Strategies for the measurement of the inhibitory effects of thymidine analogs on the activity of thymidylate synthase in intact murine leukemia L1210 cells

Two strategies have been pursued to monitor the inhibition of thymidylate (dTMP) synthase (5,10-methylenetetrahydrofolate:dUMP C-methyltransferase, EC 2.1.1.45) by thymidine (dThd) analogs in intact murine leukemia L1210 cells. The first method was based on the determination of tritium release from 2'-deoxy[5-3H]uridine [( 5-3H]dUrd) or 2'-deoxy[5-3H]cytidine [( 5-3H]dCyd); the second method was based on an estimation of the amount of dCyd incorporated into DNA as dTMP. The validity of these procedures was assessed by evaluating the inhibition of thymidylate synthase in murine leukemia L1210 cells by a series of 18 dThd analogs. There was a strong correlation between the inhibitory effects of the dThd analogs on the proliferation of L1210 cells on the one hand, and (i) their inhibitory effects on tritium release from [5-3H]dCyd (r = 0.926) and (ii) their inhibitory effects on the incorporation of dCyd into DNA dTMP (r = 0.921), on the other hand. Evaluation of tritium release from [5-3H]dCyd proved to be the most convenient method that has been described so far to measure thymidylate synthase activity and to follow the inhibitory effects of thymidylate synthase inhibitors in intact L1210 cells, since this method is rapid and very sensitive, and since it proved superior to the evaluation of tritium release from [5-3H]dUrd because it circumvents possible interactions of the inhibitors with thymidine kinase activity.     

Simultaneous detection of DNA strand breaks and unscheduled DNA synthesis in mutagen-treated human lymphocytes in the absence of hydroxyurea

Human lymphocytes in the quiescent state were exposed to UVC radiation. After irradiation the cells were allowed to repair for various times in the presence of [3H]thymidine or [3H]deoxycytidine in the culture medium. Hydroxyurea was not used to suppress semiconservative DNA replication in the small number of growing cells. After incubation DNA strand breaks were detected by the DNA-unwinding method and the amount of 3H incorporation in DNA was measured by liquid scintillation counting. The results show that the yield of DNA strand breaks and the amount of unscheduled DNA synthesis (UDS) can be measured from the same lymphocyte sample. A low background 3H incorporation in untreated cells could be achieved even in the absence of hydroxyurea. This requires, however, that 3H incorporation is measured only in the double-stranded DNA and that [3H]dCyd is used instead of [3H]dThd as the labelled deoxynucleoside.     

Preferential labeling of rat lymphocytes with a rapid rate of turnover by tritiated deoxycytidine.

Lymphocytes in thymic cortex and germinal centers of lymphoid tissues are labeled intensely with generally labeled tritiated deoxycytidine [G-3H]dCyd whereas they are weakly labeled with methyl tritiated deosythymidine [methyl3H]dThd of the same specific activity, not only by single injection but also by an intensive injection schedule. [G-3H]dCyd can be used to label short-lived lymphocytes strongly, although not specifically. The distribution patterns of labeled lymphocytes were different depending on the injection schedules of [G-3H]dCyd. [G-3H]dCyd can be used as a precursor molecule for cytosine and also thymine found in DNA. The ratios of radioactive thymine to crytosine measured biochemically on DNA extracted from radioactive lymphocytes labeled by the various schedules indicate strongly that short- and long-lived lymphocyte populations have different abilities to utilize pyrimidine nucleosides for DNA synthesis.     

Assessment of salvage pathways utilized for incorporation of exogenous pyrimidine nucleosides into DNA of guinea pig lymphocytes stimulated by Con A

The organization of specific pyrimidine pathways to channel various nucleoside precursors into DNA is poorly understood. We show that concanavalin A-stimulated guinea pig lymphocytes incorporate [3H]dThd, [3H]dCyd, [3H]dUrd, [3H]Cyd and [3H]Urd into DNA-thymines and DNA-cytosines in a highly conserved distribution pattern. DNA-thymines were labeled only by dThd and dUrd, while DNA-cytosines were labeled only by dCyd, Cyd and Urd. The kinetics for the incorporation of the [3H]nucleosides were essentially identical, indicating equivalent abilities to measure DNA synthesis. Pyrazofurin inhibition of the pyrimidine de novo synthetic pathway inhibited cell proliferation and the levels of [3H]nucleoside incorporation by approx. 50%, but did not alter restricted distribution of the [3H]nucleosides among DNA-thymines and DNA-cytosines. These findings indicate the absence of Cyd and dCMP deaminase salvage pathways and suggest either subcellular compartmentalization or differential regulation of ribonucleoside diphosphoreductase which permits reduction of CDP but not UDP.     

