The effect of prostaglandin I2 on the contractility of the term pregnant human myometrium

Small myometrial strips were dissected from the upper and lower segments of the term pregnant human uterus. The specimens were superfused in organ chambers and contractile activity was recorded isometrically.In strips from the upper segment, prostacyclin (PGI₂), induced an initial excitatory response followed in the majority of experiments by transient inhibition. In the lower segment the response was generally the same although direct inhibition without initial stimulation occurred in some cases.During the period of inhibition the specimens were refractory to iterated exposure to PGI₂. Furthermore, during this period of PGI₂-induced inhibition the muscle strip was also refractory to PGE₂ but responded to PGF_2α and oxytocin by stimulation.After inhibition of spontaneous contractile activity induced by indomethacin PGI₂ induced an excitatory response.The results do not indicate any critical change in the myometrial responsiveness of the upper uterine segment to PGI₂ during labor. In strips from the lower segment obtained before labor there tended to be a dominance of non-responders and inhibition only as compared to the results during labor. Nevertheless, whether or not PGI₂ under physiological or pharmacological conditions has any significant influence on the contractility of the term pregnant human uterus, still remains obscure.As judged from earlier reports from our laboratory and the present study it is evident that the uterine vessels are considerably more sensitive to the action of PGI₂ than the myometrium.     

Effect of bisenoic prostaglandins on the uterine vasculature of the nonpregnant sheep

The effects of the bisenoic prostaglandins on the uterine vasculature and uterine contractile activity have been evaluated in an unanesthetized chronically catheterized nonpregnant sheep preparation. Changes in uterine blood flow were monitored with electromagnetic flow probes while uterine contractile activity and tone were determined via an intra-uterine balloon connected to a pressure transducer. Prostaglandins A₂, D₂, E₂, and prostacyclin (PGI₂) were all found to be vasodilators. PGD₂ and PGI₂ were much more potent than PGA₂ and PGE₂ in dilating the uterine vasculature. The prostacyclin breakdown product 6-keto PGF_1α, PGF_2α, thromboxane B₂, and the endoperoxide analogues U44069 and U46619 produced vasoconstriction of the uterine vasculature. Prostaglandins A₂, D₂ and F_2α increased while PGI₂ decreased uterine contractile activity. PGF_2α also increased uterine tone suggesting that a portion of its vasoconstrictor activity may be due to mechanical compression of the uterine vasculature.     

A proposed role for prostaglandins in the modulation of the relaxation response to urotensin I in isolated rat arteries

Urotensin I (UI) elicits dose-dependent relaxation responses in isolated helical strips of rat tail and mesenteric arteries contracted by 10⁻⁵M norepinephrine (NE). The rat mesenteric artery demonstrated a 40 fold lower threshold sensitivity to UI (0.25 mU/M1 versus maximal relaxation at 0.25 mU/m1). Complete relaxation of the rat tail artery with UI could not be achieved, even at doses exceeding 10 mU/m1. Pretreatment of the arterial strips with cyclooxygenase inhibitors had no effect on the contractile response to NE in the tail artery, but reduced NE responsiveness in the mesenteric artery. Significant enhancement of UI relaxation responses in both types of arterial strips was achieved by pre-treatment with the cyclooxygenase inhibiters, suggesting a modulatory role for prostaglandins (PGs) in the expression of the UI relaxation response in NE contracted arterial strips. The major enzymatically formed PG (as assessed by [1-¹⁴C] PGH₂ metabolism in broken cell preparations) in both the rat tail and mesenteric arteries was 6-keto PGF_1α, the stable hydrolysis product of PGI₂. Using a specific RIA to quantify 6-keto PGF_1α release, it was found that UI elicited nearly a two-fold increase in the release of this PG compared to the NE control in both rat tail and mesenteric arteries. These data suggest that PGI₂ may modulate the relaxation response to UI either by direct physiological opposition (PGI₂ elicited contractile response in NE contracted tail and mesenteric arteries at doses exceeding 10−8M) and/or by some as yet undefined mechanism (eg. effects on Ca²⁺, cAMP).     

