Interplay between nitric oxide and vasoactive intestinal polypeptide in inducing fluid secretion in rat jejunum.

Nitric oxide (NO) and vasoactive intestinal polypeptide (VIP) interact in the regulation of neuromuscular function in the gut. They are also potent intestinal secretogogues that coexist in the enteric nervous system. The aims of this study were: (1) to investigate the interaction between NO and VIP in inducing fluid secretion in the rat jejunum, and (2) to determine whether the NO effect on intestinal fluid movement is neurally mediated. The single pass perfusion technique was used to study fluid movement in a 25 cm segment of rat jejunum in vivo. A solution containing 20 mM L-arginine, a NO precursor, was perfused into the segment. The effect of the NO synthase inhibitors (L-NAME and L-nitroindazole (L-NI)) and the VIP antagonist ([4Cl-D-Phe6,Leu17]VIP (VIPa)) on L-arginine-induced changes in fluid movement, expressed as microl min(-1) (g dry intestinal weight)(-1), was determined. In addition, the effect of neuronal blockade by tetrodotoxin (TTX) and ablation of the myenteric plexus by benzalkonium chloride (BAC) was studied. In parallel groups of rats, the effect of L-NAME and L-NI on VIP-induced intestinal fluid secretion was also examined. Basal fluid absorption in control rats was (median (interquartile range)) 65 (45-78). L-Arginine induced a significant fluid secretion (-14 (-20 to -5); P<0.01). This effect was reversed completely by L-NAME (60 (36-65); P<0.01) and L-NI (46 (39-75); P<0.01) and partially by VIPa (37 (14-47); P<0.01). TTX and BAC partially inhibited the effect of L-arginine (22 (15-32) and 15 (10-26), respectively; P<0.05). The effect of VIP on fluid movement (-23 (-26 to -14)) was partially reversed by L-NAME (24 (8.4-35.5); P<0.01) and L-NI (29 (4-44); P<0.01). The inhibition of VIP or NO synthase prevented L-arginine- and VIP-induced intestinal fluid secretion through a neural mechanism. The data suggest that NO enhances the release of VIP from nerve terminals and vice versa. Subsequently, each potentiates the other's effect in inducing intestinal fluid secretion.

Experimental colitis decreases rat jejunal amino acid absorption: role of capsaicin sensitive primary afferents.

Ulcerative colitis and experimental colitis are known to be associated with functional and structural abnormalities of the small intestine. The aim of this study was to determine whether experimental colitis in the rat has any effect on jejunal amino acid absorption and to investigate the neural mechanisms involved. In Sprague Dawley rats, colitis was induced by intracolonic administration of 0.1 ml of 6% iodoacetamide. Alanine absorption in the jejunum was measured using the single pass intraluminal perfusion technique in vivo and the three-compartment model in vitro. Experiments were done in normal and sham treated rats, as well as in rats that underwent neonatal capsaicin treatment, adult capsaicin treatment, or subdiaphragmatic vagotomy. Colitis was more severe in rats subjected to neonatal or adult capsaicin treatment, but was not affected by subdiaphragmatic vagotomy. In rats with colitis, jejunal alanine absorption was reduced by 2% (P>0.05), 28%, 40%, and 18% (P<0.001) at 1, 1.5, 2, and 3 days post rectal iodoacetamide administration. A rebound increase of 12% above baseline was noted at 4 days (P<0.05). Similar results were noted in vitro. In rats that received two consecutive injections of iodoacetamide, the decrease in jejunal alanine absorption occurred earlier, was more severe, and persisted for more than 30 days. Neonatal as well as adult capsaicin treatment aggravated both the colitis and the decrease in jejunal alanine absorption. On the other hand, subdiaphragmatic vagotomy attenuated the decrease in jejunal alanine absorption, but had no significant effect on colitis severity. It is concluded that iodoacetamide induced colitis impairs jejunal amino acid absorption and that this effect involves vagal efferents as well as capsaicin sensitive primary afferents.

Effect of vasoactive intestinal polypeptide (VIP) antagonism on rat jejunal fluid and electrolyte secretion induced by cholera and Escherichia coli enterotoxins.

