Effects of prostanoids on isolated feline cerebral arteries. I. Characterization of the contraction-mediating receptor

The effects of various prostanoids on isolated feline basilar arteries (BA) were studied. Contractions were induced with the following order of potency: U 46619 approximately equal to U44069 greater than PGB2 greater than PGF2 alpha approximately equal to PGA2 approximately equal to PGB1 greater than or equal to PGA1 approximately equal to PGE2 = PGD2 greater than PGF1 alpha approximately equal to TXB2 approximately equal to PGE1 approximately equal to PGD1. Distinct bimodal responses with a relaxation at low concentrations followed by a contraction at high concentrations, were induced by PGA1, PGA2, PGD, and PGE2. None of the tested prostanoids relaxed K+-contracted arteries, and a sizable relaxant effect in PGF2 alpha-contracted arteries could be induced only by PGE1. As judged by the relative order of potency, PG-induced contractions of the feline BA seem to be mediated by a thromboxane sensitive receptor. PGF2 alpha-induced contractions apparently do not involve the release of noradrenaline from perivascular nerves since phentolamine failed to affect contractions induced by this agent.     

Relaxant and contractile effects of some amines and prostanoids in myometrial and vascular smooth muscle within the human uteroplacental unit

Tissue specimens of human myometrium and placenta were obtained at caesarean section and normal vaginal deliveries. Strips of myometrial tissue, and segments of intramyometrial arteries, chorionic plate arteries and veins, and stem villous arteries were dissected. The preparations were mounted in organ baths, and isometric tension was recorded. In myometrial preparations, prostaglandin F2 alpha (PGF2 alpha), prostaglandin E2 (PGE2), noradrenaline (NA) and serotonin (5-HT) all caused concentration-related contractions. In vascular preparations, the maximum contractant or relaxant effect, Emax or Imax, and the drug concentrations causing half maximum responses, EC50 or IC50 were determined. In intramyometrial arteries no significant differences between Emax or EC50 values were found for NA, 5-HT and PGF2 alpha. The Imax values (relaxation of vessels contracted by vasopressin) ranged prostacyclin (PGI2) greater than PGF2 alpha = PGE2, and the IC50 values PGF2 alpha = PGE2 = PGI2 (PGF2 alpha less than PGI2). Thus, PGF2 alpha showed dual effects. Only PGI2 relaxed placental vessels contracted by PGF2 alpha. In chorionic arteries, Emax values ranged PGE2 = PGF2 alpha greater than 5-HT greater than NA, and IC50 values 5-HT less than NA = PGF2 alpha = PGE2. In stem villous arteries, Emax ranged PGE2 = PGF2 alpha greater than 5-HT = NA, and EC50 5-HT = NA = PGE2 = PGF2 alpha. In chorionic veins the order of Emax values was PGF2 alpha = PGE2 greater than 5-HT greater than NA, and that of the EC50 values 5-HT less than NA = PGF2 alpha = PGE2. Smooth muscle tissues from the human uteroplacental unit show individual responses to prostanoids and amines, probably reflecting individual mechanisms for control of contractile activity and blood flow.     

Effects of prostanoids on isolated feline cerebral arteries. II. Roles of extra- and intracellular calcium for the prostaglandin F2 alpha-induced contraction

The roles of extra- and intracellular calcium for the contractile effects of PGF2 alpha in the feline basilar artery (BA) were investigated. Comparisons were made with contractions induced by K+ and noradrenaline (NA). Addition of nifedipine to PGF2 alpha- or K+ (124 mM)-contracted arteries resulted in an incomplete relaxation, whereas NA-contracted vessels were completely relaxed. Incubation of the preparations in a calcium-free medium containing 10(-5) M EGTA for 5-10 min almost abolished contractions induced by K+ and NA. In contrast, 63% of the response to PGF2 alpha remained after pretreatment of the arteries in a calcium-free solution for 40 min; PGF2 alpha produced a biphasic contraction in 17 out of 20 preparations consisting of a rapidly developing initial phase followed by a second increase in tension after 1-6 min. The second phase was absent if the EGTA-concentration was increased to 10(-4) M, or if the arteries were pre-treated with nifedipine. After incubation of the arteries in a calcium-free medium for 40-120 min and K+-depolarization, re-addition of calcium elicited contractions at lower concentrations in the presence of PGF2 alpha than in controls. The results suggest that PGF2 alpha-induced contractions in the feline BA are considerably less dependent on extracellular calcium than contractions evoked by K+ or NA. PGF2 alpha appears to be able to release calcium from two cellular stores, and may also promote calcium influx through the cell membrane.     