Prostacyclin induces a surprising long-lasting motility in quiescent uterine strips (indomethacin-treated) isolated from ovariectomized rats

Dose-response curves for several prostaglandins (PGI₂; PGD₂; PGF₂ and PGE₂); BaCl₂ or prostaglandin metabolites (15-keto-PGF_2α; 13, 14-diOH-15-keto-PGF_2α; 6-keto-PGF_1α and 6-keto-PGE₁ in quiescent (indomethacin-treated) uterine strips from ovariectomized rats, were constructed. All PGs tested as well as BaCl₂, triggered at different concentrations, evident phasic contractions. Within the range of concentrations tested the portion of the curves for the metabolites of PGF_2α was shifted to the right of that for PGF_2α itself; the curve for 6-keto-PGF_1α was displaced to the right of the curve for PGI₂ and that for 6-keto-PGE₁ to the left.It was also demonstrated that the uterine motility elicited by 10⁻⁵ M PGF_2α and its metabolites was long lasting (more than 3 hours) and so it was the activity evoked by PGI₂; 6-keto-PGF_1α and BaCl₂, but not the contractions following 6-keto-PGE₁, which disappeared much earlier. The contractile tension after PGF_2α; 15-keto-PGF_2α; 13, 14-diOH-15-keto-PGF_2α and PGI₂, increased as time progressed whilst that evoked by 6-keto-PGF_2α or BaCl₂ fluctuated during the same period around more constant levels.The surprising sustained and gradually increasing contractile activity after a single dose of an unstable prostaglandin such as PGI₂, on the isolated rat uterus rendered quiescent by indomethacin, is discussed in terms of an effect associated to its transformation into more stable metabolites (6-keto-PGF_1α, or another not tested) or as a consequence of a factor which might protects prostacyclin from inactivation.     

The effect of intrauterine administration of prostacyclin on the contractility of the non-pregnant uterus in vivo

Prostacyclin was infused into the uterus of non-pregnant women either during early menstruation or in the secretory phase of the cycle. A dose of 5 μ/min produced little systemic effect and caused a significant decrease in uterine activity on Days 1 and 2 of the menses whereas 0.5 μg/min did not. However, when dysmenorrhoeic pain and increased uterine activity were produced by infusion of PGF_2α during the secretory phase, PGI₂ neither decreased the activity nor the pain. This indicates that PGI₂ does not cause uterine relaxation by blocking the action of PGF_2α.     

Prostacyclin as neuromodulator in the sympathetically stimulated rabbit heart

Prostaglandin E₂ (PGE₂) has previously been shown to inhibit sympathetic neurotransmission in different organs and species. Based on this inhibitory effect and on its reversal by cyclo-oxygenase inhibitors, PGE₂ has been claimed to be a physiological modulator of in vivo release of norepinephrine (NE) from sympathetic nerves. It is now recognized that prostacyclin (PGI₂) is the main cyclo-oxygenase product in the heart. We therefore addressed the question whether PGI₂, within the same preparation, is formed in increased amounts during sympathetic nerve stimulation and has neuromodulatory activity.The effluent from isolated rabbit hearts subjected to sympathetic nerve stimulation or to infusion of NE or adenosine (ADO) was collected, and its content of PGE₂ and 6-keto-PGF_1α (dehydration product of PGI₂) was analyzed using gas chromatography/mass spectrometry, operated in the negative ion/chemical ionization mode. Other hearts were infused with PGI₂ and nerve stimulation induced outflow of endogenous NE into the effluent was analyzed using HPLC with electrochemical detection. Nerve stimulation at 5 or 10 Hz (before but not after adrenergic receptor blockade), as well as infusion of NE (10⁻⁶–10⁻⁵M) or ADO (10⁻⁴M) increased the cardiac outflow of 6-keto-PGF_1α. Basal and nerve stimulation induced efflux of 6-keto-PGF_1α was approximately 5 times higher than the corresponding efflux of PGE₂. PGI₂ dose-dependently inhibited the outflow of NE from sympathetically stimulated hearts, the inhibition at 10⁻⁶M being approximately 40%.On the basis of these observations we propose that PGI₂ is a more likely candidate than PGE₂ as a potential modulator of neurotransmission in cardiac tissue in vivo.     

