Neurotensin stimulates pancreatic exocrine secretion in rats

Neurotensin (NT) stimulates pancreatic exocrine secretion in dogs and humans. The purpose of this study was to examine the effect of exogenous neurotensin on pancreatic exocrine secretion in rats. Five Sprague-Dawley male rats were prepared with pancreatic, gastric and duodenal fistulas. Bile was shunted into the duodenum in order to collect pure pancreatic juice. 24 h later, neurotensin (0.05, 0.1, 0.2, 0.3, 1.0 nmol/kg) was infused intravenously in a random fashion. Pancreatic juice was collected every 10 min, and the volume was recorded and protein and bicarbonate were measured. Neurotensin stimulated, in a dose-related manner, the pancreatic secretion of water, protein and bicarbonate. Neurotensin may be involved in the physiologic control of pancreatic secretion in rats.     

Nitric oxide regulates oxygen uptake and hydrogen peroxide release by the isolated beating rat heart

Isolated rat heart perfused with 1.5-7.5µM NO solutions or bradykinin, which activates endothelial NOsynthase, showed a dose-dependent decrease in myocardial O₂uptake from 3.2 ± 0.3 to 1.6 ± 0.1 (7.5 µM NO, n = 18,P < 0.05) and to 1.2 ± 0.1 µM O₂ · min¹ · gtissue¹ (10 µM bradykinin, n = 10,P < 0.05). Perfused NO concentrations correlated with aninduced release of hydrogen peroxide (H₂O₂) inthe effluent (r = 0.99, P < 0.01). NO markedlydecreased the O₂ uptake of isolated rat heart mitochondria(50% inhibition at 0.4 µM NO, r = 0.99,P < 0.001). Cytochrome spectra in NO-treated submitochondrial particles showed a double inhibition of electron transfer at cytochrome oxidase and between cytochrome b andcytochrome c, which accounts for the effects in O₂uptake and H₂O₂ release. Most NO was bound tomyoglobin; this fact is consistent with NO steady-state concentrationsof 0.1-0.3 µM, which affect mitochondria. In the intact heart,finely adjusted NO concentrations regulate mitochondrial O₂uptake and superoxide anion production (reflected byH₂O₂), which in turn contributes to thephysiological clearance of NO through peroxynitrite formation.

     

Atriopeptin release from the isolated perfused rabbit heart

Mammalian atrial extracts have been shown to contain bioactive peptides which exert natruiretic, diuretic, and smooth muscle relaxant effects. These extracts include several low molecular weight (< 5,000 Mr) atrial peptides (atriopeptins) which exhibit identical sequences over a central core region which are derived from the high molecular weight peptide (atriopeptigen) precursor which has been purified and sequenced. In the current study we found that extracts of rabbit atria possess both high and low molecular weight bioactive atrial peptides, however, the coronary venous effluent obtained from the isolated perfused rabbit heart only contained the low molecular weight peptide. This trypsin labile activity causes a dose-dependent relaxation of rabbit aorta and chicken rectum assay strips. Separation of the bioactivity with gel filtration chromatography and reversed phase HPLC indicates the heart releases a single substance similar to atriopeptin III. There was no evidence that atriopeptigen was released from the isolated perfused rabbit heart. We suggest that atriopeptigen is proteolytically processed in the atria to an atriopeptin which is subsequently the released form of the atrial peptide.     

