Modulation of P-glycoprotein activity by estramustine is limited by binding to plasma proteins

BACKGROUND: Estramustine previously has been shown to interact with P-glycoprotein and to restore intracellular accumulation of vinblastine and paclitaxel in cells overexpressing this drug transporter. However, the ability of estramustine to potentiate the cytotoxicities of several drugs was less than that expected. To resolve this apparent discordance, the authors examined the effects of serum on the actions of estramustine. METHODS: The cytotoxicities of anticancer drugs with or without estramustine or verapamil toward MCF-7 breast carcinoma cells and a P-glycoprotein-overexpressing subline MCF-7/ADR were determined using the sulforhodamine-binding assay. The extent of intracellular accumulation of [3H]vinblastine and [3H]paclitaxel was determined for each using standard methods, and the binding of radiolabeled drugs to plasma proteins was characterized by equilibrium dialysis. RESULTS: Without serum, the sensitivities of MCF-7/ADR cells to several P-glycoprotein-transported drugs were increased by estramustine and verapamil. Conversely, when the cells were treated with a 10% serum, the cytotoxicities of these drugs were increased by verapamil, but not by estramustine. Without serum, intracellular accumulation of [3H]vinblastine and [3H]paclitaxel by MCF-7/ADR cells was increased markedly by verapamil and estramustine; however, serum suppressed the effects of estramustine much more strongly than those of verapamil. Equilibrium dialysis experiments demonstrated that [3H]estramustine binds to plasma proteins, predominantly albumin, whereas [3H]paclitaxel binds to albumin and alpha 1-acid-glycoprotein, and [3H]vinblastine binds predominantly to alpha 1-acid-glycoprotein. CONCLUSION: Although estramustine can bind to P-glycoprotein, its effectiveness as a reversing agent in vivo likely is limited by binding to plasma proteins.     

Studies of binding of testosterone-estradiol binding globulin for estradiol-17beta (author''s transl)

The in vitro incorporation of [3H]thymidine has been examined in thin slices of sheep skin. Most of the radioactivity (88%) was incorporated into the bulb cells of the wool follicles, and the technique is therefore suitable for the study of some aspects of wool follicle DNA synthesis. The effect of mimosine and a number of related 4(1H)-pyridones on [3H]thymidine incorporation into sheep skin slices was examined. Mimosine was shown to inhibit the incorporation at a concentration of 0-2 mM. At this concentration, the incorporation of [3H]uridine or [14C]leucine was not affected. The inhibition of [3H]thymidine incorporation was time dependent, 2 h of incubation being required for maximal inhibition of DNA synthesis, and was readily reversible by removal of mimosine from the incubation medium. The 3-hydroxyl-4-oxo function of the pyridone ring appears to be directly involved in DNA synthesis inhibition. The amino acid side chain is not a toxophoric centre, but changes in its polarity have been shown to affect the inhibitory activity. The results suggest that the primary action of mimosine on the inhibition of wool biosynthesis in vivo is the inhibition of follicle bulb cell DNA synthesis and consequently of cell division.     

Cyclooxygenase inhibition reveals synergistic action of vasoconstrictors on mesangial cell growth

Since endogenous vasoconstrictors promote mesangial cell growth and increase the biosynthesis of antiproliferative prostaglandins, the effects of cyclooxygenase inhibition on mesangial cell proliferation should be strongly dependent on the prevailing levels of neuroendocrine vasoconstrictors. We compared the effects of indomethacin (10(-6) M), a cyclooxygenase inhibitor, on [3H]thymidine incorporation by cultured rat mesangial cells in the presence of various combinations of angiotensin II (10(-10) M), [Arg8]vasopressin (10(-11) M), (-)-norepinephrine (10(-8) M) and endothelin-1 (10(-11) M). Indomethacin did not enhance [3H]thymidine incorporation in cells treated with each individual vasoconstrictor, or in cells treated with two-way combinations with the exception of modestly increased [3H]thymidine incorporation in cells treated with angiotensin II + (-)-norepinephrine or [Arg8]vasopressin + (-)-norepinephrine. In contrast, in cells treated with any three-way or the four-way combination, indomethacin markedly increased [3H]thymidine incorporation. Importantly, a highly significant interaction (P<0.0001) was observed for thymidine incorporation between the number of vasoconstrictors present and indomethacin treatment, thus demonstrating that cyclooxygenase inhibition reveals a synergistic action of vasoconstrictors on the DNA synthesis in mesangial cells.     

