The effect of indomethacin and substance P on the guinea pig urinary bladder

The effects of indomethacin on the responses of the guinea pig urinary bladder to nerve stimulation, acetylcholine, adenosine 5′ triphosphate and Substance P have been investigated. Indomethacin alone had no significant effect on responses of the bladder to nerve stimulation but did significantly reduce the atropine-resistant contractions. Responses of the tissue to acetylcholine were unaffected by indomethacin but responses to Substance P were significantly reduced. Only the highest dose of ATP (10^?3 M) was significantly reduced by indomethacin. The possibility that Substance P is the transmitter responsible for the atropine-resistant contractions of the urinary bladder to nerve stimulation is discussed.     

Effects of suprofen and other prostaglandin synthstase inhibitors in a new animal model for myometrial hyperactivity

An model for studying factors related to dysmenorrhea and for evaluating drugs for their inhibitory effects on uterine contractility induced by arachidonic acid and prostaglandins has been developed. Intravenous administration of arachidonic acid and PGF₂α to guinea pigs during the late stage of the estrous cycle, induced dose related uterine contractions and an elevation in uterine basal pressure similar that seen in patients with dysmenorrhea. Pretreatment with prostaglandin synthetase inhibitors inhibited the response to arachidonic acid. The order of relative potency was suprofen (1) > indomethacin (0.65) > naproxen (0.52) > ibuprofen (0.43) > aspirin (0.31). The effectiveness of maximal response for suprofen was significantly greater than that of the other compounds tested. Simultaneous administration of suprofen with PGF₂α also blocked induction of uterine contractions, suggesting the possibility that suprofen also antagonizes PGF₂α receptor binding. Bradykinin also induced uterine constractions, an effect blocked by pretretment with suprofen. Finally, histochemical studies demonstrated stimulation of uterine catecholamine levels (norepinephrine) by arachidonic acid, PGF₂α and bradykinin. These effects were blocked by suprofen.These data suggest that suprofen, an analgesic prostaglandin synthetase inhibitor, may be of use in the clinical tretment of the uterine contractions associated with primary dysmenorrhea.     

Calcium-calmodulin plays a major role in bradykinin-induced arachidonic acid release by bovine aortic endothelial cells

We provided evidence that calcium-calmodulin plays a major role in bradykinin-induced arachidonic acid release by bovine aortic endothelial cells. In cells labeled for 16 hr with ³H-arachidonic acid, ionomycin and Ca²⁺-mobilizing hormones such as bradykinin, thrombin and platelet activating factor induced arachidonic acid release. However, arachidonic acid release was not induced by agents known to increase cyclic AMP (forskolin, isoproterenol) or cyclic GMP (sodium nitroprusside). Bradykinin induced the release of arachidonic acid in a dose-dependent manner (EC₅₀ = 1.6 ± 0.7 nM). This increase was rapid, reaching a maximal value of fourfold above basal level in 15 min. In a Ca²⁺-free medium, bradykinin was still able to release arachidonic acid but with a lower efficiency. Quinacrine (300 μM), a blocker of PLA₂, completely inhibited bradykinin-induced arachidonic acid release. The B₂ bradykinin receptor antagonist HOE-140 completely inhibited bradykinin-induced arachidonic acid release. The B₁-selective agonist DesArg⁹-bradykinin was inactive and the B₁-selective antagonist [Leu⁸]DesArg⁹-bradykinin had no significant effect on bradykinin-induced arachidonic acid release. The phospholipase C inhibitor U-73122 (100 μM) decreased bradykinin-induced arachidonic acid release. The calmodulin inhibitor W-7 (50 μM) drastically reduced the bradykinin- and ionomycin-induced arachidonic acid release. Also, forskolin decreased bradykinin-induced arachidonic acid release. These results suggest that the activation of PLA₂ by bradykinin in BAEC is a direct consequence of phospholipase C activation. Ca²⁺-calmodulin appears to be the prominent activator of PLA₂ in this system. © 1996 Wiley-Liss, Inc.     

