Effects of the protein kinase inhibitors, staurosporine and K-252a, on PGI2 production by rat liver cells (the C-9 cell line)

Staurosporine and K-252a, known inhibitors of several protein kinases, stimulated PGI2 production (measured as 6-keto-PGF1 alpha) in rat liver cells (the C-9 cell line). Preincubation of the rat liver cells with staurosporine or K-252a enhanced the PGI2 production stimulated by 12-O-tetradecanoylphorbol-13-acetate (TPA), platelet activating factor (PAF) and the Ca2(+)-ionophore A-23187, but not the PGI2 synthesis stimulated by exogenous arachidonic acid. These results suggest that phosphorylation of some proteins or certain amino acids on a protein can regulate arachidonic acid metabolism probably in the pathway leading to deesterification of phospholipids.     

Effects of okadaic acid on agonist-stimulated PGI2 production by rat liver cells (the C-9 cell line).

Preincubation of rat liver cells (the C-9 cell line) with okadaic acid (0.6 microM), a known inhibitor of protein-serine/threonine phosphate phosphatases 2A and 1, for 30 min amplified 6-keto-PGF1 alpha production stimulated by thapsigargin, thrombin, platelet activating factor (PAF), 12-O-tetradecanoylphorbol-13-acetate (TPA), the Ca2+ ionophore A-23187 and lysine-vasopressin (Lys.ADH) but not that stimulated by exogenous arachidonic acid. The amplification occurred within minutes after addition of the stimulators. The effect of preincubation was time dependent. Preincubation of the cells with okadaic acid (0.6 microM) for longer than 30 min decreased this amplification. The results suggest that inhibition of protein-serine/threonine phosphate phosphatase(s) can both positively and negatively regulate deesterification of phospholipids although the negative regulation may reflect a toxic response. Microcystin LR and nodularin, inhibitors of protein-serine/threonine phosphate phosphatases 2A and 1 in vitro, did not amplify 6-keto-PGF1 alpha production by PAF when incubated with intact cells.     

Polyploidization of 2nH1 (ES) cells by K-252a and staurosporine

Mouse 2nH1 (ES) cells were examined for polyploidization using K-252a and staurosporine. Though 2nH1 cells were polyploidized by both K-252a and staurosporine, tetraploid cells, 4nH1K cells, were obtained only from cell populations exposed to K-252a. The probability of successful establishment of tetraploid cells was 2/9, suggesting that the highly polyploidized-tetraploid transition might occur infrequently. Cell cycle parameters of 4nH1K cells were almost the same as those of 2nH1 cells, suggesting that the rate of DNA synthesis was about twice that of the diploid cells. The cell volume of 4nH1K cells was about twice of that of diploid cells, indicating that 4nH1K cells contained about twice as much total intracellular material as 2nH1 cells. The morphology of the 4nH1K cells was flagstone-like, thus differing from that of the spindle-shaped 2nH1 cells, suggesting that morphological transformation occurred during the diploid-tetraploid transition. 4nH1K cells exhibited alkaline phosphatase activity and formed teratocarcinomas, implying that they were pluripotent. These characteristics of 4nH1K cells were similar to those of tetraploid 4nH1 cells that have been established through polyploidization by demecolcine, suggesting that 4nH1K and 4nH1 cells are similar irrespective of the different mechanisms of polyploidization.     