Effect of streptomycin on the structure and function of the photoreceptor apparatus of Euglena gracilis

Multiplication stimulating activity (MSA) has been purified from the conditioned media of rat liver cells in culture by a modification of the procedure of Dulak and Temin. Purified MSA stimulates [3H] thymidine incorporation into DNA in subconfluent, serum starved 3T3 cells. Cell cycle analysis by the flow microfluorometer shows that the [3H] thymidine incorporation data reflects DNA synthesis. MSA also stimulates the multiplication of serum starved subconfluent 3T3 cells. MSA is approximately 10-fold less active in 3T3 cells than in chick embryo fibroblasts in stimulating [3H] thymiding incorporation into DNA. MSA causes a 2--10-fold increase in ornithine decarboxylase (ODC) activity in 3T3 cells and the dose response curve parallels the dose response curve for [3H] thymidine incorporation into DNA. The Km of ODC for ornithine is 0.12 mM. There is a 30% decrease in the activity of ornithine transaminase (OTA) during the time period in which MSA causes an increase in ODC activity. Insulin also stimulates [3H] thymidine incorporation into DNA, cell multiplication and ODC activity over the same concentration range as shown for MSA, however, the extent of stimulation by insulin is less than that observed following MSA addition.     

Cell division and deoxyribonucleic acid (DNA) synthesis in cultures of stimulated lymphocytes

The responses of lymphocytes cultured with various stimulants were analysed with respect to DNA synthesis and cell division. Autoradiographic labelling with [3H]thymidine indicated that similar proportions of cells had incorporated this labelled precursor for DNA synthesis during both short and long periods of exposure to this specific precursor for DNA synthesis. Changes in labelling index (LI) after pulsing these cells with [3H]thymidine showed that exchange of labelled material, which could not be chased out with unlabelled thymidine, was responsible for the increases of LI seen. Failure to prevent this increase with excess unlabelled thymidine indicated that direct incorporation of [3H]thymidine did not account for this exchange. Using hydroxyurea and colcemid arrest to analyse cell cycle events in these cultures, it was shown that approximately 70 per cent of the responding cells in cultures of stimulated lymphocytes, while actively synthesizing DNA, were not in cell cycle for division. It was concluded that DNA turnover, involving synthesis and exchange of newly synthesized material, possibly DNA, was occurring in these cells.     

DNA polymerases in the rat pituitary gland. Effect of oestrogens and sulpiride

Changes in the activity of DNA polymerase and [3H]thymidine incorporation into the DNA of the anterior pituitary gland were studied in oestrogenized male and pregnant rats. The activities of DNA polymerases alpha and beta, extracted in Tris--HCl or in sodium phosphate buffer were characterized according to their optimum pH and sensitivity to N-ethyl-maleimide. In the Tris-soluble fraction DNA polymerase activity is almost exclusively alpha, while in the phosphate soluble fraction it is a mixture of alpha and beta. The administration of oestrogens to male rats increases [3H]thymidine incorporation and enhances the activity of DNA polymerases in the Tris-soluble fraction, while the activity of the phosphate-soluble enzyme does not change. Sulpiride administration results in a further increment of [3H]thymidine incorporation and of DNA polymerase activity in the Tris-soluble fraction. In pregnant rats sulpiride also produces an increment of DNA polymerase activity only in the Tris-soluble fraction. Thus, the activity of the Tris-soluble fraction from APG behaves as DNA polymerase alpha. This activity changes in parallel with [3H]thymidine incorporation into DNA which is an indication of cell proliferation in the gland. This is discussed with respect to a negative feedback mechanism between intracellular prolactin concentration and DNA synthesis in the APG.     