Contractile responses to prostacyclin (PGI2) of isolated human saphenous and rat venous tissue

Prostacyclin (PGI₂), in a wide concentration range, produced neither contraction nor relaxation of isolated human saphenous vein. Isolated portal veins and vena cava from normal and spontaneously hypertensive rats (SHR) responded only with an increase in contractile tension when exposed to PGI₂. This constrictor effect was absent in a calcium-free buffer. PGI₂ failed to relax KCI contracted vena cava. The constrictor effect of PGI₂ on portal vein was attenuated in a glucose-free, oxygen deficient buffer. No tachyphylaxis or tolerance to the constrictor effect of PGI₂ was noted. Results emphasize that PGI₂ may produce differing effects on vascular smooth muscle tension depending on species and type of blood vessel studied.     

Vasodilatation of sulfur dioxide derivatives and signal transduction

The vasodilatation of sulfur dioxide (SO₂) derivatives on the rat thoracic aortic rings and its cell signal transduction pathway were studied. The levels of cAMP, cGMP, PGI₂, TXA₂ and activities of PKA and adenylyl cyclase (AC) in the rings exposed to SO₂ derivatives were determined. The results indicated that SO₂ derivatives could dose-dependently relax the isolated rat aorta rings with or without endothelium precontracted by NE, no difference was found between the rings with and without endothelium; Levels of cAMP, PGI₂, AC activity and PKA activity in the aortic rings were significantly increased by the derivatives in a dose-related way; No change of cGMP and TXA₂ levels in rings was observed; cAMP/cGMP and PGI₂/TXA₂ ratios were increased significantly by the SO₂ derivatives. These results led to the conclusions that SO₂ derivatives might cause the endothelium-independent vasorelaxation effect, and the vasorelaxation was mediated in partly by the signal transduction pathway of PGI₂-AC-cAMP-PKA.     

Effect of bromocriptine on prostacyclin release and cyclic nucleotides on rat aortic and uterine tissues

The effect of bromocriptine mesylate on cyclic nucleotides and PGI₂ release by rat aortic and uterine tissues was investigated. Treatment of rats with bromocriptine (10 mg kg⁻¹ I.P. daily for 14 days) increased PGI₂ release by the thoracic aorta from 0.67 ± 0.02 to 1.4 ± 0.03 ng/mg wet tissue (P < 0.001; n = 6). This increase was antagonized by treatment with sulpiride (15 mg kg⁻¹). Incubation of the arterial tissue with bromocriptive (50 ug ml⁻) in vitro also stimulated PGI₂ release. Mepacrine (160 μg ml⁻) significantly decreased both basal and stimulated PGI₂ release. Incubation of myometrial tissue from pregnant rats with bromocriptine (50 μg ml⁻¹) in vitro significantly decreased PGI₂ release from 1.25 ± 0.07 to 0.60 ± 0.08 ng/mg wet tissue (P < 0.05, n = 6).It also elevated uterine cAMP from 40 ± 2 to 64 ± 3 pmoles/100 mg wet tissue. Both effects were antagonized by sulpiride. Bromocriptine did not affect uterine cGMP or the cyclic nucleotides in the aorta. It is concluded that the increase in aortic PGI₂ was mediated via activation of dopamine D-2 receptors that stimulate phospholipase A₂ enzyme. The decrease in myometrial PGI₂ release may be related to the increase in uterine cAMP resulting from activation of dopamine D-1 receptors. Previous studies suggested a role for PGI₂ in implantation in the rat. The results suggest that the inhibitory effèct on uterine PGI₂ may underlie the reported inhibition of bromocriptine on implantation. On broad basis, the decrease in uterine PGI₂ together with the reported luteolytic effect of bromocriptine point to a potential role for the compound in postcoital contraception.     