Decreased smooth muscle side effects with 16, 16-dimethyl-trans-Δ2-PGE1 methyl ester in Japanese monkey (Macaca fuscata fuscata)

The smooth muscle stimulating activity of a new PGE₁ analog, 16, 16-dimethyl-trans-Δ²-PGE₁ methyl ester (ONO-802) was evaluated by simulataneous;y recording the EMG of the uterus and intestines, along with urinary bladder pressure, and blood pressure in pregnant and non-pregnant Japanese monkeys ($\text{Macaca fuscata fuscata}$). Single intravenous injections of ONO-802 in increasing dosages (0.2–5 μg/kg) were found to be 50–100 times or more effective in inducing uterine contraction than PGF₂α and PGE₁. A mild, transient gastrointestinal muscle stimulating activity was observed, but change in urinary bladder pressure and blood pressure was not evident. ONO-802 induced uterine contractions in the pregnant animals were 10 times greater than in the non-pregnant animals. These results suggest that ONO-802 may be a suitable clinical prostaglandin for use in therapeutic abortion.     

Analogs of arachidonic acid methylated at C-7 and C-10 inhibit leukotriene biosynthesis and phospholipase A2 activity

The ability of (all Z)-7,7-dimethyl-5,8,11,14-eico-satetraenoic acid, (all Z)-7,7-dimethyl-5,8,11-eicosatrienoic acid, (Z,Z)-7,7-dimethyl-5,8-eicosadienoic acid, (all Z)-10,10-dimethyl-5,8,11,14-eicosatetraenoic acid, (all Z)-10,10-dimethyl-5,8,11-eicosatrienoic acid, and rac-(Z,Z)-15-hydroxy-7,7-dimethyl-5,8-eicosadienoic acid to inhibit ionophore-induced slow-reacting substance of anaphylaxis (SRS-A) biosynthesis in rat peritoneal cells was studied. It was thought that compounds such as these might inhibit proton abstractions at the 7 or 10 carbon positions on arachidonic acid which are thought to be important in the mechanism of catalysis of Δ⁵-lipoxygenase(Δ⁵-LO). All compounds were found to be potent inhibitors of SRS-A biosynthesis in the in vitro rat peritoneal cell system (IC₅₀ < 10 μM). In fact they were more potent inhibitors in the test system than standard Δ⁵-LO inhibitors such as NDGA and quercetin. To determine if the mechanism of inhibition of the dimethyl arachidonic acid analogs did involve gD⁵-LO inhibition these compounds were evaluated in an assay system utilizing the Δ⁵-LO from rat basophilic leukemia (RBL^?1_cells. It was found, however, that these compounds were much less potent inhibitors of this enzyme (IC₅₀ ～ 100 μM) than standard compounds such as NDGA (IC₅₀ 0.14 μM) and quercetin (IC₅₀, 0.2 μM). The arachidonic acid analogs were subsequently found to be potent inhibitors of phospholipase A₂ (PLA₂) enzymes with IC₅₀'s between 10–20 μM as inhibitors of a snake venom enzyme. In fact these compounds are among the most potent inhibitors of PLA₂ yet studied, having potencies better than standards such as p-bromophenacyl bromide (IC₅₀, 87 μM) and U-10029A (IC₅₀, 36 μM). These results suggest that the methylated arachidonic acid analogs may inhibit SRS-A biosynthesis through inhibiting PLA₂.     

Chemical sensitivity of the hyperneural nerve-muscle preparation of the American cockroach

The hyperneural muscle of Periplaneta americana responded with sustained contracture to applications of l-glutamic acid at near 10^?4 M. d-glutamic acid was much less active. The responses of a particular preparation to glutamate were usually extremely consistent and highly reproducible; however, some preparations showed no response to l-glutamic acid even at 10^?2 M whereas neurally evoked responses were normal. High magnesium, low calcium perfused onto the preparations blocked neurally evoked contractions. The glutamate response was blocked reversibly in low calcium solutions. suggesting that the glutamate effect, when present, was presynaptic.Dopamine, acetylcholine, 5-hydroxytryptamine, synephrine, Rogitine^®, strychnine, strychnine, pentobarbital, and picrotoxin, all suspected to varying degrees of some action on insect central or peripheral synaptic transmission, had no effect on the patterns of neurally evoked contracture of the hyperneural muscle. A new transducer is described for use with low force insect muscle contractions.     