Estrogen increases male rat aortic endothelial cell (RAEC) PGI2 release

Estrogen has been proposed as a negative risk factor for development of peripheral vascular disease yet mechanisms of this protection are not known. This study examines the hypothesis that estrogen stimulates rat aortic endothelial cell (RAEC) release of PGI₂. Male Sprague-Dawley rat abdominal aortic 1-mm rings were placed on 35 mm matrigel plates, and incubated for 1 week. The cells were transferred to a Primaria 60-mm dish and maintained from passage 3 in RAEC complete media and experiments performed between passages 4–10. Cells were incubated with Krebs-Henseleit buffer (pH 7.4) containing carrier or increasing concentrations of β-estradiol or testosterone for 60 min. The effluent was analyzed for eicosanoid release of 6-keto-PGF_1α (6-keto, PGI₂ metabolite), PGE₂ and thromboxane B₂ (TXB₂) by EIA (hormone stimulated — basal). Cells were analyzed for total protein by the Bradford method and for cyclooxygenase-1 (COX-1) and prostacyclin synthase (PS) content by Western blot analysis and densitometry. Testosterone did not alter RAEC 6-keto-PGF_1α release, whereas estrogen increased RAEC 6-keto-PGF_1α release in a dose-related manner. Estrogen preincubation (10 ng/ml) decreased COX-1 and PS content by 40% suggesting that the estrogen-induced increase in male RAEC PGI₂ release was not due to increased synthesis of COX-1 or PS. These data support the hypothesis that estrogen stimulation can increase endogenous male RAEC release of PGI₂.     

The cardiovascular pharmacology of prostacyclin (PGI2) in the rat

Physiological roles have been suggested for prostacyclin in the cardiovascular system. Prostacyclin was administered by intravenous infusion to unanesthetized rats. Over a 24 hr period, 0.32 mg/kg/day caused only flushing of the ears. Larger doses (0.56 and 1 mg/kg/day) caused hypothermia, behavioral depression, and swelling of the paws. Cumulative dose-response curves for its depressor action were determined in both unanesthetized and anesthetized, vagotimized, ganglion-blocked rats. In unanesthetized rats, the threshold dose was about 0.1 μg/kg/min. Respiratory depression precluded doses larger than 1 μg/kg/min. In anesthetized rats, the threshold dose was about 0.001 μg/kg/min, and the maximally effective dose was about 0.1 μg/kg/min. At 0.032 μg/kg/min, blood pressure first fell and then rose slightly. This compensatory rise did not occur in nephrectomized rats, suggesting renin release as the mechanism. Intravenous infusion of 0.1 but not 0.01 μg/kg/min in unanesthetized rats doubled plasma renin activity. In saline-loaded unanesthetized rats, urine volume and urinary sodium excretion were decreased by 0.1 μg/kg/min of prostacyclin.     

Release of prostacyclin (PGI2) by the layers of corpus of rat stomach

Release of PGI₂ by slices of muscularis and mucosa layers of rat corpus stomach was investigated. An anti-aggregatory substance that was released by slices of muscularis was identified as PGI₂ in various bioassay systems including anti-serum against PGI₂ as well as by stimulation of its generation with AA or PHG₂ and by inhibition of this generation with indomethacin or tranylcypromine, respectively. PGI₂ was the major PGs released from slices of muscularis. The release of PGI₂ from muscularis surpasses a similar release of PGI₂ from mucosa by a factor of 10. On the other hand, degradation of exogenous PGI₂ was 4 times faster by mucosa than by muscularis slices. Our conclusion is that in the stomach corpus wall of rats, muscularis is the main source of PGI₂, which may play a role in regulation of mucosal blood flow.     

Dual actions of prostacyclin (PGI2) on the rat pregnant uterus

Using strips of rat pregnant uterus, treated with indomethacin to suppress spontaneous contractility, the oxytocic activity of prostacyclin was compared with other prostaglandins. A prostacyclin concentration of 32 ng/ml elicited uterine contractions in all experiments. In this respect prostacyclin was 80 times more active than 6-oxo-PGF_1α but less active than PGE₂ or PGF_2α. Apart from a direct stimulant effect, prostacyclin also exhibited an indirect potentiating action. In threshould concentrations prostacyclin caused a 3-fold potentiation of threshold doses of oxytocin. A lesser 1.5-fold potentiation of PGF_2α was also observed. The implications of these findings in relation to prostacyclin playing a role in parturition are discussed.     