Stimulation of P2Y receptors activates c-fos gene expression and inhibits DNA synthesis in cultured cardiac fibroblasts

OBJECTIVES: The aims of this study were to determine (1) whether neonatal rat cardiac fibroblasts (CAFB) express P2Y receptors; (2) whether CAFB respond to extracellular ATP by inducing expression of c-fos mRNA; and (3) whether extracellular ATP modulates norepinephrine (NE)-stimulated cell growth in CAFB. METHODS: Expression of P2Y1 and P2Y2 receptors and induction of c-fos were examined by Northern blot analysis. CAFB growth was assessed by measuring [3H]thymidine incorporation and DNA content. P2Y receptor pharmacology was studied using various ATP analogues. RESULTS: Northern blot analysis of polyA enriched RNA confirmed that at least 2 subtypes of P2Y receptors (P2Y1 and P2Y2) are expressed in cultured CAFB. Extracellular ATP induced the expression of c-fos mRNA through a pathway that was sensitive to inhibitors of protein kinase C (PKC), but not to inhibitors of intracellular Ca2+ signaling. Extracellular ATP inhibited the NE-stimulated increases in DNA content and in [3H]thymidine incorporation into DNA. Whereas the potency order for stimulation of c-fos expression was ATP = UTP > ADP > adenosine, the potency order to inhibit the NE-induced increase of [3H]thymidine incorporation into DNA was ATP > ADP > UTP > adenosine. CONCLUSIONS: These data demonstrate that CAFB express both P2Y1 and P2Y2 receptor mRNA and that CAFB respond to P2Y receptor stimulation by induction of c-fos and inhibition of DNA synthesis. These findings suggest that the effects of ATP on [3H]thymidine incorporation into DNA and on expression of c-fos mRNA are exerted via distinct P2Y receptor subtypes.     

Tyrosine kinase inhibition prevents deformation-stimulated vascular smooth muscle growth

The goal of this study was to determine the role of tyrosine phosphorylation in transducing deformation-stimulated vascular smooth muscle growth. Rat aorta-derived vascular smooth muscle cells were cultured on flexible silicone elastomer membranes and subjected to cyclic deformation (15 cycles per minute, deformed 2 seconds, relaxed 2 seconds). Deformation significantly increased proto-oncogene expression, [3H]thymidine incorporation, [3H]leucine incorporation, and cell number. Time course studies showed an 8-hour lag between initiation of cell deformation and onset of [3H]thymidine incorporation, with peak levels achieved after 18 to 24 hours. Western analysis of protein blots from deformed cells (10 minutes) demonstrated increased levels of phosphotyrosine-containing proteins having molecular weights of 110 to 130 and 70 to 80 kD. Deformation-stimulated tyrosine phosphorylation was prevented by the tyrosine kinase inhibitor Herbimycin A. Tyrosine kinase inhibition also prevented deformation-stimulated vascular smooth muscle cell growth as measured by [3H]thymidine incorporation. Cyclic deformation stimulates vascular smooth muscle proliferation through activation of tyrosine kinases. Inhibition of tyrosine phosphorylation is an effective means of preventing deformation-induced vascular smooth muscle growth in vitro.     