PREFERENTIAL LABELING OF RAT LYMPHOCYTES WITH A RAPID RATE OF TURNOVER BY TRITIATED DEOXYCYTIDINE

Lymphocytes in thymic cortex and germinal centers of lymphoid tissues are labeled intensely with generally labeled tritiated deoxycytidine [G-³H]dCyd whereas they are weakly labeled with methyl tritiated deoxythymidine [methyl-³H]dThd of the same specific activity, not only by single injection but also by an intensive injection schedule. [G-³H]dCyd can be used to label short-lived lymphocytes strongly, although not specifically. The distribution patterns of labeled lymphocytes were different depending on the injection schedules of [G-³H]dCyd. [G-³H]dCyd can be used as a precursor molecule for cytosine and also thymine found in DNA. The ratios of radioactive thymine to cytosine measured biochemically on DNA extracted from radioactive lymphocytes labeled by the various schedules indicate strongly that short- and long-lived lymphocyte populations have different abilities to utilize pyrimidine nucleosides for DNA synthesis.     

Incorporation of 3H-labeled nucleosides and 3H-labeled deoxynucleosides into detergent soluble DNA

Detergent soluble DNA from splenocytes of immunologically stimulated mice has been shown to incorporate [3H]dThd more rapidly than detergent insoluble DNA. In this report we compare the incorporation of other 3H-labeled nucleosides and 3H-labeled deoxynucleosides and the distribution of 3H in the different size classes of detergent soluble DNA. The order of incorporation into DS DNA is [3H]dThd greater than [3H]dCyd greater than [3H]Ado greater than [3H]dGuo approximately equal to [3H]Cyd greater than [3H]dAdo greater than [3H]Guo. We also show that the previously reported slight enrichment in Gua + Cyt content is not due to preferential incorporation of dGuo or of dCyd into any one size class.     

Quantitative study of deoxycytidine incorporation in large and small lymphocytes of the mouse

Using radioautographic smear preparations of thymocytes and mesenteric lymph node (MLN) cells labelled with three different tritiated pyrimidine deoxyribonucleosides, the incorporation of DNA precursors was studied separately on large lymphocytes and small lymphocytes. Radioautographic reaction due to generally tritiated deoxycytidine ( [G-3H]CdR) labelling in vivo in large lymphocytes was more intense than that in small lymphocytes. When mice were sacrificed 6 hr after the administration of tritiated thymidine ( [3H]TdR), small lymphocytes were labelled more heavily than large lymphocytes. However, labelling intensity with [3H]TdR in large lymphocytes was greatly enhanced by the administration of 5-fluoro-deoxyuridine, whereas in small lymphocytes labelling intensity was only fairly enhanced by the same treatment. When cells were incubated in vitro with 5-tritium labelled deoxycytidine [( 5-3H]CdR) for 10 min, there was no significant difference in labelling intensities between large and small lymphocytes. In the case of [G-3H]CdR incorporation, the labelling intensity in large lymphocytes was found to be significantly stronger than that in small lymphocytes. Large as well as small lymphocytes incorporated [3H]TdR very well in vitro. However, addition of 5 X 0 X 10(-5) M of non-radioactive CdR to the medium greatly decreased the incorporation of [3H]TdR by large lymphocytes, whereas the effect of non-radioactive CdR in small lymphocytes was not so marked as that in large lymphocytes. Furthermore, the [3H]TdR-labelling percentages were decreased at the same rate by the addition of non-radioactive CdR in both large and small lymphocytes. These results indicate that large lymphocytes and a proportion of small lymphocytes have a strong tendency to convert CdR to thymidine mono-phosphate, which is utilized for DNA synthesis, whereas this ability is relatively weak in the rest of small lymphocytes. Thus, it is probably that this metabolic ability changes during the transition of the large lymphocyte to the small lymphocyte.     