Increased production of prostacyclin (PGI2) by vascular intimal smooth muscle cells from atherosclerotic rabbit aorta

PGI₂ synthesis by aortic strips obtained from thoracic aorta of rabbits fed a high cholesterol diet was examined and compared with that of control rabbits fed a normal diet. In this report, the amounts of PGI₂ produced were shown as 6-keto-PGF_1α per μg of aortic tissue DNA instead of per mg wet weight. We also investigated PGI₂ synthesis by cultured smooth muscle cells (SMC) obtained from atherosclerotic intima.Basal PGI₂ production by aortic strips from atherosclerotic rabbit aorta was significantly augmented compared with that of controls. Arachidonic acid (AA)-induced PGI₂ production by atherosclerotic aorta was also significantly higher than that of controls. PGI₂ producing capacities of intimal and medial layers, separated from atherosclerotic aorta, were examined and the intimal layer was found to elicit a significantly greater PGI₂ production than the medial layer.Furthermore, cultured intimal SMC obtained from atherosclerotic rabbit aorta produced a greater amount of PGI₂ than medial SMC from normal rabbit aorta at various cultured conditions. These results suggest that the possibility of enhanced PGI₂ production by atherosclerotic aorta may well be considered as a defence mechanism of the vessel wall against damaging stimuli.     

Effect of taurine on arterial, uterine and cardiac PGI2 and TXA2 synthesis in the rat

The influence of taurine (in drinking water for 6 weeks) on PGI₂ and TXA₂ synthesis by some female rat organs was investigated using radioimmunoassay and platelet antiaggregatory bioassay. Taurine 100 and 200 mg/kg/day increased aortic PGI₂ release from 0.59 ± 0.04 (control) to 0.85 ± 0.05 and 1.01 ± 0.06 ng/mg, respectively and that by the myometrium from 0.24 ± 0.02 (control) to 0.38 ± 0.01 and 0.50 ± 0.04 ng/mg wet tissue, respectively (P < 0.05, n = 6). It did not affect PGI₂ and TXA₂ production in the heart or TXA₂ in the aorta. Taurine 200 mg/kg depressed uterine TXA₂ synthesis from 148.6 ± 9.8 (control) to 85.4 ± 6.8 pg/mg (P < 0.05, n = 6). Furthermore taurine 0.4 and 0.8 mM in vitro stimulated PGI₂ released by the myometrial and aortic tissues from pregnant rats. The stimulant effect of taurine on PGI₂ may be related to its antioxidant effect whereas its inhibitory effect on uterine TXA₂ may result from direction of synthesis towards PGI₂. It is concluded that endogenous taurine may participate in regulation of PGs synthesis and that prostanoids may contribute to its known actions. On broad basis, taurine-induced release of PGI₂ may prove of potential value in those ailments characterised by deficiency in PGI₂ release.     

Establishment of a tetraploid Meth-A cell line through polyploidization by demecolcine but not by staurosporine, K-252A and paclitaxel

Polyploid cells are made by DNA reduplication without cell division, however, it is not easy to establish polyploid mammalian cell lines. It is worth studying the difference in cell character between hyperploid and parent cell lines. Meth-A cells were polyploidized by demecolcine, K-252a, staurosporine and paclitaxel. The cell-cycle responses of highly polyploid Meth-A cells after the removal of the drugs were examined by flow cytometry (FCM). Meth-A cells were highly polyploidized by these drugs. The polyploid Meth-A cells gradually decreased in ploidy after the drug release. A tetraploid Meth-A cell line was established only from the demecolcine-induced polyploid Meth-A cells. The duration of G1, S and G2/M phases of the tetraploid cell line were mostly the same as those of the parent diploid cells, except that the G2/M phase was 1.5 h longer. The chromosome number of tetraploid Meth-A cell line was about twice of the diploidy. A tetraploid Meth-A cell line was established.     

Prostacyclin (PGI2) in pregnant human uterus

Prostacyclin lowers the tonus and reduces the spontaneous motility of isolated pregnant human myometrium. This effect seems to be related to cyclic-AMP accumulation, since PGI₂ increases the formation of this cyclic nucleotide in incubated minces of pregnant and non-pregnant uterus. The ability of this tissue to generate a labile substance which inhibits platelets aggregation, has been demostrated and discussed.     