BACKGROUND: The enteric nervous system is important in the pathophysiology of intestinal fluid secretion induced by cholera toxin (CT), Escherichia coli heat labile (LT), and heat stable (STa) toxins. The neurotransmitters involved are not fully elucidated. Vasoactive intestinal polypeptide (VIP), a potent intestinal secretagogue present in the enteric nervous system, is increased after exposure of the cat intestine to CT. Whether VIP is involved in the pathogenesis of cholera and other toxins in not known. AIM: To study in vivo the effect of VIP antagonism on jejunal fluid secretion induced by CT, LT, and STa. METHODS: CT, LT (25 microg), or 0.9% NaCl was instilled in an isolated 25 cm segment of rat jejunum, and the VIP antagonist (VIPa) [4Cl-D-Phe(6), Leu(17)]-VIP (0.2 or 2 microg/kg/min) or 0.9% NaCl was given intravenously. Two hours later, single pass in vivo jejunal perfusion was performed to assess fluid movement. In STa experiments, intravenous VIPa or 0.9% NaCl was given and 30 minutes later the jejunal segment was perfused with a solution containing STa 200 microg/l. RESULTS: VIPa had no effect on basal intestinal fluid absorption. CT induced net fluid secretion (median -68 microl/min/g dry intestinal weight (interquartile range -80 to -56)) which was dose dependently reversed by VIPa (6.2 (-16 to 34) and 29 (17 to 42); p<0.01). Similarly, LT induced secretion (-63 (-73 to -30)) was attenuated by VIPa (0.2 microg/kg/min) (-15 (-24 to -1); p<0.01) and totally reversed to normal levels by VIPa (2 microg/kg/min) (37 (28-56); p<0. 01 compared with LT and not significant compared with normal controls). STa induced secretion (-17 (-19 to -2)) was also reversed by VIPa (12 (9-23) and 14 (0-26); p<0.01). CONCLUSION: VIP plays an important role in CT, LT, and STa induced intestinal secretion and may be the final putative neurotransmitter in the pathophysiology of these toxins.

Calcitonin gene-related peptide regulates amino acid absorption across rat jejunum.

The calcitonin gene related peptide (CGRP) is widely distributed in the enteric nervous system and gut afferents. Its role in normal digestion and absorption is not characterised. This study is conducted to elucidate whether CGRP regulates amino acid absorption in the small intestine. In in vivo experiments using the single-pass perfusion technique, intravenous infusion of CGRP (250-750 pmol/kg-min) reduced alanine absorption by 35-40%. The effects were completely blocked by the antagonist hCGRP (8-37). Moreover, intravenous infusion of CGRP antagonist blocked the inhibitory effect of intraluminal capsaicin perfusion on alanine absorption. Similarly, intracerebral injection of CGRP decreased alanine absorption, an effect which was reduced by vagotomy. In vitro experiments using isolated jejunal strips showed that CGRP reduced alanine absorption in a dose-dependent manner. At 6 pM, CGRP decreased alanine absorption by 33%. Similarly, CGRP reduced the absorption of proline and taurine by 20 and 11.5%, respectively. Kinetic studies revealed that CGRP reduces alanine influx into intestinal epithelial cells by inhibiting the affinity of the carriers. It is demonstrated that CGRP is involved in the regulation of jejunal amino acid absorption through intrinsic (enteric) and extrinsic (central) neural mechanisms.

Protective effect of the nitric oxide donor molsidomine on indomethacin and aspirin-induced gastric injury in rats.