Characterization of the prostanoid receptors and of the contractile effects of prostaglandin F2a in human pial arteries

The contractile and relaxant effects of various prostanoids were studied on isolated human pial arteries. Contractions were elicited with the following order of potency: U46619?U44069>PGB₂>PGF_2a>PGE₂?PGD₂>PGF_1a≥TXB₂, indicating that prostanoid-induced contractions probably are mediated by a thromboxane-sensitive receptor. Relaxation of PGF_2a-contracted arteries was induced with the order of potency: PGE₂> PGE₁>PGD₂?PGD₁. Vessels contrated by K⁺ were relaxed only by PGE,. Since PGI₂ was previously found to be more potent than all the prostanoids tested in the present study, relaxant responses are probably mediated via a PGI₂-sensitive receptor. The roles of free extracellular and cellularly bound calcium for the contractile effects of PGF_2a and K⁺ were estimated by incubating the arteries for various times in calcium-free medium containing 10^-5 M EGTA. Incubation for 5–10 min abolished K⁺-induced contractions, whereas after 40 min of incubation PGF_2a still induced contractions that reached 70% of control. The PGF_2a-induced contraction was biphasic in 8 out of 10 preparations. The second phase could be eliminated by increasing the EGTA-concentration to 10^-4 M, as well as by nifedipine pretreatment. In calcium-free, high K⁺ medium calcium-induced contractions were elicited at lower concentrations in the presence of PGF_2a. The results suggest that PGF_2a-induced contractions in human pial arteries are relatively independent of free extracellular calcium. PGF_2a may promote trans-membrane influx of calcium, as well as release calcium from seemingly superficially located cellular stores.     

Type II alveolar epithelial eicosanoid metabolism: predominance of cyclooxygenase pathways and transcellular lipoxygenase metabolism in co-culture with neutrophils.

Arachidonic acid (AA) metabolism was studied in freshly isolated type II alveolar epithelial cells of rabbits. Substantial basal secretion of prostanoids with predominance of prostaglandin (PG) I2 was noted. Challenge with the calcium ionophore A23187 resulted in a time- and dose-dependent increase in the generation of all AA cyclooxygenase products to severalfold values following the rank order of 12-heptadecatrienoic acid (12-HHT) greater than PGI2 greater than PGE2 greater than or equal to thromboxane A2 greater than PGF2 alpha approximately PGD2. Even larger augmentation of prostanoid generation was evoked by challenge with free exogenous AA. Generation of the different AA cyclooxygenase products was inhibited by acetylsalicylic acid with IC50 in the range between 250 and 500 microM. In addition to the prostanoid release, ionophore-challenged type II pneumocytes liberated substantial amounts of AA lipoxygenase products with leukotriene (LT) B4 greater than 15-hydroxyeicosatetraenoic acid (HETE) greater than 12-HETE greater than 5-HETE. Generation of LTs and HETEs was markedly increased upon simultaneous disposal of free exogenous AA. No omega-oxidation of LTB4 was noted, and no evidence for secretion of intact LTA4 was obtained. The epithelial cells displayed avid uptake of exogenously offered LTA4 with subsequent enzymatic conversion to LTB4. Co-stimulation of pneumocytes with neutrophils (PMN) resulted in an amplification of LTB4 generation, paralleled by a decrease in nonenzymatic decay products of PMN-derived LTA4; both phenomena were dose dependent on the pneumocyte-PMN ratio.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cyclic AMP-dependent and -independent effects of prostaglandins on the contraction-relaxation cycle of spontaneously beating isolated rat atria