Arginine deprivation in KB cells. II. Characterization of the DNA synthesized during starvation

DNA synthesis in cells deprived of arginine was examined. Three lines of evidence indicated that tritiated thymidine ([3H]TdR) incorporation in arginine-starved cells was due to replicative rather than repair DNA synthesis. (a) When made in the presence of bromodeoxyuridine, the [3H]TdR-labeled DNA sedimented at hybrid density in isopycnic gradients. (b) As determined by the diphenylamine reaction, there was a 15% increase in the chemical amount of DNA per culture 30 h after arginine deprivation. (c) [3H]TdR incorporation was hydroxyurea-sensitive. Alkaline velocity sedimentation of the total DNA made during starvation revealed the existence of two distinct size classes: most of the DNA sedimented at a position analogous to that of control DNA, but 40% migrated one-third the distance of the bulk. After arginine restoration, these shorter pieces appeared to be chased into DNA of normal length; thus, one lesion in deprived cultures may cause an arrest in completion of DNA stretches to mature size. These findings, together with results of morphological studies of starved cells, suggest that changes induced by arginine deficiency effect the organization of nucleoproteins. These changes are reversible upon arginine restoration.     

Stimulation of RNA and protein synthesis in isolated chondrocytes by human serum

The stimulation of isolated chicken embryo chondrocytes was studied by measuring the incorporation of [3H]uridine and [3H]leucine into cold trichloroacetic acid precipitable material after exposure of the chondrocytes to serum. The doseresponse relationships for the incorporation of uridine and leucine were similar to that of thymidine previously demonstrated. Exposure of the cells to serum-containing buffer for 15 min sufficed both for the stimulation of incorporation into the cells and for the depletion of 28% of the stimulating activity from the medium. Stimulation persisted for at least 17 h after removal of the serum. Studies where actinomycin D was added to inhibit RNA synthesis suggested that prior RNA synthesis was required for most of the stimulation of protein synthesis by serum factors.     

Reduced DNA synthesis and cell viability in small cell lung carcinoma by treatment with cyclic AMP phosphodiesterase inhibitors

This study investigated the effects of the adenosine 3',5'-cyclic monophosphate (cAMP) phosphodiesterase inhibitors caffeine, theophylline, and 3-isobutyl-1-methyl-xanthine (IBMX) on the proliferation and viability of the small cell lung carcinoma (SCLC) cell lines NCI-H345, NCI-H128, and SCC-9. These effects were correlated with the ability of the drugs to induce intracellular Ca2+ mobilization. Treatment of NCI-H345 cells with caffeine resulted in rapid mobilization of Ca2+, as indicated by Fura-2 fluorescence. Incubation of NCI-H345 cells with 6.25 mM caffeine resulted in a 62% inhibition of [3H]thymidine uptake after 2 hr, indicating reduced DNA synthesis. Incubation with 25 mM caffeine resulted in almost total inhibition of [3H]thymidine uptake after 2 hr. Similar effects on [3H]thymidine uptake were seen upon treatment of NCI-H128 and SCC-9 cells with caffeine; however, these cells did not exhibit caffeine-induced Ca2+ mobilization. Inhibition of DNA synthesis (66-93%) also occurred upon incubation of all cell lines with theophylline and IBMX, which did not mobilize Ca2+. Treatment of NCI-H345, NCI-H128, and SCC-9 cells with caffeine, theophylline, or IBMX markedly reduced cell viability. Levels of cAMP increased in the cells following treatment with caffeine, theophylline, or IBMX, reflecting the ability of these drugs to inhibit cAMP phosphodiesterase. These results suggest that the decrease in DNA synthesis and the subsequent cell death induced by these drugs are due to reduced cAMP phosphodiesterase activity, rather than to changes in intracellular Ca2+. These findings indicate that drugs that alter cAMP signaling pathways are potentially valuable agents to inhibit SCLC survival.     