OBJECTIVE: To study the effect of the nitric oxide donor, molsidomine, on gastric and duodenal injury induced by indomethacin and aspirin. METHODS: Sprague-Dawley rats weighing 180-200 g were used after 24 h fasting. Indomethacin (5 mg/kg) was given subcutaneously as a single dose and followed by multiple injections of histamine. Molsidomine (0.05 mg/kg) or distilled water was given by gavage 30 min before indomethacin and repeated at 3 h intervals for two doses. Rats were killed 2 h after the last dose of molsidomine. Aspirin (500 mg/kg) was given by gavage and repeated 2.5 h later. Molsidomine or distilled water was given 30 min before the initial aspirin dose and repeated after 2 h. Animals were killed 2.5 h after the second dose of aspirin. The severity of the gastric mucosal damage was graded from 0 to 3, and the duodenal bulb ulcer surface area calculated by two independent observers using a dissecting microscope. RESULTS: Indomethacin and aspirin resulted in significant gastric mucosal damage with median scores of 2 (interquartile ranges 1.4-3, n = 16 and 2-3, n = 10, respectively). Molsidomine significantly ameliorated indomethacin- and aspirin-induced damage with median scores of 1 (interquartile ranges 0.5-1.5, n = 19 and 0.6-1.9, n = 10, respectively; P<0.008 and P<0.02, respectively (Mann-Whitney Utest)). Molsidomine had no effect on duodenal bulb ulcerations caused by indomethacin. CONCLUSION: Oral molsidomine has a protective effect on gastric mucosa against damage induced by ulcerogenic agents. This could have an important clinical benefit, especially in cardiac patients taking aspirin in addition to a nitric oxide donor such as molsidomine.

Reversal of impaired calcium homeostasis in the rat diaphragm subjected to Monocrotaline-induced pulmonary hypertension.

Monocrotaline (MCT) pneumotoxicity is known to alter the structure of pulmonary vascular wall and impairs endothelial cell function resulting in pulmonary hypertension. Its effect on the diaphragm muscle has not yet been elucidated. This study examines the effect of MCT pneumotoxicity on calcium transport in the rat diaphragm. Pulmonary hypertension induced by MCT pneumotoxicity caused a significant increase (P < 0.001) in calcium accumulation in strips isolated from rat diaphragms. Treatment of rats having received MCT with Indapamide reduced calcium uptake by diaphragmatic strips to levels that are not significantly different from the control (P > 0.05). Treatment with Indapamide alone did not elicit any change in calcium accumulation in the diaphragmatic strips. Treatment of the animals with MCT, Indapamide or both did not produce any significant change (P > 0.05) in the cell volume of the diaphragmatic strips. Pulmonary hypertension increased calcium uptake by the muscle cells in the rat diaphragm which may alter diaphragmatic contractility; an effect that was prevented by Indapamide.

Neural mediation of vasoactive intestinal polypeptide inhibitory effect on jejunal alanine absorption.

It was recently shown that vasoactive intestinal polypeptide (VIP) inhibits rat jejunal alanine absorption, an effect that was significantly reduced by vagotomy. This study assesses the role of capsaicin-sensitive primary afferents (CSPA) and the myenteric plexus in the inhibition of rat jejunal alanine absorption by VIP. Continuous intravenous infusion of VIP (11.2 ng . kg-1 . min-1) reduced alanine absorption by 60% in sham control rats and by 20% in rats neonatally treated with capsaicin (P < 0.01). In in vitro experiments, VIP decreased alanine uptake by jejunal strips isolated from sham control rats in a dose-dependent manner. In the presence of 40 nM VIP, alanine uptake by full-thickness jejunal strips was reduced by 54% in sham control rats and by 25% in rats neonatally treated with capsaicin (P < 0.001). On the other hand, VIP reduced alanine uptake by mucosal scrapings by 25% in sham rats compared with 9% reduction in neonatally treated rats. Chemical ablation of the extrinsic innervation and jejunal myenteric plexuses by pretreatment with benzalkonium chloride significantly (P < 0.001) reduced basal alanine absorption and the inhibitory effect of VIP. Moreover, incubation of intestinal strips with tetrodotoxin and atropine reduced significantly (P < 0.05) the inhibitory effect of VIP on alanine absorption. These data suggest that VIP exerts its inhibitory effect on alanine absorption through the CSPA fibers and the myenteric plexus. The neuronal circuitry of this inhibitory process may involve cholinergic muscarinic mechanisms.

Effects of capsaicin and capsaicin desensitization on alanine accumulation in rat hemidiaphragms.