The effects of prostaglandin (PG) F2 alpha, E2, E1 and I2 on the amplitude, duration of the contraction-relaxation cycle (CRC), the second derivative of developed tension and the cyclic adenosine-3', 5' monophosphate (cAMP) level and on 45Ca uptake were studied in isolated spontaneously beating rat atria. The order of capacity to generate positive inotropic effects was PGF2 alpha greater than PGE2 greater than PGE1 approximately PGI2. Only PGI2 and PGE1 decreased the duration of CRC. PGF2 alpha produced an increase during the first 2.5 min, whereafter the duration returned to the initial level, PGE2 had no significant effect on the shape of the CRC. The ratios of the maximum and minimum of the second derivative of the developed tension were reduced by PGI2 and PGF2 alpha 2.5 and 5 min after administration, respectively. The 45Ca uptake was stimulated equally by all of the tested PGs, but only PGI2 and PGE1 could significantly increase the cAMP level. The results do not support the conception that cAMP could mediate the positive inotropic effect of PGs. Rather the contrary, cAMP, increased by PGE1 or PGI2, could be responsible for increased relaxation, which might prevent the full development of tension.     

Some effects of the calcium promotor BAY K 8644 on feline cerebral arteries

The proposed calcium promotor BAY K 86(44) contracted feline basilar arteries partially depolarized by 10 mmol X 1(-1) potassium in a concentration-dependent manner (EC50 value: (2.1 +/- 1.2) X 10(-9) mol X 1(-1)). The concentration-response curve for prostaglandin (PG) F2 alpha was displaced to the left after pretreatment with BAY K 86(44). PGF2 alpha induced a biphasic contraction in calcium-free medium as has been described previously. The second PGF2 alpha-induced contraction phase in calcium-free medium was abolished by pretreatment with nifedipine or diltiazem. BAY K 86(44) restored the second phase in arteries pretreated with nifedipine, but not in vessels pretreated with diltiazem. The findings suggest that BAY K 86(44) acts as a promotor of calcium-influx, probably by interaction with the 'dihydropyridine receptor' in the cell membrane, and also provide support for the view that PGF2 alpha releases membrane-bound calcium.     

Conversion of arachidonic acid to prostaglandins in homogenates of human skeletal muscle and kidney.

The capacity of human skeletal muscle and kidney homogenates to synthetize prostaglandins (PGs) from exogenous precursor was investigated. Low-speed supernatants of muscle as well as renal medullary and cortical homogenates were incubated with 14C-labelled arachidonic acid (14C-AA) prepared as a sodium salt. 14C-PGs in the incubates were extracted, separated with thin-layer chromatography (TLC) and quantified by radioscanning. In the skeletal muscle incubates 14C-AA was converted into 14C-PGs with a time-dependent yield, most effectively after 10--15 min incubation. Well-defined radiopeaks parallel to unlabelled standards of PGD2, PGE2, PGF2 alpha and 6-keto-PGF1 alpha were obtained in the chromatograms. PGE2 was the main PG formed, constituting over 50% of 14C-activity, whereas 6-keto-PGF1 alpha, PGD2 and PGF2 alpha were found in considerably lower proportions. In the renal medullary incubates, PGE2 likewise accounted for the largest part of 14C-PGs formed, but significant relative amounts of PGF2 alpha and PGD2 were also found. A minor peak, corresponding to 6-keto-PGF1 alpha and thus indicating formation of PGI2, was also obtained. In contrast to the medulla, no 14C-PGs could be found in the renal cortical incubates. The results demonstrate the existence of a considerable tissue specificity in the quantitative and qualitative expression of PG biosynthesis in man.     