Increased production of PGI2-like activity by frozen-thawed rat aorta

The effects of storage conditions, temperature, and time on the ability of the rat thoracic aorta to produce a platelet aggregation inhibitor were investigated. Aortic fragments were incubated in Tris buffer, aliquots of which were then tested for their ability to inhibit ADP-induced human platelet aggregation. The incubation fluid of samples that had been soaked in Tris buffer at 4°C for 24 hours contained no inhibitor activity, whereas the incubation fluid of similar samples that had been kept at 4°C but not soaked in buffer contained comparable inhibitor activity as that of fresh samples. The incubation fluid of samples that had been kept at ?20°C or ?80°C contained greater inhibitor activity than that of fresh samples, and was maintained in ?20°C samples for 7 days, and ?80° samples for 28 days. The aortic inhibitor had similar properties as PGI₂.     

Nomenclature for analogs of prostacyclin (PGI2)

A semi-systematic nomenclature for prostacyclin analogs is proposed.     

Uncoupled cell cycle without mitosis induced by a protein kinase inhibitor, K-252a

The staurosporine analogues, K-252a and RK-286C, were found to cause DNA re-replication in rat diploid fibroblasts (3Y1) without an intervening mitosis, producing tetraploid cells. Analysis of cells synchronized in early S phase in the presence of K-252a revealed that initiation of the second S phase required a lag period of 8 h after completion of the previous S phase. Reinitiation of DNA synthesis was inhibited by cycloheximide, actinomycin D, and serum deprivation, but not by Colcemid, suggesting that a functional G1 phase dependent on de novo synthesis of protein and RNA is essential for entry into the next S phase. In a src-transformed 3Y1 cell line, as well as other cell lines, giant cells containing polyploid nuclei with DNA contents of 16C to 32C were produced by continuous treatment with K-252a, indicating that the agent induced several rounds of the incomplete cell cycle without mitosis. Although the effective concentration of K-252a did not cause significant inhibition of affinity-purified p34cdc2 protein kinase activity in vitro, in vivo the full activation of p34cdc2 kinase during the G2/M was blocked by K-252a. On the other hand, the cyclic fluctuation of partially activated p34cdc2 kinase activity peaking in S phase still continued. These results suggest that a putative protein kinase(s) sensitive to K-252a plays an important role in the mechanism for preventing over-replication after completion of previous DNA synthesis. They also suggest that a periodic activation of p34cdc2 is required for S phases in the cell cycle without mitosis.     

Prostacyclin (PGI2) effets on anterior pituitary hormones in the rat in vivo

Intravenous injection of 600 μg PGE₂ or PGI₂ significantly increased serum LH and prolactin levels in estradiol treated ovariectomized rats. There was no effect on serum FSH concentration. PGE₂ and PGI₂ stimulated LH release in a non-dose dependent manner, while prolactin levels were positively correlated with the dose administered following PGI₂ treatment. 6-keto-PGF_1α at a comparable dose had no effect on pituitary hormone levels. Subcutaneous administration of 1 mg/kg or 60 mg/kg PGI₂ for seven days significantly depressed serum LH level both in male and female rats. These doses had no effect on serum FSH or prolactin levels.     

PGI2 production by rat blood vessels: Diminished prostacyclin formation in veins compared to arteries

Homogenates of eleven different blood vessels from normal Sprague-Dawley rats varied in their ability to produce PGI₂ (i.e., 6-keto-PGF_1α) from [1−¹⁴C]PGH₂. The most notable difference was seen between arteries and veins. Arterial tissues produced more 6-keto-PGF_1α from exogenous PGH₂ than veins at all enzyme (i.e., protein) concentrations tested. Similar results were obtained utilizing different homogenization techniques or arterial and venous rings, indicating this difference was real and not due to homogenization artifacts. In addition, the thoracic segment of the inferior vena cava was more active in converting added [1−¹⁴C]PGH₂ to 6-keto-PGF_1α than the abdominal segment of added inferior vena cava suggestive of a possible segmental distribution of the enzyme activity in blood vessels. These results may be interpreted as indicating that PGI₂ may have a vasomotor function for blood vessels in addition to its proposed antithrombotic role.     