1. Alanine accumulation in rat hemidiaphragms is significantly inhibited by capsaicin in a dose-dependent pattern that produced maximal effect at 1 mM. 2. The inhibitory effect of capsaicin on alanine accumulation by rat hemidiaphragms was enhanced upon preincubation with 5 mM ouabain. However, preincubation with 1 mM Verapamil did not alter the inhibitory effect of capsaicin. 3. Chemical ablation of the capsaicin-sensitive primary afferent fibers abolished the inhibitory effect of capsaicin on alanine accumulation in the rat hemidiaphragms.

Age influence on intestinal taurine transport in mice.

Taurine plays a role in neurologic development and neuromuscular function. The high need for taurine during development, and the low capacity for endogenous biosynthesis make its intestinal handling very important. In this in vitro study, we investigated the uptake of taurine by intestinal strips obtained from adult, 10-day and 20-day-old mice. Intestinal strips from adult, 10-day and 20-day-old mice accumulated taurine against a concentration gradient. Moreover, the capacity of the intestinal cells to concentrate taurine decreased with age. A major component of the transport process was carrier-mediated and Na-dependent. Analysis of the kinetics of taurine uptake revealed that Vmax decreased as the animals grow older without a significant change in apparent Kt. It is concluded that as mice grow older their intestinal capacity to absorb taurine decreases.

Acute and neonatal capsaicin treatment inhibit jejunal amino acid absorption through a Na+-dependent mechanism.

It has recently been shown that capsaicin inhibits alanine absorption in rat jejunum via mechanisms that involve intestinal capsaicin-sensitive primary afferent (CSPA) fibers. This study provides further evidence that the effect of capsaicin is neurally mediated and demonstrates that CSPA fibers regulate Na+-dependent amino acid absorption. In vivo, basal alanine absorption in rats neonatally treated with capsaicin was reduced by 35% below control. Furthermore, intraluminal perfusion of 400 microM capsaicin reduced jejunal alanine absorption by 31% in sham rats but had no significant effect in rats neonatally treated with capsaicin. In vitro, capsaicin significantly reduced uptake of alanine and proline by jejunal strips but had no effect on uptake of lysine. Tetrodotoxin (0.2 microM) partially blocked the effects of capsaicin but did not itself affect alanine absorption. Capsaicin reduced unidirectional mucosal-to-serosal alanine (1 mM) influx by 33%, an effect that becomes significant after 5 min of preincubation with capsaicin. Neonatal capsaicin treatment reduced basal alanine influx in jejunal strips by 37%; however, preincubation of these strips with capsaicin had no significant effect. Kinetic analysis of alanine steady-state uptake and influx by jejunal strips incubated with capsaicin revealed that capsaicin reduced the Na+-dependent component of alanine influx into intestinal epithelial cells. Long-term sensory denervation by capsaicin also decreased the Na+-dependent component of alanine absorption. These data suggest that intestinal capsaicin-sensitive primary afferent fibers regulate Na+-dependent amino acid absorption.

Involvement of capsaicin-sensitive primary afferent fibers in regulation of jejunal alanine absorption.

Capsaicin-sensitive primary afferent fibers (CSPA) in the small intestine regulate many functions through the release of peptides and neurotransmitters. This study was undertaken to assess the role of CSPA in the regulation of jejunal alanine absorption in the rat. In a series of in vivo experiments, the effects of the sensory neurotoxin capsaicin on small intestinal alanine absorption were evaluated. In vitro experiments were also done to study its effects on alanine uptake by isolated jejunal strips and mucosal scrapings. Jejunal alanine absorption was reduced by 27% when capsaicin (160 and 800 microM) was perfused intraluminally and by 21% when it was applied topically to the cervical vagi. On the other hand, bilateral cervical vagotomy and reversible block of vagal CSPA increased alanine absorption by 29 and 41%, respectively. In vitro, capsaicin reduced alanine uptake by intestinal strips in a dose-dependent manner. Maximal inhibition (36.5%) occurred at 400 microM with the mean ineffective concentration at 87 microM. Alanine uptake by jejunal mucosal scrapings, however, was decreased only by 6.7% when incubated with 1,600 microM capsaicin. These data suggest that vagal CSPA exerts a tonic inhibitory effect on alanine absorption and that capsaicin's inhibitory effect on alanine absorption is mediated largely by the capsaicin-sensitive afferent fibers.