The strong contractile effect of the thromboxane receptor agonist U-46619 in isolated human pulmonary arteries and its competitive antagonism by BM-13.505

Ring segments (I mm in diameter) of the pulmonary artery obtained from 16 patients undergoing thoracic surgery were mounted in tissue baths. Cumulative concentration-response curves of some prostanoids and amines were obtained, and Emax and pEC50 values calculated. Noradrenaline, phenylephrine, clonidine and serotonin (5-HT) showed low intrinsic activities. Prostaglandin F2 alpha (PGF2 alpha) induced strong contractions with an Emax of 126% of the preceding K+ (124 mM)-induced contraction, but its potency was low (pEC50 = 5.70). The thromboxane receptor agonists U-46619 and U-44069 induced strong contractions (Emax = 139% and 133% respectively) and were significantly more potent than the other drugs used (pEC50 = 8.43 and 8.30 respectively). The thromboxane receptor antagonist BM-13.505 (10(-8) to 10(-6) M) caused rightward parallel shifts of the U-46619 concentration-response curves without reduction of Emax, indicating competitive antagonism.     

The prostaglandin E1 analogue, misoprostol, regulates inflammatory cytokines and immune functions in vitro like the natural prostaglandins E1, E2 and E3.

We examined whether some immune functions related to the action and production of cytokines could be regulated by the natural prostaglandins E (PGE) and the PGE1 (ester) analogue, Misoprostol. PGE1,2,3 and Misoprostol inhibited: (1) the mitogenic activity of interleukin-1 (IL-1) for mouse thymocytes; (2) spreading of mouse macrophages on glass; (3) tumour necrosis factor (TNF) (alpha and beta) production by human peripheral blood mononuclear cells and rat macrophages; (4) IL-1 production by rat and mouse peritoneal macrophages; and (5) interferon-gamma (IFN-gamma) production by human peripheral blood mononuclear cells. These PGE had little effect on IL-1 production by human monocytes. By contrast, they all enhanced IL-6 production by rat and mouse macrophages and human monocytes. These effects were noted at concentrations below 500 nM (even as low as 10 nM). The relative potency of the prostanoids tested for both inhibitory and stimulatory effects was PGE1 = PGE2 = or greater than PGE3 greater than Misoprostol greater than PGA2 much greater than PGF1-alpha = PGF2-alpha = PGD2 (no effect). There is strong evidence that PGE1,2,3 and Misoprostol bind to the same receptor(s) and trigger the second messenger, cAMP, since dibutyryl cAMP (a lipophilic analogue of cAMP) had the same effects as the PGE. These PGE also induced elevated intracellular cAMP levels in and competed with [3H]PGE2 for binding to human and rat cells with the same relative potencies as described above.     

Effects of nifedipine on potassium-induced contraction and noradrenaline release in cerebral and extracranial arteries from rabbit

The present study was designed to evaluate the effects of the calcium antagonist nifedipine on potassium-evoked contractions and release of noradrenaline from sympathetic nerves in rabbit basilar and facial arteries. Contractions were measured isometrically in a small volume organ bath. While noradrenaline (NA) produced strong contractions in facial arteries, the majority of the basilar arteries responded only to the highest concentrations of NA employed (greater than 10 microM) with weak contraction. Prazosin (1 microM) and phentolamine (1-10 microM) effectively antagonized the responses to NA in both types of vessel. In contrast, contractions evoked by potassium (K+, 124 mM) were only slightly reduced by the alpha-adrenoceptor blocking agents, indicating that the participation of endogenous NA in maintaining the contractile response to K+ is either small or negligible in the vessel types studied. Nifedipine concentration-dependently inhibited K+-induced contractions in basilar and facial arteries, the former being significantly more affected as evidenced by the maximum inhibitions (approximately 80% compared to approximately 60%) and IC50 values (approximately 10 nM vs. approximately 30 nM). A combination of nifedipine (0.3 microM) and prazosin (1 microM) or phentolamine (1 microM) further suppressed the K+-evoked contractile response in facial arteries, but failed to do so in basilar arteries, when compared with the effect of nifedipine alone. The depressant effect of the alpha-adrenoceptor blockers was, however, still obtainable after reserpine treatment of the facial artery in vitro. Fluorescence histochemical demonstration of noradrenaline revealed a dense network of adrenergic nerve fibres in the walls of the basilar and facial artery. The vessels were also shown to accumulate 3H-NA and release it upon depolarization with K+. The uptake and subsequent release of 3H-NA were significantly reduced by desipramine (10 microM). Nifedipine (0.3-3.0 microM) failed to alter the K+-evoked 3H-NA efflux from sympathetic nerves in neither of the two vessel types. It may be concluded that nifedipine effectively inhibits K+-evoked contractions in isolated basilar and facial arteries from rabbit without interfering with nerve-mediated NA release. Possible explanations for this selective effect of nifedipine on muscle contraction are discussed.     