Angiotensin stimulates respiration in spontaneously hypertensive rats

Spontaneously hypertensive rats (SHR) have an activated brain angiotensin system. We hypothesized 1) that ventilation (V) would be greater in conscious SHR than in control Wistar-Kyoto (WKY) rats and 2) that intravenous infusion of the ANG II-receptor blocker saralasin would depress respiration in SHR, but not in WKY. Respiration and oxygen consumption (VO(2)) were measured in conscious aged-matched groups (n = 16) of adult female SHR and WKY. For protocol 1, rats were habituated to a plethysmograph and measurements obtained over 60-75 min. After installation of chronic intravenous catheters, protocol 2 consisted of 30 min of saline infusion ( approximately 14 microliter. kg(-1). min(-1)) followed by 40 min of saralasin (1.3 microgram. kg(-1). min(-1)). V, tidal volume (VT), inspiratory flow [VT/inspiratory time (TI)], breath expiratory time, and VO(2) were higher, and breath TI was lower in "continuously quiet" SHR. In SHR, but not in WKY rats, ANG II-receptor block decreased V, VT, and VT/TI and increased breath TI. During ANG II-receptor block, an average decrease in VO(2) in SHR was not significant. About one-half of the higher V in SHR appears to be accounted for by an ANG II mechanism acting either via peripheral arterial receptors or circumventricular organs.     

ATP stimulates the release of prostacyclin from perfused veins isolated from the hamster hindlimb

ATP-stimulated prostacyclin release from veins was investigated using epigastric veins isolated from hamsters. Veins were perfused with MOPS-buffered physiological salt solution (PSS). ATP was administered into the perfusate, and the bath solution (MOPS-PSS) was collected and assayed for the presence of the stable prostacyclin metabolite 6-keto-PGF1alpha. ATP (100 microM) resulted in reproducible increases in bath concentration from 73 +/- 22 to 279 +/- 50 pg/ml (P < 0.05, n = 5). This response was abolished by indomethacin (10 microM, P < 0.05). To ascertain whether the endothelium was the source of prostacyclin, endothelium was disrupted using air (n = 10) or deoxycholic acid (n = 6). Perfusion with air significantly reduced (P < 0.05) but did not completely abolish ATP-stimulated release of prostacyclin, while deoxycholic acid totally abolished the response (P < 0.05). The nonselective P2 receptor antagonist reactive blue 2 (100 microM) attenuated ATP-mediated release of prostacyclin but did not significantly alter ACh-stimulated release of prostacyclin. The nonselective adenosine receptor antagonist xanthine amine congener (1 microM) had no effect on ATP-stimulated release, and adenosine did not stimulate the release of prostacyclin. These results show that increases in intraluminal concentration of ATP stimulate abluminal release of prostacyclin from the venous endothelium. This effect is mediated by P2 receptors while adenosine and its receptors are not involved in this response.     

The effects of substance P, histamine and histamine antagonists on somatostatin and gastrin release from the isolated perfused rat stomach

Secretion of somatostatin-like immunoreactivity (SLI) from the isolated perfused rat stomach has been shown to be inhibited by substance P. The present study was initiated to examine the possibility that this action of substance P was mediated via release of histamine. Substance P (1 microM) reduced basal secretion of SLI in agreement with earlier studies. Neither pyrilamine nor cimetidine influenced this action. Basal immunoreactive gastrin (IRG) secretion was unaffected by substance P. Addition of pyrilamine during substance P perfusion increased IRG secretion whereas addition of cimetidine resulted in a delayed decrease on removal of both compounds. Histamine (1 and 10 microM) increased SLI secretion and reduced IRG secretion. Pyrilamine increased and cimetidine decreased IRG secretion but neither drug influenced SLI secretion. Pyrilamine had no effect on histamine-stimulated SLI secretion but inhibition of IRG secretion by histamine was converted to stimulation. Cimetidine potentiated histamine stimulation of SLI secretion and inhibition of IRG secretion. In conclusion: (1) substance P inhibition of SLI secretion is unlikely to be mediated via release of histamine. (2) The gastrin cell appears to have both H1- and H2-receptors which mediate opposite actions but H1-receptor-mediated inhibition is predominant. (3) Histamine weakly stimulates SLI secretion but there may be both inhibitory and stimulatory pathways acting via H2- and H1-receptors, respectively.     