Thymidine metabolism and DNA synthesis in Newcastle disease virus-infected cells

The inhibition of thymidine incorporation into DNA in Newcastle disease virus-infected cells has been studied. At 6 h after infection of L-929 cells at high multiplicity, transport of exogenous thymidine across the cell membrane was inhibited. The kinetics of this inhibition, decreased Vmax with no change in Km, suggest that there are fewer sites available for transport in infected cells. The conversion of thymidine to dTTP was not inhibited. Equilibrium of exogenous thymidine with the acid-soluble pool occurred more slowly and at a lower level of radioactivity than in uninfected cells, and there was a reduction in the rate of incorporation of exogenous thymidine into DNA. The reduction of incorporation into the pool and into DNA was proportionate. The size of total cellular dTTP pools was changed very little in infected cells. DNA synthesized in infected cells in the presence of [3H]BrdUrd had reduced incorporation of tritium but similar buoyant density to that from uninfected cells. The results show that Newcastle disease virus inhibits DNA synthesis directly and, in addition, decreases thymidine transport. Together these account for the overall decrease in thymidine incorporation into DNA of infected cells.     

Endotoxin-stimulated spleen cells: dissociation between DNA synthesis and IgM production at the cellular level

LPS stimulation of mouse spleen cells in the presence of Hu resulted in almost total suppression of [3H]thymidine incorporation without affecting the percentage of cells induced to produce IgM. Utilizing a method which permitted the simultaneous measurement of IgM production and [3H]thymidine incorporation in individual cells, it was demonstrated directly that LPS stimulation of IgM production can occur in the absence of DNA synthesis.     

Enhanced cytotoxicity with interleukin-1 alpha and 5-fluorouracil in HCT116 colon cancer cells

Recombinant human interleukin-1 alpha (rIL-1 alpha), at concentrations that were not growth-inhibitory when given alone (100-10,000 U/ml), enhanced the growth inhibition resulting from a 72-h fluorouracil (FUra) exposure in HCT116 colon cancer cells. Median-effect analysis of clonogenic assays indicated that rIL-1 alpha, given 24 h prior to and following a 24-h exposure to FUra, increased lethality in a more than additive fashion. rIL-1 alpha did not appear to significantly affect [3H]-FUra metabolism, total [3H]-FUra-RNA incorporation or RNA retention after drug removal, inhibition of thymidylate synthase, or thymidine triphosphate pool depletion. During continuous exposure to rIL-1 alpha, transient stimulation of RNA and DNA synthesis was observed at 72 h, with a return to normal by 96 h. A 24-h exposure to 10 microM FUra altered the elution profile of newly synthesized DNA as monitored by pH step alkaline elution. An accumulation of lower-MW single-stranded DNA species was noted with FUra compared to control, accompanied by a significantly decreased proportion of DNA retained on the polycarbonate filter: 10% retained vs. 32% for control (P = 0.01). A 48-h exposure to rIL-1 alpha alone did not affect the elution profile of nascent DNA species, nor did it enhance the effects of FUra. Although FUra did not appreciably affect pulse [3H]-uridine incorporation into RNA for the initial 8-24 h of FUra exposure, progressive inhibition of net RNA synthesis was observed thereafter. FUra prevented the stimulatory effect of rIL-1 alpha on RNA synthesis, and net RNA synthesis was significantly inhibited (by 64-79% after 72 and 96 h) with the combination compared to rIL-1 alpha alone. Continuous exposure to 10 microM thymidine did not rescue cells from the lethality of FUra alone or the combination of FUra plus rIL-1 alpha, suggesting that depletion of deoxythymidine triphosphate as a consequence of thymidylate synthase inhibition was not the most important component of FUra toxicity. In contrast, 1 mM uridine provided partial protection against the toxicity of FUra alone or with rIL-1 alpha. Although uridine did not affect FUra metabolism, it decreased FUra-RNA incorporation by 42-60%, presumably as a consequence of the 2-fold expansion of UTP pools. [125I]-rIL-1 alpha binding was nonspecific; with a 24-h exposure, however, internalized [125I]-rIL-1 alpha exceeded cell surface-bound material by 2-fold.(ABSTRACT TRUNCATED AT 250 WORDS)     