Arachidonic acid activates release of calcium ions from reticulum via ryanodine receptor channels in C2C12 skeletal myotubes

Arachidonic acid causes an increase in free cytoplasmic calcium concentration ([Ca²⁺]_i) in differentiated skeletal multinucleated myotubes C2C12 and does not induce calcium response in C2C12 myoblasts. The same reaction of myotubes to arachidonic acid is observed in Ca²⁺-free medium. This indicates that arachidonic acid induces release of calcium ions from intracellular stores. The blocker of ryanodine receptor channels of sarcoplasmic reticulum dantrolene (20 μM) inhibits this effect by 68.7 ± 6.3% (p < 0.001). The inhibitor of two-pore calcium channels of endolysosomal vesicles trans-NED19 (10 μM) decreases the response to arachidonic acid by 35.8 ± 5.4% (p < 0.05). The phospholipase C inhibitor U73122 (10 μM) has no effect. These data indicate the involvement of ryanodine receptor calcium channels of sarcoplasmic reticulum in [Ca²⁺]_i elevation in skeletal myotubes caused by arachidonic acid and possible participation of two-pore calcium channels from endolysosomal vesicles in this process.     

T-channels and Na<Superscript>+</Superscript>,Ca<Superscript>2+</Superscript>-exchangers as components of the Ca<Superscript>2+</Superscript>-system of regulation of activity of the heart myocardium of the frog <Emphasis Type="Italic">Rana temporaria</Emphasis>

Earlier we have shown that regulation of rhythm and strength of the frog heart contractions, mediated by transmitters of the autonomic nervous system, is of the Ca²⁺-dependent character. In the present work, we studied chronoand inotropic effect of verapamil—an inhibitor of Ca²⁺-channels of the L-type, of nickel chloride-an inhibitor of Ca²⁺—channels of the T-type and of Na⁺,Ca²⁺exchangers as well as of adrenaline and acetylcholine (ACh) after nickel chloride. It has been found that the intracardially administered NiCh₂ at a dose of 0.01 μg/kg produced a sharp fall of amplitude of action potential (AP) and an almost twofold deceleration of heart rate (HR). The intracardiac administration of NiCh₂ (0.01 μg/kg) on the background of action of verapamil (6 mg/kg, i/m) led as soon as after 3 min to even more prominent HR deceleration and to further fall of the AP amplitude by more than 50% as compared with norm. An intracardiac administration of adrenaline (0.5 mg/kg) partly restored the cardiac activity. However, preservation of the myocardium electrical activity in such animals was brief and its duration did not exceed several minutes. Administration of Ni²⁺ on the background of acetylcholine (3.6 mg/kg) led to almost complete cessation of cardiac activity. As soon as 3 min after injection of this agent the HR decreased to 2 contractions/min. On electrograms (EG), the 10-fold fall of the AP amplitude was recorded. To elucidate role of extraand intracellular Ca²⁺ in regulation of strength of heart contractions, isometric contraction of myocardium preparations was studied in response to action of NiCl₂ (10–200 μM), verapamil (70 μM), adrenaline (5 μM), and acetylcholine (0.2 μM) after NiCl₂. It has been found that Ni²⁺ causes a dose-dependent increase of the muscle contraction amplitude. Minimal change of the contraction amplitude (on average, by 14.9% as compared with control) was recorded at a Ni²⁺ concentration of 100 μM. An increase of Ni²⁺ in the sample to 200 μM increased the cardiac contraction strength, on average, by 41%. The negative inotropic action of verapamil was essentially reduced by 100 μM Ni²⁺. Adrenaline added to the sample after Ni²⁺ produced stimulating effect on the cardiac muscle, with an almost twofold rise of the contraction amplitude. ACh (0.2 μM) decreased the cardiac contraction amplitude, on average, by 56.3%, whereas Ni²⁺ (200 μM) administered after ACh not only restored, but also stimulated partly the myocardial work. Within several parts of percent there was an increase of such isometric contraction parameters as amplitude of the effort developed by muscle, maximal rate, maximal acceleration, time of semirise and semifall. The obtained experimental results indicate that the functional activity of the frog pacemaker and contractile cardiomyocytes is regulated by Ca²⁺-dependent mechanisms. Structure of these mechanisms includes the potential-controlled Land T-channels of the plasma membrane as well as Na⁺,Ca²-exchangers characteristic exclusively of contractile cardiomyocytes. The existence of these differences seems to be due to the cardiomyocyte morphological peculiarities that appeared in evolution at the stage of the functional cell specialization.     