Naloxone's effect on the inotropic and chronotropic responses of isolated, electrically stimulated or spontaneously beating rat atria

Experiments were conducted to determine (i) how naloxone administration alone could modify the inotropic (in electrically stimulated (ES) rat atria) and both the inotropic and chronotropic responses (in spontaneously beating (SB) rat atria) isolated from normotensive and hypotensive (hemorrhaged) rats, and (ii) how naloxone administration would modify the inotropic and chronotropic responses of isolated rat atria previously administered an opiate agonist (morphine), a muscarinic agonist (carbachol), or an alpha- and beta-adrenergic agonist (noradrenaline). Naloxone (51-340 microM) added to ES atria caused a delayed but dose-related decrease in atrial tension (AT), whereas in SB atria, naloxone caused atrial heart rate (AHR) to fall and atrial tension (AT) to increase. Naloxone (68-340 microM), given to SB atria from acutely hypotensive rats, caused a similar increase in atrial tension as seen in the "normotensive" isolated (SB) atria and a similar decrease in atrial heart rate. Morphine sulphate (MS), 37-375 microM, administered to ES atria caused a delayed fall in AT; which was further decreased when naloxone (340 microM) was also added. In the SB atria, morphine caused a dose-related decrease in atrial heart rate whereas atrial tension increased. In SB preparations, atrial heart rate fell even further when naloxone was added to morphine compared with when morphine sulphate was given alone, whereas atrial tension was increased. Noradrenaline (3 or 12 microM) caused a positive, dose-related inotropic response in the ES atria, effects not influenced by the addition of naloxone. In the SB atria, naloxone caused no change in the dose-related increases in atrial tension and heart rate when combined with the lower dose of noradrenaline but decreased AT when combined with 12 microM noradrenaline, compared with when this dose of noradrenaline was given alone. Carbachol (683 nM-1.37 microM) caused a dose-related decrease in atrial tension in ES atria, which was reversed completely by the addition of naloxone. In SB atria, carbachol decreased both atrial tension and heart rate, and with the addition of naloxone (340 microM), a further slight drop in atrial heart rate occurred, but concurrently, a marked rise in atrial tension was observed. The results indicate that naloxone can act with receptors directly within atrial tissue to cause changes in atrial tension and heart rate. The comparable delayed responses of morphine and naloxone suggest their effects are mediated by nonopiate receptors which, in time, cause decreases in calcium influx into the atria.(ABSTRACT TRUNCATED AT 250 WORDS)     

PACAP stimulates gastric acid secretion in the rat by inducing histamine release

Previous studies have shown that pituitary adenylate cyclase-activating peptide (PACAP) stimulates enterochromaffin-like (ECL) cell histamine release, but its role in the regulation of gastric acid secretion is disputed. This work examines the effect of PACAP-38 on aminopyrine uptake in enriched rat parietal cells and on histamine release and acid secretion in the isolated vascularly perfused rat stomach and the role of PACAP in vagally (2-deoxyglucose) stimulated acid secretion in the awake rat. PACAP has no direct effect on the isolated parietal cell as assessed by aminopyrine uptake. PACAP induces a concentration-dependent histamine release and acid secretion in the isolated stomach, and its effect on histamine release is additive to gastrin. The histamine H2 antagonist ranitidine potently inhibits PACAP-stimulated acid secretion without affecting histamine release. Vagally stimulated acid secretion is partially inhibited by a PACAP antagonist. The results from the present study strongly suggest that PACAP plays an important role in the neurohumoral regulation of gastric acid secretion. Its effect seems to be mediated by the release of ECL cell histamine.     