Modulation of autonomic neurotransmission by PGD2: Comparison with effects of other prostaglandins in anesthetized cats

Experiments with anesthetized cats were done to study possible roles of different prostaglandins (PGs) in modulating sympathetic neuroeffector transmission. We recorded contractions of the nictitating membrane (n.m.), blood flow in the carotid artery, heart rate and blood pressure, both under control conditions and while stimulating the cut cervical sympathetic nerve. Intra-carotid arterial injection (i.a.) of PGD₂ depressed sympathetic transmission to the n.m. without depressing the effects of exogenous norepinephrine (NE). In contrast, PGE₂ enhanced the effects of nerve transmission or exogenous NE on the stimulated n.m. PGI₂ had similar but shorter effects to PGE₂. PGF_2α or a stable PGH₂ analog, contracted the n.m. smooth muscle with no detected effect on nerve transmission. Carotid blood flow was increased by PGD₂, PGE₂ and PGI₂. PGD₂ and PGI₂ caused bradycardia that could be blocked by atropine. This ability of PGD₂ to modulate autonomic nerve activity is of particular interest because of recent reports that nerve tissue synthesizes PGD₂.     

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.     

Effect of the progesterone antagonist RU486 on human myometrial spontaneous contractility and PGI2 release

We studied the effect of antiprogesterone RU 486 on spontaneous uterine contractility and PGI₂ release with human myometrial strips superfused “in vitro”. A decrease of PGI₂ release into the superfusion medium was observed after 20 min superfusion. The inhibition was dose-dependent and reversible. After 20 min washing with tyrode medium without RU 486, the uterine strips recovered their initial rate of release. R5020, a progesterone agonist, did not affect PGI₂ release nor dexamethasone and testosterone. Parallel to the decrease of PGI₂ observed during RU 486 superfusion, the uterine spontaneous contraction frequency decreased, while the amplitude and duration of contractions increased. The alteration of uterine contractility was also rapid, dose-dependent and reversible. Modifications of uterine strip spontaneous contractility, similar to those induced by RU 486, were also observed with superfusions of R5020 at concentrations as low as 10⁻⁹M, dexamethasone (10⁻⁸M), but not with superfusions of testosterone. These observations are not in favour of a progesterone-receptor mediated effect of RU 486 in our model. The mechanism of action may be related to the antiprogesterone specific structure i.e. the bulky substituent at the C-11 position. The RU 486 effect on uterine strip contractility, mimicked by other steroids, could point to a non-specific lipid/membrane interaction. However, the fact that testosterone did not affect motility, may indicate a possible specificity of steroids having a 3 oxo pregnene structure.     

Spontaneous contractile activity of isolated ovarian human vein. A dual influence of prostacyclin (PGI2)

The profile of spontaneous contractions as well as the influences of prostacyclin (PGI₂) on the motility of human ovarian veins obtained during the estrogenic phase of the sex cycle were explored. The preparations exhibited a distinct phasic activity, which progressively decreased as isolation time progresses, dissapearing almost completely following more than two hours. PGI₂ produced a biphasic influence on quiescent preparations. After the threshold is attained lower concentrations caused depression of tone whereas higher ones enhanced the basal tone and induced phasic contractile cycles. Phentolamine reduced markedly the stimulating influence of PGI₂ but had no action on the inhibitory effects, whereas propranolol failed to alter either the excitatory or the depressive action. The results suggest a participation of alpha-adrenoceptive-mediated mechanisms in the stimulatory effects of PGI₂. On the other hand, PGI₂ may be of importance in the regulation of venous flow and the spontaneous or PGI₂-induced contractions could play a role in the counter current mechanism between veins and arteries in the ovarian pedicle.     

Regulation of prostacyclin synthase expression and prostacyclin content in the pig endometrium