Alterations in extracellular calcium concentration differentially influence prostaglandin and thromboxane synthesis in epithelial cells from the toad urinary bladder

The effects of alterations in extracellular calcium concentration on prostaglandin (PGE) and thromboxane (TXB₂) syntheses were studied in isolated epithelial cells from the urinary bladder of the toad, Bufo marinus. In epithelial cells prepared using collagenase, basal iPGE synthesis was greater than iTXB₂ synthesis. Increasing extracellular calcium from zero to 1 mm increased iPGE synthesis and decreased iTXB₂ synthesis equivalently such that total conversion of endogenous arachidonate to these two metabolites was unaltered. Vasopressin stimulated iPGE and iTXB₂ syntheses when the incubation buffer contained 1 mm calcium but had no effect in the presence of 0.4 μm calcium. In contrast, using an EDTA isolation method, basal iPGE and iTXB₂ syntheses were equal in the presence of zero calcium. Increasing extracellular calcium concentration to 1 mm caused a greater enhancement in iTXB₂ synthesis compared to iPGE. Increasing extracellular calcium to 2 mm was associated with a decline in iPGE and iTXB₂ syntheses back to the levels observed with no calcium added to the medium. The effect of increasing the calcium concentration was greater in phosphate than in bicarbonate buffer. In a Tris buffer the effect of altered calcium was almost completely abrogated. These studies demonstrate that the choice of buffer and alterations in extracellular calcium concentration differentially alter basal arachidonic acid metabolism to prostaglandins and thromboxane in isolated toad urinary bladder cells. The results suggest that there may exist several endogenous pools of arachidonic acid which are differentially influenced by calcium. Furthermore, the pool sensitive to vasopressin has an absolute requirement for calcium.     

Multiplicity of chemical mechanisms of regulation of muscle contractions in <Emphasis Type="Italic">Lymnaea stagnalis</Emphasis> L.

Effects of acetylcholine, octopamine, and their antagonists, as well as of glutamic acid were studied on contractions of dorsal longitudinal muscle of the mollusc Lymnaea stagnalis L., evoked by electrical stimulation of n. cervicalis inferior. Acetylcholine and octopamine increased amplitude of contractions evoked by applications at concentrations about 10^–8 M and decreased at concentrations higher than 10^–7 M. Glutamic acid produced only inhibitory effect on the contraction amplitude, which appeared at concentrations beginning from 10^–9 M and higher. The acetylcholine antagonists atropine and d-tubocurarine also decreased amplitude of evoked contractions. Their blocking effect rose with increase of their concentrations in the range from 10^–9 M to 10^–5 M. Specificity of the effect of the studied substances was established in experiments with a combined application of the transmitters and their antagonists. The obtained results indicate multiplicity of chemical mechanisms of regulation of contractions of the dorsal longitudinal muscle in L. stagnalis.Translated from Zhurnal Evolyutsionnoi Biokhimii i Fiziologii, Vol. 41, No. 1, 2005, pp. 44–50.Original Russian Text Copyright © 2005 by Kononenko, Zhukov.     