Thymidylate synthetase-deficient mouse FM3A mammary carcinoma cell line as a tool for studying the thymidine salvage pathway and the incorporation of thymidine analogues into host cell DNA.

A thymidylate (dTMP) synthetase-deficient murine mammary carcinoma cell line (FM3A/TS-), auxotrophic for thymidine (dThd), proved extremely useful for studying the dependence of cell growth on the exogenous supply of dThd, the relation between cell growth and DNA synthesis, and the ability of a series of 25 5-substituted 2'-deoxyuridines (dUrd) to substitute for dThd in sustaining cell growth. FM3A/TS-cells did not proliferate unless dThd was supplied to the cell culture medium. The 5-halogenated dUrd derivatives 5-chloro-dUrd, 5-bromo-dUrd and 5-iodo-d Urd also sustained FM3A/TS- cell growth. The extents of incorporation of [methyl-3H]dThd and 5-iodo-[6-3H]dUrd into DNA were closely correlated with their stimulatory effects on FM3A/TS- cell growth. This suggests that the stimulatory effects of the dUrd analogues on the growth rate of FM3A/TS- cells may be considered as evidence for their incorporation into host cell DNA. Based on this premise it is postulated that, in addition to 5-chloro-dUrd, 5-bromo-dUrd, 5-iodo-dUrd and dThd itself, the following dThd analogues are also incorporated into FM3A/TS- cell DNA (in order of the extent to which they are incorporated): 5-hydroxy-dUrd greater than 5-propynyloxy-dUrd greater than 5-ethyl-dUrd greater than 5-ethynyl-dUrd approximately 5-vinyl-dUrd. Thus, the dTMP synthetase-deficient FM3A/TS- cell line represents a unique system to dissociate the de novo and salvage pathways of dTMP biosynthesis and to distinguish those dUrd analogues that are incorporated into DNA from those that are not.     

Inhibition of thymidylate synthase by hydroxyurea in rapidly proliferating P815 mastocytoma cells

The incorporation of [¹⁴C]deoxycytidine, [³H]deoxyuridine, and [³H]thymidine, respectively into pyrimidine bases of DNA has been measured in rapidly proliferating P815 mouse mastocytoma cells in the presence of hydroxyurea. The incorporation of [¹⁴C]deoxycytidine-derived radioactivity into DNA cytosines is increased when compared to the incorporation into DNA thymines. The [³H]deoxyuridine-derived radioactivity is incorporated solely into DNA thymines and this incorporation is inhibited by hydroxyurea in a dose-dependent manner. This suggests an inhibitory effect of hydroxyurea on the thymidylate synthase which was proved in experiments in which the conversion of deoxyuridine monophosphate into deoxythymidine monophosphate catalysed by a crude enzyme preparation from P815 cells was inhibited in the presence of hydroxyurea. Enzymatic DNA methylation as measured by the conversion of incorporated [¹⁴C]deoxycytidine into 5-methylcytosines was not affected by hydroxyurea.     

Unscheduled DNA synthesis in rat pleural mesothelial cells treated with mineral fibres