Induction of high polyploidy in Phaseolus cell cultures by the protein kinase inhibitor,K-252a

Summary Somatic polyploidy of species-specific and tissue-specific degrees occurs in almost all plant species studied so far, but nearly nothing is known about the control mechanisms switching the mitotic cycle to an endoreduplication cycle. In order to search for a possible role of the cdc2 kinase, cell suspension cultures of the Runner bean, Phaseolus coccineus (Leguminosae) were treated with K-252a, an inhibitor of protein kinase activity. The treatment resulted in continuous cell cycles without mitosis, and hence induced polyploidy levels up to 2048C. It is, therefore, suggested that phosphorylation of a protein kinase, probably of the cell cycle-important p34^cdc2 type, is involved in the control of endoreduplication.     

Effect of prostacyclin (PGI2) on platelet adhesion to rabbit arterial subendothelium

The effect of prostacyclin on platelet aggregation and adhesion was investigated in everted pieces of rabbit abdominal aorta, from which the endothelium had previously been removed. Citrated human blood, to which different concentrations of prostacyclin (0.1–100 ng/ml) were added, was perfused through the vessels, after which sections were examined and evaluated by light microscopy. Prostacyclin inhibited thrombus formation at concentrations greater than 0.1 ng/ml, whereas 20 ng/ml were required to reduce the amount of adhesion to the subendothelial surface. Thus prostacyclin prevents thrombus formation at much lower concentrations than are needed to inhibit platelet-vessel wall interaction.     

Chemical stability of prostacyclin (PGI2) in aqueous solutions

The rate constant for the hydrolysis of prostacyclin (PGI₂) to 6-keto-PGF_1α was measured by monitoring the UV spectral change, over a pH range 6 to 10 at 25°C and the total ionic strength of 0.5 M. The first-order rate constant (k_obs) extrapolated to zero buffer concentration follows an expression, k_obs = k_H+ (H+), where k_H+ is a second-order rate constant for the specific acid catalyzed hydrolysis. The value of k_H+ obtained (3.71 × 10⁴ sec⁻¹ M⁻¹) is estimated approximately 700-fold greater than a k_H+ value expected from the hydrolysis of other vinyl ethers. Such an unusually high reactivity of PGI₂ even for a vinyl ether is attributed to a possible ring strain release that would occur upon the rate controlling protonation of C₅. A Brønsted slope (α) of 0.71 was obtained for the acid (including H₃O+) catalytic constants, from which a pH independent first-order rate constant for the spontaneous hydrolysis (catalyzed by H₂O as a general acid) was estimated to be 1.3 × 10⁻⁶ sec⁻¹. An apparent activation energy (E_a) of 11.85 Kcal/mole was obtained for the hydrolysis at pH 7.48, from which a half-life of PGI₂ at 4°C was estimated to be approximately 14.5 min. when the total phosphate concentration is 0.165 M (cf. 3.5 min. at 25°C).     

Effect of ibuprofen on systolic blood pressure and aortic PGI2 production in spontaneously hypertensive rats (SHR)

Ibuprofen, at doses of 90, 180, and 360 mg/kg, subcutaneously, produced no statistically significant changes in systolic blood pressure in spontaneously hypertensive rats (SHR) measured over a period of 5–240 minutes, or at 24 hours. Seven-day treatment of SHR with ibuprofen (180 mg/kg, S.C. 2 × day) also had no significant effect. Production of PGI₂-like substance by isolated aortic rings from SHR was inhibited (20–75%) by the drug in concentrations of 1–10 μg/ml. Thus, in doses known to be anti-inflammatory and/or inhibitory of prostaglandin biosynthesis, ibuprofen appears to lack an effect on systolic blood pressure in this paradigm of essential hypertension. This is in contrast to findings indicating other inhibitors of prostaglandin biosynthesis may exacerbate the hypertensive state in SHR and man.