Prostaglandins (PGs) are critical regulators of a number of reproductive processes, including embryo development and implantation. In the present study, prostacyclin (PGI₂) synthase (PGIS) mRNA and protein expression, as well as 6-keto PGF_1α (a PGI₂ metabolite) concentration, were investigated in the pig uterus. Endometrial tissue and uterine luminal flushings were obtained on Days 4 to 18 of the estrous cycle and pregnancy. Additionally, conceptuses were collected and examined for PGIS mRNA expression and 6-keto PGF_1α concentration. Regulation of PGI₂ synthesis in the porcine endometrium by steroids, conceptus products, and cytokines was studied in vitro and/or in vivo. Endometrial PGIS protein level increased on Days 12 and 16 in pregnant but not in cyclic gilts. Moreover, higher PGIS protein expression on Day 12 of pregnancy was accompanied by a greater content of 6-keto PGF_1α in the endometrium. The concentration of 6-keto PGF_1α in uterine luminal flushings increased substantially on Days 16 and 18 in pregnant gilts and was higher than in cyclic animals. Greater PGIS mRNA expression and PGI₂ metabolite concentration were detected in Day 12 and 14 conceptuses, respectively. Incubation of endometrial explants with conceptus-conditioned medium resulted in upregulation of PGIS protein expression and increased PGI₂ secretion. Moreover, PGIS mRNA and protein expression were upregulated in the endometrium collected from gravid uterine horn on Day 14 of pregnancy. In summary, PGIS is differentially expressed in the endometrium of cyclic and pregnant gilts resulting in higher PGI₂ synthesis in pregnant animals. Porcine conceptuses are important regulators of endometrial PGIS expression and PGI₂ release during the implantation period.     

Effect of angiotensin II and norepinephrine on release of prostaglandins E2 and I2 by the perfused rat mesenteric artery

Prostaglandin E₂ (PGE₂) and 6 keto-PGF_1α, the stable metabolite of prostacyclin (PGI₂), have been measured in the effluent of perfused rat mesenteric arteries by the use of a sensitive and specific radioimmunoadday (RIA) method. The PGE₂ and 6-keto-PGF_1α were continuousyl released by the unstimulated mesenteric artery over a period of 145 min. After 100 min of perfusion the release of PGE₂ and 6-keto-PGF_1α was 4.5 ± 8.4 pg/min and 254 ± 75 pg.min respectively, which is in accord with the general belief that PGI₂ is the major PG synthesized by arterial tissue. Angiotensin II (AII) 5 ng/ml) induced an increased of PGE₂ and 6-keto-PGF_1α release without changing the perfusion pressure. The effect of norepinephrine (NE) injections on release of PGs depended on the duration of the stabilization period. The changes of perfusion pressure induced by NE were not related to changes in release of PGs. Thus, it seems that the increase of PG release induced by AII and NE was due to a direct effect of the drugs on the vascular wall. This may represent an important modulating mechanism in the regulation of vascular tone.     

Effect of PGD2, PGE2, PGF2α and PGI2 on blood pressure,heart rate and plasma catecholamine responses to spinal cord stimulation in the rat

The following experiments were designed in order to examine the inter-relationships of various prostaglandins (PG's) and the adrenergic nervous system, in conjunction with blood pressure and heart rate responses, $\text{in vivo}$. Stimulation of the entire spinal cord (50v, 0.3–3 Hz, 1.0 msec) of the pithed rat increased blood pressure, heart rate and plasma epinephrine (EPI) and norepinephrine (NE) concentration (radioenzymatic-thin layer chromatographic assay). Infusion of PGE₂(10–30 μg/kg. min, i.v.) suppressed blood pressure and heart rate responses to spinal cord stimulation while plasma EPI (but not NE) was augmented over levels found in control animals. PGI₂ (0.03–3.0 μg/kg. min, i.v.) suppressed the blood pressure response to spinal cord stimulation without any effect on heart rate or the plasma catecholamine levels. PGE₂ and PGF_2α(10–30 μg/kg. min, i.v.) did not change the blood pressure, heart rate or plasma EPI and NE responses to the spinal cord stimulation although PGF_2α disclosed an overall vasopressor effect during the pre-stimulation period. At the pre-stimulation period it was also observed that PGE₂, PGF_2α and PGI₂, had a positive chronotropic effect on the heart rate, the cardiac accelerating effect of PGE₂ was not abolished by propanolol. These $\text{in vivo}$ studies suggest that in the rat, PGE₂ and PGI₂ modulate sympathetic responses, primarily by interaction with the post-synaptic elements — PGE₂ on both blood vessels and the heart and PGI₂ by acting principally on blood vessels.     