Postanoxic recovery of spontaneously beating isolated atria: pH related role of adenylate kinase

The functional activity, adenine nucleotides, and creatine phosphate content of spontaneously beating isolated rabbit atria were measured prior to anoxia, after 1 hr anoxia, and at the end of 1 hr reoxygenation at pH 6.7 and 7.2 During anoxia at pH 7.2 there was 13.3% loss of adenine nucleotides pool, 35.2% loss of ATP, 36.2% increase in ADP, 200% increase in AMP, and a decrease to 8.8% of CP assayed to the beating atria in oxygen. At pH 6.7 there was almost the same decrease in CP, about 10% decrease in ATP, no change in total adenine nucleotides, no change in AMP and a higher increase in ADP (88.7%). The postanoxic recovery was much more complete when the pH was 6.7 during anoxia, and the first 40 min of reoxygenation. The extent of recovery of functional activity correlated well with the level of ATP in all cases not CP. Since the adenylate kinase and ATPase activity both decrease at acidic pH, their combined diminution would tend to preserve the adenine nucleotide pool and thus the better recovery at pH 6.7, because of a decrease in energy demand and unavailability of AMP for the degradation process. This study also supports the notion of compartmented adenine nucleotides connected by the creatine phosphate-creatine energy shuttle.     

Inositol trisphosphate stimulates the release of calcium from intact vacuoles isolated from Acer cells

On addition of inositol trisphosphate, intact vacuoles isolated from Acer pseudoplatanus cell suspension cultures release part of their calcium content. The process was specific, dose-dependent (IC₅₀ = 0.2μM) and was inhibited by an intracellular calcium antagonist. The calcium efflux elicited by inositol trisphosphate increased with the age of the cell suspension cultures, the maximum effect being obtained when the cultures reached the stationary phase. It is suggested that vacuoles play a role as an endocellular calcium store that is responsive to inositol trisphosphate in plants.     

Beta-adrenergic regulation of contractility and protein phosphorylation in spontaneously beating isolated rat myocardial cells

Spontaneously beating heart myocytes were prepared from adult rat ventricular tissues to study the correlation between beta-adrenergic receptor-stimulated changes in contractile performance and protein phosphorylation in vitro. The plasma membrane of isolated myocardial cells was permeabilized by saponin in the presence of EGTA and Mg-ATP. The permeabilized myocytes, which formed a homogeneous cell population, retained the rod-cell morphology of heart cells in situ and showed spontaneous cyclic contractions. Their contractile activity in response to extracellularly added cAMP mimicked the effects caused by beta-adrenergic stimulation of the whole heart: both the frequency and longitudinal velocity of free contraction and relaxation of the cells increased. Similar increases were observed when beta-agonist, isoproterenol, and GTP were added to suspending medium. In addition, isoproterenol maximally enhanced the adenylate cyclase activity of the cells in the presence of GTP. Both of these effects of isoproterenol were completely blocked by the beta-antagonist propranolol. cAMP-mediated phosphorylation of proteins in the permeabilized myocytes was investigated under conditions in which the beating frequency increased. cAMP elevated the phosphorylation level of five proteins; three of them with apparent molecular masses of 24, 15, and 12 kDa were membrane proteins and the other two with apparent molecular masses of 150 and 28 kDa were myofibrillar proteins. The 24-kDa phosphoprotein dissociated into 12-kDa molecules when boiled in sodium dodecyl sulfate, suggesting that these proteins are oligomeric and monomeric forms of phospholamban. The phosphorylation of these five proteins was stimulated by isoproterenol. The effect of isoproterenol was enhanced by GTP but completely blocked by propranolol. The time course of their phosphorylation correlated well with that of the increase in the beating frequency of the cells; both were measured after the administration of isoproterenol and GTP. When propranolol was added after the start of the stimulation by isoproterenol, only phospholamban and the 15-kDa protein were rapidly dephosphorylated in close correlation with the decrease of the beating frequency. These results demonstrate for the first time that the permeabilized myocytes retain the functional beta-adrenergic receptor and cellular responses to beta-adrenergic stimulation. They also suggest that cAMP-mediated phosphorylation of proteins, possibly phospholamban and/or the 15-kDa protein, is involved in the increased contractile activity of permeabilized heart cells.     