Colchicine-sensitive structures and lymphocyte activation

The possible modulatory role of microtubules or closely related colchicine-sensitive structures in the response of human lymphocytes to mitogenic lectins was investigated. Colchicine (0.1 to 10 muM) AND VINBLASTINE (0.1 TO 10 MUM) inhibited early [14C]-aminoisobutyric acid and late [3H]-thymidine uptake in phytohemagglutinin-and concanavalin A-stimulated human lymphocytes but failed to alter 45Ca uptake. Lumicolchicine, an inactive congener of colchicine, was ineffective in all three systems. Both microtubular agents accentuated and prolonged the early cyclic AMP response to lectin. Little or no alteration in cyclic AMP levels was seen with colchicine or vinblastine alone or in combination with PGE (10MUM) or epinephrine (1muM) suggesting that the effect on cyclic AMP metabolism is largely selective for lectin stimulation. Neither microtunular agent altered 125I-concanacalin A binding. Since the inhibition of DNA synthesis was throughout the culture period and early aminoisobutyric acid uptake is affected, it appears that these agents are acting on an early event, or events, in the activation sequence. Although the mechanism of the inhibition is not known, the effect of colchicine and vinblastine in prolonging the cyclic AMP response to lectin may be involved. Alternatively, alterations in microtubules assembly may exert effects on membrane architecture interfering with propagation of the stimulus from the membrane to the cell interior.     

Regulation of proliferation of human colonic subepithelial myofibroblasts by mediators important in intestinal inflammation

An increase in myofibroblast number may be necessary for wound healing but may also lead to postinflammatory scarring. We have, therefore, studied the role of mediators important in inflammatory bowel disease in regulating proliferation of human colonic myofibroblasts. Using primary cultures of these cells, we have shown increases in [3H]thymidine incorporation in response to platelet-derived growth factor (EC50 = 14 ng/ml), basic fibroblast growth factor (EC50 = 2.2 ng/ml), and epidermal growth factor (EC50 = 1.1 ng/ml). Coulter counting of cell suspensions demonstrated increases in cell number with these growth factors along with insulin-like growth factor-I and -II. In addition the proinflammatory cytokines IL-1beta and TNF-alpha produced increases in [3H]thymidine incorporation. IL-1beta and platelet-derived growth factor together produced an increase in [3H]thymidine greater than either agonist alone; this effect was not, however, seen when we examined changes in cell numbers. Finally, we demonstrate a mechanism whereby these responses may be downregulated: vasoactive intestinal peptide (1 microM) elevates cyclic AwMP in these cells 4. 2-fold over control and produces a dose-related inhibition of platelet-derived growth factor-driven proliferation with a maximum inhibition of 33% at 1 microM.     

Inhibition of Helicobacter pylori urease activity by ebrotidine

Lipopolysaccharide (LPS), known as one of the potent activators of macrophages, has inhibitory effects on the proliferation of normal macrophages and macrophage-like cell lines. We report here that LPS dose- and time-dependently suppressed the tritiated thymidine ([3H]TdR) incorporation into the acid-insoluble fraction with a significant inverse correlation to the tumour necrosis factor-alpha (TNF) production in the J774.1 macrophage cell line. Among the three tested enzymes involved in DNA synthesis, only thymidine kinase (TK) activity decreased progressively in parallel with the decline in [3H]TdR incorporation, reaching 97% inhibition within 12 hr of LPS treatment, while changes in the activities of other two enzymes, DNA polymerase alpha and thymidylate synthase (TS), were less significant. On the other hand, LPS inhibited the cell proliferation only incompletely, as judged by 62% inhibition of cell growth at 36 hr. Even in the experiments done in a TdR-free medium, cell growth was inhibited by LPS to the same extent, suggesting that TK was not directly involved in the proliferation of J774 cells. LPS also inhibited the conversion of TdR to thymidine monophosphate (TMP) in murine peritoneal exudate macrophages (PEM). Thus LPS-induced suppression of TdR salvage related to TNF production is common in both normal and neoplastic macrophages, and therefore may be of potential importance in the process of macrophage activation.     