Unscheduled DNA synthesis (UDS) was studied in confluent rat pleural mesothelial cells (RPMCs) arrested in G0/G1 with hydroxyurea (HU) and treated with various fibre types, i.e., chrysotile, crocidolite or attapulgite. In addition, the effects of UV light and of benzo[a]pyrene were determined as references. Using autoradiography after [3H]thymidine incorporation ([3H]dThd), RPMCs treated with 4 micrograms/cm2 of chrysotile fibres exhibited a low but significant enhancement of net grains compared to untreated cells. Treatment with higher doses of chrysotile was not possible because of the impairment of microscopic observation due to the presence of the fibres. Using liquid scintillation counting, RPMCs treated with chrysotile or crocidolite showed a significant dose-dependent increase in [3H]dThd incorporation compared to untreated cells. In contrast, attapulgite did not enhance [3H]dThd incorporation compared to untreated cells. Treatment of RPMCs with 1, 2 or 4 micrograms/ml of benzo[a]pyrene resulted in a significant increase in [3H]dThd incorporation. In order to discount a possible role of S cells in the augmentation of [3H]dThd incorporation, despite the presence of 5 mM HU, S cells were counted by autoradiography. Results indicated that the percentage of S cells was similar in asbestos-treated and untreated cultures. Stimulation of the S phase also seems unlikely because treatment of RPMCs with asbestos fibres in the absence of HU resulted in a reduction of [3H]dThd incorporation attributed to an impairment of the S phase by the fibres. 1-4 micrograms/ml benzo[a]pyrene or 10-50 J/m2 UV light resulted in an approximate doubling of [3H]dThd incorporation. The effects of inhibitors of DNA repair were determined in chrysotile-treated RPMCs. [3H]dThd incorporation was inhibited by cytosine arabinoside and nalidixic acid. These results show that asbestos produces UDS in RPMCs.     

Repair of benzo[a]pyrene-initiated DNA damage in human cells requires activation of DNA polymerase alpha

Normal human fibroblasts treated with r-7,t-8-dihydroxy-t-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPDE) yielded DNA polymerase alpha with elevated levels of activity, incorporated [3H]thymidine as a function of unscheduled DNA synthesis, and exhibited restoration of normal DNA-strand length as a function of unscheduled DNA synthesis. Lipoprotein-deficient fibroblasts treated with BPDE did not show elevated levels of DNA polymerase alpha activity, exhibited minimal [3H]thymidine incorporation, and had fragmented DNA after 24 h of repair in the absence of lipoprotein or phosphatidylinositol supplementation. When DNA polymerase beta activity was inhibited, cells with normal lipoprotein uptake exhibited [3H]thymidine incorporation into BPDE-damaged DNA but did not show an increase in DNA-strand length. DNA polymerase alpha activity and [3H]thymidine incorporation in lipoprotein-deficient fibroblasts increased to normal levels when the cells were permeabilized and low-density lipoproteins or phosphatidylinositol were introduced into the cells. DNA polymerase alpha isolated from normal human fibroblasts, but not from lipoprotein-deficient fibroblasts, showed increased specific activity after the cells were treated with BPDE. When BPDE-treated lipoprotein-deficient fibroblasts were permeabilized and 32P-ATP was introduced into the cells along with lipoproteins, 32P-labeled DNA polymerase alpha with significantly increased specific activity was isolated from the cells. These data suggest that treatment of human fibroblasts with BPDE initiates unscheduled DNA synthesis, as a function of DNA excision repair, which is correlated with increased activity of DNA polymerase alpha, and that increased DNA polymerase alpha activity may be correlated with phosphorylation of the enzyme in a reaction that is stimulated by low-density lipoprotein or by the lipoprotein component, phosphatidylinositol.     

Differential affinities of pyrimidine nucleoside analogues for deoxythymidine and deoxycytidine kinase determine their incorporation into murine leukemia L1210 cells

A number of 5-substituted pyrimidine deoxyribonucleoside (dThd or dCyd) derivatives have been evaluated for their effects on the incorporation of dThd and dCyd into the nucleotide pool and nucleic acids of murine leukemia L1210 cells. Several observations indicate that the dThd kinase and dCyd kinase activity of the cells and the differential affinities of these enzymes for the pyrimidine deoxyribonucleosides determine the incorporation of dThd and dCyd into the cells: (i) dThd and dCyd were not incorporated into mutant L1210 cells deficient in either dThd kinase or dCyd kinase activity; (ii) for a series of 5-substituted dThd and dCyd analogues a strong correlation was found between their inhibitory effects on the incorporation of dThd or dCyd into cell material and their Ki/Km for dThd kinase and dCyd kinase (r = 0.92 and 0.97, respectively); (iii) inhibitors of DNA synthesis (i.e. araC) and RNA synthesis (i.e. actinomycin D) suppressed the incorporation of dThd, most likely due to an inhibitory activity at the dThd kinase level (through the allosteric action of dTTP or slow regeneration of dThd kinase).     