Effect of prostaglandin D2 and I2 on the airways of rhesus monkeys

Prostaglandin (PG) D2 and PGI2 were evaluated to determine their effect on pulmonary function parameters when aerosolized in anesthetized rhesus monkeys. PGD2 resulted in an increase in frequency (f) and pulmonary resistance (rl) and a decrease in peak expiratory flow rate (PEFR), tidal volume (VT), and dynamic compliance (Cdyn), with the major effect on RL. PGI2 primarily effected an increase in f and a decrease in PEFR and VT. PGI2 had a variable effect, generally a decrease, on RL. The metabolite of PGI2, 6-keto-PGF 1 alpha, had no effect on the rhesus airway. PGF 2 alpha responses were similar to PGD2 except that the PGF 2 alpha produced a less strikingly consistent increase in RL. When PGI2 and PGD2 were aerosolized simultaneously, they simulated previously described antigen responses. Further, PGI2 plus PGD2 produced an airway response at 1/10 the concentration of either agent alone.     

Prostanoid biosynthesis in cultured rabbit renal microvascular smooth muscle cells. Effect of arachidonic acid, calcium, and A23187

It is known that prostanoids are local regulators of vascular tone. Since Ca2+ is known to stimulate prostanoid biosynthesis, we examined this interaction in cultured smooth muscle cells derived from rabbit renal preglomerular microvessels by methods developed in this laboratory. These cells produced prostaglandin (PG)I2, PGE2, PGF2 alpha, and thromboxane A2 under in vitro conditions and biosynthesis was augmented in response to arachidonic acid, A23187, and Ca2+, and diminished in the presence of either mepacrine, aspirin, indomethacin, or meclofenamate. These data indicated that smooth muscle cells cultured in this laboratory were metabolically active and the data suggested that the effect of Ca2+ may be modulated by vasodilator prostanoids produced by the smooth muscle cells. These data failed to explain the greater ratio of the production of PGI2:PGE2 observed in freshly isolated rabbit renal preglomerular microvessels when compared with that seen in cultured endothelial cells derived from the same tissue which was previously reported by this laboratory.     

Prostaglandin E2 binding sites in human renal tissue: characterization and localization by radioligand binding and autoradiography

The prostaglandin E2 (PGE2) binding site in human kidney was characterized in membrane preparations from cortex, outer medulla and inner medulla using radioligand binding techniques. The localization of the binding sites for [3H]PGE2 was visualized autoradiographically. In the membrane suspensions, the highest level of specific [3H]PGE2 binding was detected in the outer medulla (Bmax = 335 +/- 28 fmol mg-1 protein) followed by the inner medulla (Bmax = 258 +/- 21 fmol mg-1 protein) and the cortex (Bmax = 143 +/- 22 fmol mg-1 protein). The binding was of high affinity with KD values between 3.7 and 6.2 nM in the various regions. Unlabelled prostaglandins competed for the [3H]PGE2 binding sites in the following rank order of potency: PGE2 approximately PGE1 greater than PGF2 alpha approximately PGA2 greater than PGB2 greater than PGI2 approximately PGD2. Autoradiographs revealed that a high density of [3H]PGE2 (2 nM) binding sites were located on the distal tubule, particularly on the thick ascending limbs of Henle. Lower densities of [3H]PGE2 binding sites were found on the medullary collecting ducts and possibly on the thin loops of Henle. In contrast, no specific [3H]PGE2 binding could be found on the proximal tubule, glomeruli or on blood vessels. This distribution is in accordance with the assumed site of action for the salt and water regulatory function of PGE2.     