PGH2, TxA2 and PGI2 have potent and differentiated actions on human uterine contractility

The contractile response to three different prostanoids of the isolated human myometrium and the different layers of the utero-tubal junction (UTJ) was studied $\text{in vitro}$. The prostaglandin endoperoxide, PGH₂, stimulated contractility of both the myometrium and the outer and inner muscle layers of the UTJ, whereas the intermediate layer of the UTJ was inhibited. Thromboxane A₂ generated from PGH₂ and a thromboxane synthase preparation caused a stimulation of both the myometrium and all three layers of the UTJ. The stimulatory response to TxA₂ occurred at concentrations as low as 50–70 pg/ml. The sodium salt of PGI₂ was found to relax both the myometrium and all the layers of the UTJ. Intravenous administration of PGI₂ in repeated doses between 2–8 μg induced facial flushing and headache but had little if any effect on $\text{in vivo}$ uterine contractility. At least under $\text{in vitro}$ conditions, these short-lived prostanoids and/or their metabolites apparently have a specific action on uterine contractility, an action which is manifested at comparatively low concentrations.     

Stimulation of ovine myometrial activity by 6-keto prostaglandin E1

6-keto prostaglandin E₁ (6KE) is a metabolite of PGI₂, which we have shown previously inhibits spontaneous myometrial activity. In the present study we examined the effects of 6KE on uterine electrical and mechanical activity in non-pregnant ovariectomized sheep. 6KE stimulated uterine activity in a dose-dependent fashion. The effect was enhanced by pre-treatment with estradiol (E2). It was not influenced by pre-treatment with meclofenamic acid and was not associated with significant changes in the concentrations of 13,14 dihydro 15-keto PGF_2α in vena cava plasma. After E2 treatment, 6KE had 0.2–0.3 of the stimulatory activity of PGF_2α. In the absence of E2, the uterine response to both 6KE and PGF_2α was decreased. In animals in which spontaneous myometrial activity was inhibited by PGI2, the uterus remained responsive to 6KE. We conclude that in the ovariectomized non-pregnant sheep 6KE stimulates uterine activity, and that the effect is independent of endogenous PG production.     

Prostacyclin (PGI2) and U-46619 stimulate coronary arteries from diabetic dogs and their action is influenced by inhibitors of prostaglandin biosynthesis

Isolated coronary arteries from diabetic dogs presented different contractile response to U-46619 to prostacyclin (PGI₂) and to arachidonic acid (AA) than those of normal dogs. The stimulatory effect of the synthetic endoperoxide analogue U-46619, was significantly higher in the diabetic condition than in preparations from normal animals. On the other hand, while PGI₂ evoked a dose-dependent relaxation of normal coronary arteries, diabetic vessels were not relaxed by low concentration of PGI₂ whereas higher ones produced a distinct constrictor effect. Additionally, inhibitors of prostaglandins and thromboxane (TX) biosynthesis such as corticosterone, indomethacin, acetylsalicylic acid, imidazole and L-8027, abolished the stimulatory effect of PGI₂ in coronary arteries from diabetic dogs. AA relaxed coronaries from normal dogs and constricted those from diabetic animals, this action being inhibited by imidazol and L-8027.The present results suggests that: a) coronary vessels from diabetic dogs are more reactive to an endoperoxide analogue than normal preparations and b) PGI₂ and AA probably contract diabetic coronary arteries via the participation of a TX like material. It is then plausible that this effect could be tentatively ascribed to the production of a prostaglandin constricting substance including als the probable generation of a TXA₂-like agonist.     

Prostacyclin production by the bovine aortic smooth muscle

It is well known that cultured aortic smooth muscle cells, the phenotype of which has modulated from contractile to synthetic, are able to release prostacyclin (PGI₂). We have studied the release of PGI₂ from cultured explants of bovine aortic media, which represent an homogeneous population of smooth muscle cells with a contractile phenotype. These explants released spontaneously huge amounts of PGI₂, which was the major eicosanoid produced. PGI₂ release was stimulated by serum and by serotonin. This experimental model seems useful to evaluate the contribution of smooth muscle to the biosynthesis of PGI₂ by the arterial wall.