Compartmentation of dCTP pools. Evidence from deoxyliponucleotide synthesis

The nucleotide fraction of cultured 3T6 and 3T3 mouse fibroblasts contains deoxy-CDP choline and deoxy-CDP ethanolamine as well as the corresponding riboliponucleotides. In permeabilized cells both deoxyliponucleotides were formed from dCTP. In intact cells they could be labeled from [5-3H] deoxycytidine or cytidine via transformation of the nucleosides to dCTP. Their turnover was slow compared to that of dCTP. When rapidly growing 3T3 cells were labeled during 90 min from deoxycytidine the specific activity of dCDP choline was 2.4 times higher than that of dCTP while after labeling from cytidine both nucleotides (and CTP) reached the same specific activity under steady state conditions. Also dCDP ethanolamine was labeled more rapidly from deoxycytidine than from cytidine. Our results suggest that the deoxyliponucleotides were synthesized from a dCTP pool that was labeled preferentially from deoxycytidine. Earlier work (Nicander, B., and Reichard, P. (1983) Proc. Natl. Acad. Sci. U. S. A. 80, 1347-1351) had demonstrated synthesis of DNA from a dCTP pool labeled preferentially from cytidine. Taken together our results suggest that deoxyliponucleotides and DNA are synthesized from separate dCTP pools.     

Deoxycytidine reverses the suppression of pigmentation caused by 5-BrdUrd without changing the amount of 5-BrdUrd in DNA.

5-Bromodeoxyuridine (BrdUrd) suppresses pigmentation in Syrian hamster melanoma cells in vitro, and this suppression is reversed by the addition of deoxycytidine (dCyd) to the culture medium. Exogenous dCyd also decreases the incorporation of BrdUrd into nuclear DNA. Over a certain range of dCyd concentrations, however, increasing the concentration of dCyd does not lead to any significant further decrease in the level of BrdUrd incorporation. With 0.5 μM BrdUrd in the medium, increasing the dCyd concentration from 0.4 mM to 1.0 mM produces essentially no detectable change in the amount of BrdUrd incorporated. This is the range of dCyd concentrations, however, in which the addition of dCyd has the greatest effect in reversing the suppression of pigmentation caused by BrdUrd. The effects of dCyd on pigmentation are prevented by aminopterin, which blocks the conversion of dCyd to thymidine nucleotides. The results suggest that dCyd reverses the suppression of pigmentation caused by BrdUrd through a mechanism that does not involve changes in the amount of BrdUrd in nuclear DNA, and that the effect of dCyd on pigmentation depends upon the conversion of the exogenously supplied dCyd to thymidine nucleotides.     

Discrepancies between flow cytometric analysis and [3H]thymidine incorporation in stimulated lymphocytes

The DNA synthesis system of freshly isolated tonsillar lymphocytes and those stimulated by phytohaemagglutinin were compared by different methods. Both cell populations had high DNA polymerase α and thymidine kinase activities, as well as a high rate of incorporation of [³H]thymidine into DNA. However, the two cell populations differed when their DNA distributions were compared by flow cytometry. Freshly isolated cells contained many less (6%) cells in S phase than were found in phytohaemagglutinin-stimulated lymphocytes (18%) as detected by flow cytometry. The labelling of different subpopulations of lymphocytes was studied by sorting them electrically with a fluorescence-activated cell sorter. Analysis of the radioactivity of [³H]thymidine pulse-labelled cells, sorted according to their DNA content, showed that cells in the G₁ peak of DNA distribution had a significant amount of incorporated [³H]thymidine. Sorting of cells according to their size (i.e., by light scattering) revealed that only large cells were labelled with [³H]thymidine.     