Prostacyclin production of rat aorta “in vitro” is increased by the combined action of dipyridamole plus pentoxifylline

The present study evaluates the effect of dipyridamole and pentoxifylline, individually and in combination, on PGI₂-like production and arachidonic acid metabolism of rat aorta “in vitro”. Pentoxifylline 100 μM and dipyridamole 92 and 184 μM increased PGI₂-like activity, as measured by the platelet aggregation inhibitory capacity of the aortic ring incubates, by 71%, 46% and 60% respectively; a greater increase in PGI₂-like activity was observed with the combination of the drugs than when they were used separately. This effect was observed even at the lowest doses assayed. In fact, dipyridamole 9.2 μM plus pentoxifylline 1 μM increased the PGI₂-like activity by 30% while the individual increase was 4.5% and 10.6% respectively. To obtain more information on the effect of the dipyridamole-pentoxifylline combination on arachidonic acid metabolism, arteries were incubated with (1-¹⁴C) arachidonic acid, and the 6-keto-PGF_1α and PGE₂ quantified. Dipyridamole 92 μM plus pentoxifulline 1 and 10 μM increased 6-keto-PGF_1α and PGE₂ production by about 30% and 48% respectively while combination with pentoxifylline 100 μM increased the 6-keto-PGF_1α 76.5% and the PGE₂ 50%. The possible biological effect and therapeutic implications of increased PGI₂ production by the arteries due to the dipyridamole-pentoxifylline combination remains to be ascertained.     

Parallel inhibition of neutrophil arachidonic acid metabolism and lysosomal enzyme secretion by nordihydroguaiaretic acid

Arachidonic acid at concentrations from 0.2 to 2.0 × 10?⁶M induces the secretion of lysosomal enzymes from cytochalasin B-treated rabbit neutrophils. These concentrations of arachidonic acid are metabolized primarily to hydroxyeicosatetraenic acids rather than to cyclooxygenase products. A good correlation is observed between the extent of arachidonic acid metabolism and the secretion of lysosomal enzymes. Nordihydroguaiaretic acid (1?10μM) inhibits both lysosomal enzyme secretion and the production of lipoxygenase products by neutrophils.     

Mechanisms of excitatory actions of neurotensin on canine small intestinal circular muscle in vivo and in vitro

We have shown previously that close intra-arterial injections of neurotensin in vivo inhibited phasic activity induced by field stimulation of the canine small intestine during anaesthesia but had little effect during quiescence. In contrast, in vitro in the present study, full thickness strips of the muscularis externa cut in the circular axis responded to the lowest effective neurotensin concentrations (10(-12) to 10(-9) M) with an increase in frequency and amplitude of spontaneous contractions; as the concentration was increased from 10(-8) to 10(-7) M, neurotensin inhibited spontaneous activity. A small tonic contraction also occurred; it was maximal at 10(-7) M. Since sufficient tetrodotoxin to block field-stimulated nerve responses did not significantly reduce any of these responses in vitro, the neurotensin responses in vitro did not appear to involve actions on nerves. Indomethacin did not alter the excitatory response to 10(-11) M neurotensin but 5,8,11,14-eicosatetraynoic acid inhibited the excitatory response in a reversible fashion, without altering the response to acetylcholine. Thus excitation in vitro may require the release of excitatory metabolites of arachidonic acid via the lipoxygenase pathway. The neurotensin response in vivo was further studied by evaluating its actions against repetitive submaximal contractions induced by intra-arterial injections of acetylcholine given every minute. Doses that produced a short inhibition of the field-stimulated activity (10(-11) to 10(-10) mol intra-arterially) did not produce inhibition but 10(-10) mol significantly increased the response to acetylcholine. Higher doses (10(-9) mol) produced a significant inhibition of the first subsequent acetylcholine dose but no enhancement of later doses.(ABSTRACT TRUNCATED AT 250 WORDS)     

Role of superoxide and thromboxane receptors in acute angiotensin II-induced vasoconstriction of rabbit vessels