Influence of renal denervation on vascular responsiveness of isolated rat intrarenal arteries

Microsurgical renal denervation of the rat has been reported to increase blood loss and bleeding time after a standardized kidney resection. To investigate the vascular effects of denervation, isolated intrarenal arteries were studied using sensitive 'isometric' recording equipment. Four pieces of evidence were obtained to indicate an effective functional denervation I week after renal nerve transection: (i) Phentolamine reduced the K+-induced contraction in controls but not in denervated arteries. (ii) The K+-induced contraction was significantly smaller in denervated than in control arteries. (iii) Noradrenaline (NA) was a significantly more potent vasoconstrictor (4 x) in denervated than in control arteries. (iv) Cocaine increased the NA sensitivity in control arteries (3 x), whereas it failed to do so in denervated vessels. Vasopressin, 5-hydroxytryptamine (5-HT), NA (in the presence of cocaine), prostaglandin F2 alpha (PGF2 alpha) and dopamine (DA) produced concentration-dependent contractions in the mentioned order of potency. Denervated arteries were found to be about two to three times more sensitive to the vasoconstrictors than control arteries. Angiotensin I and II had no contractile effect in any of the vessel segments examined. Indomethacin-pretreated arteries also failed to respond to angiotensin II. Neuropeptide Y produced only weak contractions and failed to influence the NA concentration-response relationship in either control or denervated arteries. In conclusion, renal denervation caused a general supersensitivity of the vascular smooth muscle cells to both circulating and non-circulating vasoconstrictors. Our results cannot explain the increased blood loss and bleeding time seen after denervation, but rather support the view that the enhanced bleeding was caused by an interrupted vasoconstrictor influence of the sympathetic nerves.     

Reduction of the tone of the isolated human umbilical artery by indomethacin, eicosa-5,8,11,14-tetraynoic acid and polyphloretin phosphate.

The effects of 2 prostaglandin synthetase inhibitors, indomethacin and eicosa-5,8,11,14-tetraynoic acid (ETA) and of the prostaglandin antagonist, polyphloretin phosphate (PPP), on the tone of the isolated human umbilical artery and on the responses of this preparation to 5-hydroxytryptamine (5-HG) and prostaglandin F2alpha (PGF2alpha) were investigated. Indomethacin (8 mug/ml), ETA (5 mug/ml) or PPP (40 mug/ml) reduced the tone of human umbilical arteries but had no influence on the responses to 5-HT. In these concentrations ETA and PPP but not indomethacin antagonized the action of PGF2alpha. When the concentration of indomethacin or PPP was increased 5-fold both 5-HT- and PGF2alpha-induced contractions were antagonized indicating a non-specific inhibition at these concentration levels. A 10-fold increase in the concentration of ETA had no antagonizing action on 5-HT-induced contractions suggesting a more selective inhibition of the PGF2alpha action than displayed by the other compounds. The effects on the tone of the human umbilical artery of the compounds studied might reflect inhibition of prostaglandin biosynthesis and/or antagonism of the action of formed prostaglandins. The findings are compatible with the view that intramural synthesis of prostaglandins contributes to the maintenance of the tone of the isolated human umbilical artery.     