Polyamines and regulation of spermatogenesis: selective stimulation of late spermatogonia in transgenic mice overexpressing the human ornithine decarboxylase gene

Polyamines are believed to participate in the induction of cell growth, differentiation, and proliferation, but their role in spermatogenesis has remained obscure. Two transgenic mouse lines (K2 and K15) that overexpress the human ornithine decarboxylase (ODC) gene coding for a rate-controlling enzyme in polyamine biosynthesis and, hence, contain high levels of tissue putrescine have been used to study the stage-specific role of ODC in spermatogenesis. In K2 mice with 30-fold testicular ODC overexpression, [3H]thymidine incorporation at stages I-VI of the cycle of the seminiferous epithelium was significantly above the control level. This may reflect a specific stimulation of DNA synthesis in type A4, intermediate, and type B spermatogonia. The K15 mice that have about 70-fold ODC overexpression showed an elevation of DNA synthesis only at stage V of the cycle, suggesting a specific dependence of type B spermatogonia on putrescine. In K15 mice, [3H]thymidine incorporation of stage VIII tubule segments was decreased, suggesting that excess amounts of putrescine selectively inhibit meiotic DNA synthesis. We propose that putrescine has strictly selective local stimulatory and inhibitory actions during spermatogenic DNA synthesis, and that its excess amounts ultimately may lead to decreased fertility.     

Role of endogenous opioids in progesterone antagonism on oestradiol-induced DNA synthesis in the rat uterus

To probe the possible involvement of endogenous opioid peptides (EOPs) in progesterone (PG) antagonism on oestradiol-17 beta-(OE) induced uterine cell proliferation, the opioid antagonist naltrexone hydrochloride (NTX) and anti-[Met5]-enkephalin antiserum (AME) were investigated for their effect on uterine DNA synthesis in ovariectomized rats pretreated with OE and PG 24 h before killing. As an index of DNA synthesis the rate of in vitro incorporation of [3H]thymidine ([3H]TdR) into DNA was measured. The inhibitory effect of PG on OE-induced DNA synthesis could be diminished by approximately 42 and approximately 20% by the NTX treatments given directly into the uterine horns 13 and 4h before killing, respectively. Intraluminal AME treatments were only effective when they were administered 13 h before decapitation. Systemic blockade of opioid receptors by intraperitoneal NTX injections given every 6 h to the OE + PG-treated rats did not result in the disinhibition of uterine [3H]TdR incorporation. Our results suggest the involvement of EOPs--including [Met5]-enkephalin--as autocrine/paracrine factors in the PG antagonism on OE-induced uterine DNA synthesis.     

Effects of brief glucocorticoid exposure on growth of vascular smooth muscle cells in culture

While prolonged exposure of vascular smooth muscle cells (VSMC) to glucocorticoid has been shown to inhibit cell proliferation, the effect of a brief pulse exposure is not known. We studied the short-term effects of pulse exposure to dexamethasone (DEX) on DNA synthesis in cultured VSMC. VSMC were pulsed with DEx for varying time intervals and [3H]thymidine incorporation into cells after 24 h was measured. Exposure to DEX for 24 h decreased [3H]thymidine incorporation, while pulse treatments with DEX from 2 min to 6 h significantly increased [3H]thymidine incorporation. Maximal proliferative effect was observed with a 20-min exposure. The effect of a 20-min pulse was dose-dependent, with the half-maximal dose of DEX being approximately 10(-7) M. A selective glucocorticoid receptor antagonist, RU486, inhibited the proliferative effect of DEx. Concentrated conditioned medium from cells exposed to 10(-6) M DEX increased [3H]thymidine incorporation by other VSMC in a dose-dependent manner. These results suggest that short-term pulse DEX exposure is capable of producing one or more autocrine growth factors in VSMC via a glucocorticoid receptor action. This effect of glucocorticoid pulses may contribute to the pathogenesis of arteriosclerosis and hypertension.