This study explored the hypothesis that a portion of angiotensin II-induced contractions is dependent on superoxide generation and release of a previously unidentified arachidonic acid metabolite that activates vascular smooth muscle thromboxane receptors. Treatment of rabbit aorta or mesentery artery with the thromboxane receptor antagonist SQ29548 (10 μM) reduced angiotensin II-induced contractions (maximal contraction in aorta; control vs. SQ29548: 134 ± 16 vs. 93 ± 10%). A subset of rabbits deficient in vascular thromboxane receptors also displayed decreased contractions to angiotensin II. The superoxide dismutase mimetic Tiron (30 mM) attenuated angiotensin II-induced contractions only in rabbits with functional vascular thromboxane receptors (maximal contraction in aorta; control vs. Tiron: 105 ± 5 vs. 69 ± 11%). Removal of the endothelium or treatment with a nitric oxide synthase inhibitor, nitro-l-arginine (30 μM) did not alter angiotensin II-induced contractions. Tiron and SQ29548 decreased angiotensin II-induced contractions in the denuded aortas by a similar percentage as that observed in intact vessels. The cyclooxygenase inhibitor indomethacin (10 μM) or thromboxane synthase inhibitor dazoxiben (10 μM) had no effect on angiotensin II-induced contractions indicating that the vasoconstrictor was not thromboxane. Angiotensin II increased the formation of a 15-series isoprostane. Isoprostanes are free radical-derived products of arachidonic acid. The unidentified isoprostane increased when vessels were incubated with the superoxide-generating system xanthine/xanthine oxidase. Pretreatment of rabbit aorta with the isoprostane isolated from aortic incubations enhanced angiotensin II-induced contractions. Results suggest the factor activating thromboxane receptors and contributing to angiotensin II vasoconstriction involves the superoxide-mediated generation of a 15-series isoprostane.     

Superoxide levels and function of cerebral blood vessels after inhibition of CuZn-SOD

The goal of this study was to examine the role of endogenous copper/zinc (CuZn)-superoxide dismutase (SOD) on superoxide levels and on responses of cerebral blood vessels to stimuli that are mediated by nitric oxide (acetylcholine) and cyclooxygenase-dependent mechanisms (bradykinin and arachidonic acid). Levels of superoxide in the rabbit basilar artery were measured using lucigenin-enhanced chemiluminescence (5 microM lucigenin). Diethyldithiocarbamate (DDC; 10 mM), an inhibitor of CuZn-SOD, increased superoxide levels by approximately 2.4-fold (P < 0.05) from a baseline value of 1.0 +/- 0.2 relative light units x min(-1) x mm(-2) (means +/- SE). The diameter of cerebral arterioles (baseline diameter, 99 +/- 3 microm) was also measured using a closed cranial window in anesthetized rabbits. Topical application of DDC attenuated responses to acetylcholine, bradykinin, and arachidonate, but not nitroprusside. For example, 10 microM arachidonic acid dilated cerebral arterioles by 40 +/- 5 and 2 +/- 2 microm under control conditions and after DDC, respectively (P < 0.05). These inhibitory effects of DDC were reversed by the superoxide scavenger 4,5-dihydroxy-1,3-benzenedisulfonic acid (10 mM). Arachidonate increased superoxide levels in the basilar artery moderately under normal conditions and this increase was greatly augmented in the presence of DDC. These findings suggest that endogenous CuZn-SOD limits superoxide levels under basal conditions and has a marked influence on increases in superoxide in vessels exposed to arachidonic acid. The results also suggest that nitric oxide- and cyclooxygenase-mediated responses in the cerebral microcirculation are dependent on normal activity of CuZn-SOD.     

Responses of the rectum and oesophagus of the snail Helix aspersa to purine nucleotides and nucleosides