[3H]thymidine incorporation in bovine lymphocytes treated with the tumor promoter, 12-O-tetradecanoyl phorobol-13-acetate

Treatment of bovine lymph node lymphocytes with the tumor promoter, 12-O-tetradecanoyl phorbol-13-acetate (TPA) leads to depressed [³H]thymidine incorporation in response to phytohemagglutinin (PHA). Radioautographic and morphological analyses showed that depression was at the level of blast-cell formation. Isotope-dilution experiments, and the use of [³H]deoxycytidine to label DNA indicated that the inhibition was not due to a block in thymidine transport in the treated cells. These experiments, as well as a bioassay designed to measure thymidine in the culture medium, showed that the apparent inhibition of [³H]thymidine incorporation and DNA synthesis was not the result of production of cold thymidine in the cultures. The results taken together support the idea that most TPA-treated cells are inhibited from responding to the mitogenic lectins. Those cells which do respond appear to form blast cells and synthesize DNA at the same rate as do untreated cells.     

[H]thymidine incorporation in bovine lymphocytes treated with the tumor promoter, 12-O-tetradecanoyl phorobol-13-acetate

Treatment of bovine lymph node lymphocytes with the tumor promoter, 12-O-tetradecanoyl phorbol-13-acetate (TPA) leads to depressed [³H]thymidine incorporation in response to phytohemagglutinin (PHA). Radioautographic and morphological analyses showed that depression was at the level of blast-cell formation. Isotope-dilution experiments, and the use of [³H]deoxycytidine to label DNA indicated that the inhibition was not due to a block in thymidine transport in the treated cells. These experiments, as well as a bioassay designed to measure thymidine in the culture medium, showed that the apparent inhibition of [³H]thymidine incorporation and DNA synthesis was not the result of production of cold thymidine in the cultures. The results taken together support the idea that most TPA-treated cells are inhibited from responding to the mitogenic lectins. Those cells which do respond appear to form blast cells and synthesize DNA at the same rate as do untreated cells.     

Introduction and metabolism of pentose and hexose phosphates in permeabilized Morris hepatoma 5123TC cells

Metabolism of arabinose 5-P, ribose 5-P and glucose 6-P in permeabilized and resealed Morris hepatoma 5123TC cells was investigated by measuring the contribution of these compounds to nucleic acid biosynthesis. The level of [14C]-arabinose (non-phosphorylated) incorporation into nucleic acids was slight, presumably due to the low activity of the transport system or the absence or low activity of a specific 'kinase' enzyme. The permeabilizing procedure involved the brief treatment of Morris hepatoma 5123TC cells with lysolecithin and resulted in a cell population which was permeable to charged compounds i.e. sugar phosphates and nucleotides, that otherwise could not cross the plasma membrane. The permeabilized (and resealed cells) retained normal cellular morphology and intactness of specific organelles as judged by the maintenance of functional properties. Following permeabilization, these cells resealed when transferred back to normal growth medium, and continued to divide and increase at the same rates as control non-permeabilized cell cultures. The permeabilized cells incorporated deoxyribonucleotides ([methyl -3H]-TTP) into DNA at a linear rate of 0.047 nmol per 10(7) cells min-1, representing 90-100 per cent of the DNA synthesis rate in vivo. The permeabilization technique, when coupled with procedures to establish cell synchrony, permitted the comparative estimate of the contributions of [14C]-labelled arabinose 5-P, ribose 5-P and glucose 6-P to RNA, DNA, amino acids, CO2, lactate and sugar mono- and bisphosphates. The percentage of [14C]-isotope incorporated into total nucleic acids by these three labelled sugar phosphates were 2.3, 4.9 and 6.3 respectively. Possible reasons for the lower incorporation of 14C from arabinose 5-P are given. The results are consistent with the proposal that arabinose 5-P, an intermediate of the L-type pentose pathway activity of 5123TC cells, was incorporated into nucleic acids by its interconversion with ribulose 5-P and ribose 5-P and thus into PRPP. This study represents the first report of sugar phosphate as opposed to free sugar metabolism by tumour cells in culture.     