Effects of intracerebral injections of VIP on jejunal alanine absorption and gastric acid secretion in rats.

The effects of intracerebral injections of VIP on jejunal alanine absorption and gastric acid secretion, and its association with vagal outflow were examined in Sprague-Dawley rats. Intracerebroventricular injection of VIP (2 ng) decreased significantly (P < 0.05) alanine absorption across the jejunum, whereas similar injections in vagotomized rats did not show further decrease in absorption beyond that noticed by vagotomy only. Moreover, VIP injected in the Nucleus Tractus Solitarius-Dorsal Motor Nucleus (NTS-DMN) complex (1 ng) produced also a significant inhibition of Ala absorption which was reduced but remained significant (P < 0.05) after vagotomy. Water movement was not affected by VIP injection in the lateral ventricle, while VIP injections in the NTS-DMN inhibited significantly (P < 0.05) jejunal water absorption by 10-12%. Vagotomy increased water absorption by 15-20% above control (P < 0.05) which was not altered by injecting VIP in the NTS-DMN complex. On the other hand, VIP injection in the NTS-DMN produced a 25.7% increase in gastric acid output in the first hour of the experiment followed by a non-significant decrease (P > 0.05) in the second hour. Same injections done in vagotomized animals produced similar effects to those elicited by vagotomy only. It can be suggested that NTS-DMN complex could be a site of action of VIP since injection of VIP in it produced a more pronounced inhibitory effect on water and Ala absorption than that produced by VIP injection in the LV. These effects were reduced or abolished by vagotomy.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of intravenous vasoactive intestinal peptide injection on jejunal alanine absorption and gastric acid secretion in rats.

The effect of intravenous vasoactive intestinal polypeptide (VIP) injection on jejunal L-alanine absorption and gastric acid secretion in the rat was investigated. Continuous intravenous VIP infusion (11.2 ng/kg per min) throughout the experimental period (160 min) produced 60% decrease in alanine absorption and 40% decrease in gastric acid secretion during the second hour of the experiment. Subdiaphragmatic vagotomy reduced alanine absorption to 91% (P > 0.05) and 71.3% (P < 0.05) of control value during the first and second hours of perfusion, respectively. VIP infusion following vagotomy elicited a reduced effect when compared to that produced by similar injections in normal rats. Gastric secretion in vagotomized rats was reduced by 40% (P < 0.05) below control. VIP infusion in vagotomized rats exerted a significant decrease (P < 0.05) of gastric acid secretion. Moreover, water absorption was decreased by almost 10% (P < 0.05) after i.v. injection of VIP and was increased by 20-24% above control value following vagotomy. However, i.v. administration of VIP following vagotomy did not elicit any further change in water absorption. It can be concluded that VIP inhibits alanine absorption and gastric acid secretion in the rat and that these inhibitory effects might be partially mediated by the vagus nerve.

Role of motilin in the control of intestinal absorption, and gastric and biliary secretions in the rat.

The effects of motilin on proline absorption and gastric and biliary secretions were examined in the rat. Prolonged intravenous administration of motilin (50 pmol/kg/min) significantly inhibited (P < 0.05) proline transport across the jejunum and reduced basal acid secretion to 40% of control value. The same concentration of motilin induced choleresis and increased bile output by 32%. Incubation of intestinal strips with different concentrations of motilin produced a dose-dependent inhibitory pattern of proline accumulation in the intestinal cells.

Inhibitory effect of neurotensin on proline.

The effect of neurotensin (NT) on proline absorption across rat jejunum was investigated using the single-pass perfusion technique. This study showed that intravenous administration of NT produced a dose-dependent inhibition of proline absorption. Thus, NT at a 0.16 pmol/kg/min concentration gave 10% decrease in proline absorption while 0.32 and 1.6 pmol/kg/min concentration gave 31% and 45% decrease, respectively. In the absence of Na, proline absorption decreased to 77% from control values. No change in proline absorption was noticed when NT at a concentration of 0.32 pmol/kg/min was intravenously injected in the absence of sodium from the perfusion solution. Water absorption did not show significant changes (P > 0.05) in presence or absence of NT. Moreover, NT did not produce a significant change (P > 0.2) in intracellular proline accumulation. NT inhibited proline absorption through an indirect mechanism that is Na-dependent and independent of changes in water absorption.