1. Purine compounds were examined for pharmacological activity in the rectum and oesophagus of the garden snail Helix aspersa.2. In the rectum, adenosine, AMP, ADP and ATP (above 10μM) and acetylcholine (above 1 nM) consistently caused concentration-dependent contractions. The slope of the dose-response curve for ADP in the rectum was significantly steeper than for the other purine compounds. The contractile responses to the nucleotides and acetylcholine, but not adenosine, were selectively potentiated by physostigmine (1μM). Atropine (1 μM) and tubocurarine (30 μM) failed to block the responses to the purines or acetylcholine.3. In the oesophagus, adenosine, AMP, ADP and ATP (above 10 μM) and acetylcholine (above 1 nM) caused concentration-dependent contractions that were antagonised by atropine (l μM). Tubocurarine (30 μM) failed to block the responses to the purine compounds or acetylcholine. Physostigmine (1 μM) potentiated the responses to ADP and acetylcholine but not ATP, AMP or adenosine.4. In both the rectum and the oesophagus, the synthetic analogues of purine compounds inclucling 2-chloroadenosine, α, β -methylene ATP and 2-methylthio ATP were inactive up to a concentration of 100 μM.5. Electrical field stimulation of the rectum and oesophagus produced consistent contractions which were unaffected by atropine (1 μM), tubocurarine (30 μM) or physostigmine (1 μM). These responses were not modulated by any of the purine compounds or their stable analogues.6. The responses obtained appear novel even within known invertebrate purinergic systems, suggesting a differentiation of purinoceptor subtypes in this species. There is evidence in the rectum for AMP, ADP and ATP causing the release of acetylcholine; physostigmine potentiated responses to AMP, ADP and ATP, but not to adenosine. This indicates that activity may be mediated via different types of purinoceptors, perhaps equivalent to the P₁- and P₂-purinoceptors identified in vertebrates.     

Sites of lipase activation and prostaglandin synthesis in isolated, perfused rabbit hearts and hydronephrotic kidneys

The tissue lipids of isolated, perfused rabbit hearts and hydronephrotic kidneys were labelled with [¹⁴C]-arachidonic acid by two different techniques: direct infusion of [¹⁴C]-arachidonic acid in a protein free media into the perfused organ (method A), and recirculation of [¹⁴C]-arachidonic acid in a solution containing albumin (method B). Autoradiography of the labelled organs demonstrated that method A resulted in selective labelling of arteries and arterioles in both perfused organs as well as glomeruli in the kidney. Labelling with method B resulted in a non-specific radioisotope incorporation in both the vasculature and myocardial cells in the heart; and of the vasculature and renal tubules in the perfused kidneys. Analysis of the tissue lipids shows similar patterns of incorporation of radioactivity between methods A and B.Peptide hormone stimulation (bradykinin) and non-specific noxious stimulation (with transient ischemia) were employed to elicit lipase activation (i.e., release of [¹⁴C]-arachidonate) and prostaglandin (PG) synthesis. It was found that in both hearts and hydronephrotic kidneys, the radioactive PG release in response to bradykinin and ischemia was much higher with method A (vascular labelling) than with method B (diffuse labelling) despite the appearance of comparable amounts of bioassayable PG release, thus indicating the sites of PG synthesis in these organs is predominantly localized in the vascular tissue. Furthermore, the radioactive arachidonic acid release in response to bradykinin stimulation in the hydronephrotic kidneys was 3 times higher with method A than with method B, suggesting the predominant sites of hormone specific lipase activation in the renal cortex is also in the vasculature. However, the radioactive arachidonic acid release in response to ischemia was much higher with method B than with method A in both hearts and hydronephrotic kidneys, indicating the sites of non-specific lipase activation in these organs are more diffusely distributed, and present also in the myocardial cells and renal tubules.     

Urinary Retention,Incontinence, and Dysregulation of Muscarinic Receptors in Male Mice Lacking Mras

Here we show that male, but not female mice lacking expression of the GTPase M-Ras developed urinary retention with distention of the bladder that exacerbated with age but occurred in the absence of obvious anatomical outlet obstruction. There were changes in detrusor morphology in Mras ^-/- males: Smooth muscle tissue, which exhibited a compact organization in WT mice, appeared disorganized and became increasingly ‘layered’ with age in Mras ^-/- males, but was not fibrotic. Bladder tissue near the apex of bladders of Mras ^-/- males exhibited hypercontractility in response to the cholinergic agonist carbachol in in vitro, while responses in Mras ^-/- females were normal. In addition, spontaneous phasic contractions of detrusors from Mras ^-/- males were increased, and Mras ^-/- males exhibited urinary incontinence. We found that expression of the muscarinic M2 and M3 receptors that mediate the cholinergic contractile stimuli of the detrusor muscle was dysregulated in both Mras ^-/- males and females, although only males exhibited a urinary phenotype. Elevated expression of M2R in young males lacking M-Ras and failure to upregulate M3R with age resulted in significantly lower ratios of M3R/M2R expression that correlated with the bladder abnormalities. Our data suggests that M-Ras and M3R are functionally linked and that M-Ras is an important regulator of male bladder control in mice. Our observations also support the notion that bladder control is sexually dimorphic and is regulated through mechanisms that are largely independent of acetylcholine signaling in female mice.     