Analysis by base exchange of thyrotropin-releasing hormone responsive and unresponsive inositol lipid pools in rat pituitary tumor cells

We have shown that there is an inositol (Ins) lipid pool in cloned rat pituitary tumor (GH3) cells that is hydrolyzed in response to thyrotropin-releasing hormone (TRH) and an unresponsive pool. Because others have suggested that incorporation of [3H]Ins by base exchange may not occur uniformly into Ins lipids in other cell types, we established conditions using permeabilized cells under which labeling occurs by Ins-phosphatidylinositol (PI) exchange in the absence of de novo PI synthesis to further characterize these pools in GH3 cells. In permeabilized cells incubated in buffer containing 10 mM Mg2+ and 0.1 mM CMP, [3H]Ins incorporation into lipids occurred by base exchange only. This was so because: 1) [3H]Ins incorporation into lipids displayed properties similar to that for release of 3H-labeled Ins by unlabeled Ins from PI in cells prelabeled in situ prior to permeabilization; and 2) there was no change in PI mass under these conditions. In permeabilized cells incubated in buffer with 0.1 mM [3H]Ins for 60 min, incorporation was 0.61 +/- 0.05 nmol of [3H]Ins/10(6) permeabilized cells, which amounted to 35% of PI, while the level of PI, measured as nonradioactive phosphorus, was 94 +/- 8.0% of control. Permeabilized GH3 cells were responsive to TRH. In cells prelabeled in situ and then permeabilized, TRH stimulated an increase in 3H-labeled Ins phosphates (IPs) in 20 min which was 10% of 3H radioactivity initially present in lipids. This increase in 3H-labeled IPs was 6.3 times the 3H radioactivity present in phosphatidylinositol 4,5-bisphosphate prior to stimulation. When prelabeled cells were exchanged with unlabeled Ins after permeabilization there was only a 10-16% decrease in 3H-labeled IP accumulation stimulated by TRH even though 3H-labeled lipids decreased to 52% of control. TRH did not affect labeling by [3H]Ins-PI exchange. In cells labeled by base exchange after permeabilization TRH stimulated a very small increase in 3H-labeled IPs of only 0.21 +/- 0.02% of 3H-labeled lipids in 20 min or only 7% of the 3H radioactivity in phosphatidylinositol 4,5-bisphosphate. These data show that in permeabilized GH3 cells base exchange can occur in the absence of de novo PI synthesis and that lipids that are preferentially labeled by base exchange comprise a pool that is less responsive to TRH than total Ins lipids.     

3'-azido-3'-deoxythymidine. An unusual nucleoside analogue that permeates the membrane of human erythrocytes and lymphocytes by nonfacilitated diffusion

The demonstrated in vitro and in vivo activity of 3'-azido-3'-deoxythymidine (N3dThd) against the infectivity and the cytopathic effect of human immunodeficiency virus has prompted an investigation of the mechanism by which this nucleoside analogue permeates the cell membrane. As with the transport of thymidine, the influx of N3dThd into human erythrocytes and lymphocytes was nonconcentrative during short incubation times (less than 5 min) which did not allow significant metabolism of this nucleoside. However, in contrast with thymidine transport, the initial velocity of N3dThd influx was strictly a linear function of nucleoside concentration (0.5-10 mM), without evidence of saturability; insensitive to micromolar concentrations of potent inhibitors of nucleoside transport (dipyridamole, 6-[(4-nitrobenzyl)thio]-9-beta-D-ribofuranosylpurine, and dilazep); insensitive to a 1000-fold excess of other nucleosides (thymidine, uridine, 2-chloroadenosine); and relatively insensitive to temperature, with Q10 values (37-27 degrees C) of 1.4 and 2.7 for N3dThd and thymidine, respectively, determined in erythrocytes. Although the above results indicate that N3dThd permeates the cell membrane chiefly by nonfacilitated diffusion and not via the nucleoside transporter, millimolar concentrations of this nucleoside analogue were observed to inhibit both zero-trans influx of thymidine and efflux of thymidine from [3H]thymidine-loaded erythrocytes. The partition coefficients (1-octanol:0.1 M sodium phosphate, pH 7.0) of N3dThd and thymidine were determined to be 1.26 and 0.064, respectively. The unusual ability of N3dThd to diffuse across cell membranes independently of the nucleoside transport system may be attributed to the considerable lipophilicity imparted to this molecule by the replacement of the 3'-hydroxyl group of thymidine with an azido moiety.