Serum lipids and lipoprotein profile in a selected group of normal Lebanese subjects.

Serum triglycerides, total cholesterol, LDL, VLDL and HDL cholesterol levels were determined in a group of 442 apparently healthy Lebanese subjects after a 12 hr fast. Age-dependent increase was noted for total cholesterol, LDL cholesterol and triglycerides. On the other hand, VLDL and HDL cholesterol levels were age-independent. In addition, sex differences were noted for HDL cholesterol only. Our findings for total cholesterol and triglycerides are comparable with values reported by other authors, while values for LDL and VLDL are significantly different.

The components of taurine transport across the rat small intestine A kinetic study.

The transport of taurine across adult Sprague-Dawley rat small intestine was studied in vitro using small intestinal strips. The kinetics of the transport mechanism were investigated under both steady-state and influx conditions. Our findings were compatible with the presence of two distinct transport mechanisms; a linear non-carrier mediated component and a saturable carrier mediated component, with almost equal contribution from each. The mediated component was found to be largely Na(+)-dependent and exhibited marked inhibition by B-alanine and structurally related sulfur amino acids.

Functional and structural changes in the jejunum of the rat following cysteamine and stress-induced duodenal ulcer.

The effects of cysteamine and stress-induced duodenal ulcer on the functional and structural properties of the rat jejunum were investigated. The absorptive capacity of the jejunum was determined using alanine as the permeant solute and the single-pass perfusion technique. A statistically significant decrease (p < 0.01) in alanine absorption was observed after 8 h and 3 days of duodenal ulcer induction by stress and cysteamine respectively. However, alanine transport measured 7 days after cysteamine or stress ulcer induction showed no significant change from control values. Cysteamine and stress-induced duodenal ulcer did not show any significant change in water absorption across the jejunum when measured after 8 h, 3 and 7 days of ulcer induction. Microscopically, the jejunum of rats with 3-day cysteamine-induced ulcer exhibited diffuse type of apical derangements with excessive swelling of the villi and progressive degenerative changes. No such changes were noticed on the 7th day nor in the jejunum of the rats with stress-induced duodenal ulcer. The results suggest that cysteamine-induced duodenal ulcer produces an inhibition in the absorptive capacity of the jejunum which is time-dependent and reversible.

Effect of chlorpromazine on proline absorption across rat jejunum.

The effect of chlorpromazine on proline absorption across jejunum in anaesthetized rats was investigated. Intravenous infusion of chlorpromazine reduced significantly (P less than 0.01) proline absorption across the jejunum. Intraluminal perfusion of chlorpromazine into the jejunal segment reversed net absorption of proline to net secretion. Net water absorption was increased significantly (P less than 0.01) when chlorpromazine was infused intravenously or perfused intraluminally. Unidirectional influx of proline across the mucosal surface was significantly inhibited (P less than 0.01) after preincubation with 1 mM chlorpromazine.

Effects of aminophylline and terbutaline sulfate on the contractility of feline diaphragm.

1. The effect of aminophylline and terbutaline sulfate, separately and in combination, on the contractility of the feline diaphragm was investigated. 2. Diaphragmatic contractility increased significantly (P less than 0.05) to 28.3% above control level as long as theophylline plasma levels were maintained between 10-20 mg/l (mean 13.9 +/- 0.8 mg/l). 3. Diaphragmatic contractility showed a significant (P less than 0.05) 41.5% increase after i.v. administration of terbutaline sulfate as a maintenance dose of 1.4 micrograms/kg-hr, and the increase leveled off after 180 min. 4. Administering the two drugs in combination showed a significant (P less than 0.05) 27.3% increase which suggests a non-synergistic effect of aminophylline and terbutaline sulfate on diaphragmatic contractility. 5. By enhancing the contractility of the diaphragm, aminophylline and terbutaline sulfate may improve the clinical status of patients with airway obstructive diseases and help in preventing respiratory muscle fatigue.