Neurotensin potentiates the endogenous dopamine release from striatal synaptosomes of rat

The effect of neurotensin (NT) on the release of endogenous dopamine (DA) of rat striatal synaptosomes was studied. In the basic medium with Ca++ (5mM K+ and 1.2 mM Ca++), spontaneous release of DA was determined to be 12.03 +/- 1.12 pmol/mg protein, while in the Ca++-free basic medium containing EGTA (2.0 mM), the amount of DA released was still up to 11.2 +/- 1.06 pmol/mg protein. NT in 10(-4)-10(-6) M range tested potentiated both the spontaneous and K+-induced release of DA in Ca++-free medium. In addition, NT in 10(-4) M, but not in lower concentrations tested, potentiated the spontaneous, Ca++-dependent release of DA. It is suggested that the effect of NT on DA release is mediated by the specific NT receptors at the DA axonal terminals. The possibility, however, that NT has some influence on the carrier-mediated process of the membrane might not be ruled out.     

Cardiac dysfunction in isolated perfused hearts from spontaneously diabetic BB rats

The purpose of this investigation was to examine cardiac function and biochemistry in spontaneously diabetic BB rats, a strain in which diabetes occurs spontaneously and closely resembles insulin-dependent diabetes in humans. The study involved two groups: nondiabetic littermates of BB rats and BB diabetic rats treated daily with a very low insulin dose such that the rats were severely hyperglycemic and hyperlipidemic. The hearts from these two groups were isolated and heart function (using isolated perfused working hearts) and biochemistry were examined 6 weeks after the onset of diabetes. BB diabetic rats exhibited a lower calcium-stimulated myosin ATPase activity and depressed left ventricular developed pressure, cardiac contractility, and ventricular relaxation rates compared with BB nondiabetic littermates. These results suggest that the chronically diabetic state in the BB rat produces cardiac changes similar to those demonstrable after chemical diabetes induced by alloxan or STZ, or that seen during human diabetes mellitus.     

Inhibitory effects of polyphenols isolated from marine alga Ecklonia cava on histamine release

In order to clarify the modern anti-allergy activity of crude extract of Ecklonia cava, which is an edible marine brown alga used as food ingredient and folk drug against allergy disease in Korea due to the abundant content of phlorotannin derivatives, the continuous chemical investigation led to the isolation of the two main bioactive phlorotannin derivatives 6,6′-bieckol (3) and 1-(3′,5′-dihydroxyphenoxy)-7-(2′′,4′′,6-trihydroxyphenoxy)-2,4,9-trihydroxydibenzo-1,4-dioxin (4) for the first time from this genus, together with phloroglucinol (1) and dieckol (2). Their structures were confirmedly elucidated by the comprehensive analyses of MS and NMR spectroscopic data. Meanwhile, these derivatives were assessed by histamine release assay on human basophilic leukemia (KU812) and rat basophilic leukemia (RBL-2H3) cultured cell lines, respectively. Furthermore, flow cytometric analysis indicated that the potential anti-allergic mechanism is the suppression of binding activity between IgE and Fc?RI. Finally, the relationships of structure–activity were also suggested. This research indicated that these main derivatives can be used as potential candidates for foodstuff, cosmetic and pharmaceutical industries.     

Cardiac performance of isolated beating hearts obtained from rats anesthetized by three different agents

Two functional performance parameters (heart rate and coronary flow rate) of three groups of six isolated beating hearts obtained from rats anesthetized by inhalation of diethyl ether in air, injection intraperitoneally of sodium pentobarbital (60mg/kg) or intravenously of alphaxalone/alphadolone (15mg/kg) were compared. Differences were small, but alphaxalone-alphadolone showed lowest stable mean coronary flow rate and diethyl ether the widest variation between animals. No significant difference in function was found between ether and pentobarbital, currently the two most widely used methods. But, pentobarbital showed higher stable functional performance and least variation between animals. We conclude that pentobarbital is the most useful of these three agents for obtaining hearts for perfusion as isolated beating organs, and that alphaxalone-alphadolone is clearly less suitable.