Inhibition of intestinal smooth muscle function by tamoxifen and clomiphene

The acute in vitro effects of the oestrogen antagonists clomiphene (a racemic mixture) and tamoxifen were examined upon spasmogen induced contractions of the guinea pig ileum. Both oestrogen antagonists inhibited the contractions produced by acetylcholine, the muscarinic agonist beta-methylcholine, histamine and bradykinin in a manner which suggests non competitive antagonism. Concentration effect curves to each of the spasmogens were unaffected using 0.1 mumoles/litre of either of the oestrogen antagonists. Clomiphene at 1 mumole/litre reduced the maximum response to the spasmogens by 20 to 50%. Tamoxifen at the same concentration also inhibited the contractions but to a much smaller extent. Clomiphene at the highest concentration tested 10 mumoles/litre completely suppressed contractions to all the spasmogens. Tamoxifen at 10 mumoles/litre completely suppressed contractions to beta-methylcholine and bradykinin. A residue of a response to acetylcholine and histamine remained and this was abolished by raising the concentration to 100 mumoles/litre. The data indicated that clomiphene was more potent than tamoxifen upon the inhibition of the contractions of the ileum. The results demonstrate a non specific effect of the oestrogen antagonists upon smooth muscle function and do not substantiate early reports of specific anticholinergic activity. The possibility of these effects contributing to both the side effects and the antitumor activity of the oestrogen antagonists is discussed.     

Effects of a thromboxane synthetase inhibitor and a thromboaxane antagonist on release and activity of thromboxane A2 and prostaglandin in vitro

The TxA₂ synthetase inhibitor, dazoxiben, and the TxA₂ antagonist, ±SQ 29, 548, were examined for effects on release and vasoactivity of TxA₂ and prostacyclin. Isolated perfused guinea pig lungs were used as the enzyme source from which TxA₂ and prostacyclin were released in response to injections of arachidonic acid or bradykinin. Both dazoxiben and ±SQ 29, 548 inhibited contraction of the superfused rat aorta and bovine coronary artery after arachidonic acid injection through the lung. ±SQ 29, 548 abolished contractions of the rat aorta, but significant aorta contracting activity persisted during dazoxiben treatment. Dazoxiben significantly inhibited arachidonate-induced release of TxA₂ (immunoreactive TxB₂)iinto the superfusate, but TxA₂ release was significantly potentiated by ±SQ 29, 548. Thus, in the presence of enhanced TxA₂ concentrations, ±SQ 29, 548 effectively antagonized the vasospastic effect of TxA₂. Dazoxiben diverted a significantly greater amount of arachidonic acid into prostacyclin synthesis (immunoreactive 6-keto-PGF_1α), changing original coronary vasoconstriction into relaxation. ±SQ 29, 548 did not significantly modify lung prostacyclin synthesis. Moreover, with ±SQ 29, 548, the absence of TxA₂-mediated coronary contraction unmasked active relaxation of the superfused bovine coronary artery, coincident with thromboxane and prostacyclin release. Dazoxiben consistently inhibited TxA₂ synthesis and enhanced prostacyclin synthesis. ±SQ 29, 548 augmented TxB₂ release in response to arachidonate, but not bradykinin, and did not significantly alter 6-keto-PGF_1α release in response to either arachidonate or bradykinin. In terms of vasoactivity measured , ±SQ 29, 548 and dazoxiben produced similar anti-vasospastic effects, although this was accomplished by completely different mechanisms.