Actions of some vasodilators on isolated human hand veins

Vasospasm is a well recognized complication during microvascular surgery of the hand. In the search for new spasmolytic drug therapies, the effects of papaverine, nitroprusside, nimodipine and lidocaine on isolated human hand veins contracted by several postulated mediators of vasospasm were examined. Mechanical activity was recorded isometrically in ring segments of the vessels. Potassium ions, noradrenaline (NA), 5-hydroxytryptamine (5-HT) and prostaglandin F2 alpha (PGF2 alpha) all produced strong contractions that were highly dependent on the presence of extracellular Ca2+. Papaverine acted as a nonselective vasodilator, as it produced an almost identical inhibition of contractile responses to all examined stimulants. Nitroprusside inhibited contractions induced by agonists more than those evoked by K+, whereas the opposite was found for nimodipine. Nitroprusside also seemed to display a certain degree of selectivity among the agonist-induced responses (NA greater than PGF2 alpha greater than 5-HT). Lidocaine increased the contractile response to K+ and at high concentrations (greater than 10(-5) M) produced a contraction per se. The clinical efficacy of lidocaine as a vasodilator after topical application therefore seems to reflect an inhibitory action on vasoconstrictor nerves. Papaverine, nitroprusside, nimodipine and lidocaine differ considerably in their profiles of action and therefore deserve to be further evaluated in the treatment of vasospasm during microvascular surgery.     

Endothelium-dependent relaxation and effects of prostacyclin, endothelin and platelet-activating factor in human hand veins and arteries.

An altered release of endothelium-derived vasoactive factors has been implicated in several vasospastic conditions. Since the functional role of the endothelium in the hand vasculature is largely unknown, we examined the effects of 'endothelial removal' on vascular reactivity, and the effects of some 'endothelium-associated' substances in isolated human hand veins and arteries. Acetylcholine induced a large relaxation (Emax = 97 +/- 1%) in precontracted hand arteries. The relaxation was abolished by endothelial removal. In hand veins, acetylcholine induced a small relaxation (Emax = 13 +/- 4%), which was unaffected by endothelial removal. An endothelium-dependent relaxation was, however, obtained with high concentrations (greater than or equal to 10(-6) mol l-1) of the Ca2+ ionophore A23187. Contractile responses to noradrenaline, serotonin and prostaglandin F2 alpha did not differ between vein segments with and without endothelium. Endothelin was a potent constrictor of both veins and arteries. The potency and maximum response did not differ between the two types of vessel. Indomethacin pretreatment of veins did not influence the endothelin-induced contractions, suggesting that cyclo-oxygenase products are not involved in the response. In endothelin-contracted veins and arteries, the prostacyclin analogue iloprost elicited relaxation of similar potency and amplitude. The maximum relaxation in veins was, however, 3 times larger than that produced by prostacyclin itself. Platelet-activating factor was devoid of contractile and relaxant effects in both veins and arteries. The present study indicates differences between human hand veins and arteries regarding endothelial-dependent relaxation, and suggests that the modulatory role of endothelium-derived relaxing factor(s) is small in hand veins. The contractile and relaxant effects of endothelin and iloprost, however, did not differ between veins and arteries.     

Effects of magnesium on isolated human fetal and maternal uteroplacental vessels

The effects of Mg2+ were studied in human umbilical arteries, stem villous arteries and maternal intramyometrial arteries. The vessels were dissected and mounted in organ baths, and isometric tension was recorded. In all fetal preparations investigated, Mg2+ (0.5-6.0 mM) in a concentration-related way decreased pD2 values for prostaglandin F2 alpha responses. The maximum response to prostaglandin F2 alpha was depressed in umbilical arteries, but remained unaffected in stem villous artery preparations. In stem villous arteries pretreated in Ca2(+)-free medium, increasing concentrations of Mg2+ markedly depressed the response to Ca2+ after stimulation with K+ or prostaglandin F2 alpha, suggesting that Mg2+ inhibited transmembrane calcium influx and interfered with intracellular calcium effects. In both stem villous and intramyometrial arteries, increasing concentrations of Mg2+ increased EC50 values for responses to K+, whereas Emax values were unaffected. Mg2+ produced relaxation of agonist-induced contractions by up to 60% in stem villous arteries and up to 40% in intramyometrial artery preparations. The relaxant effect of Mg2+ did not seem to be mediated through the endothelium or through changes in the synthesis of prostanoids, since endothelial disruption and treatment with indomethacin left the responses to Mg2+ unaffected. Relaxation of vessels important for resistance regulation in the human uteroplacental vascular bed may be of benefit when uteroplacental blood flow is impaired, and the present results support the established use of magnesium sulphate in the treatment of pre-eclampsia.