE ACTIVITIES IN DEVELOPING RAT CEREBELLUM: EFFECT OF THYROXINE1

Abstract— Using the method of least squares, a logistic curve was fitted to the data points for DNA content in neonatal rat cerebellum versus postnatal age (day 0 is the day of birth). The resultant equation was differentiated to give an expression for the rate of cerebellar DNA accumulation in units of ng/h per mg wet cerebellum. The DNA accumulation rate in control rats increased from 77.0 at 2 days of age to a maximum of 108 at 7 days of age and declined thereafter to a minimum of 16.3 on day 15. Thyroxine treatment significantly (P < 0.05) increased the rate to 89.8 (117% of control) at 2 days of age, and a significant elevation was maintained to 6 days of age at which time a maximum rate of 115 (114% of control) was attained. The rate was significantly decreased below control at 9 and 12 days of age, and reached a minimum of 9.22 on day 15. The developmental pattern for the activity of cerebellar thymidylate synthetase (EC 2.1.1.6), in units of pmol/h per mg wet cerebellum, closely paralleled the pattern for DNA accumulation rate in both control and thyroxine-treated animals. In controls, thymidylate synthetase activity increased from 98.6 at 2 days of age to a maximum of 125 at 7 days of age and declined thereafter to a minimum of 30.0 at 15 days of age. In thyroxine-treated animals, the activity was significantly increased to 118 (122% of control) at 4 days of age and remained significantly elevated through 6 days of age at which time a maximum activity of 154 (115% of control) was attained; thereafter, the activity was significantly decreased below control and reached a minimum of 16.9 (56.3% of control) on day 15. The developmental pattern for the activity of cerebellar thymidine kinase (EC 2.7.1.21) did not parallel the DNA accumulation rate quite so closely, in neither treated nor control animals, as did the pattern for thymidylate synthetase activity. These data suggest that thymidylate synthetase activity in the developing rat cerebellum may be more important for maintenance of replicative DNA synthesis than is thymidine kinase activity. In addition, the thyroxine-induced acceleration of the increase and subsequent decline in rate of DNA accumulation and in the activities of thymidylate synthetase and thymidine kinase in developing rat cerebella is probably the result of alterations in the number of external granular cells undergoing replicative DNA synthesis.