Pharmacological comparison of the alternatively spliced short and long CCK2 receptors.

(1) The alternatively spliced, short and long cholecystokinin receptors (CCK2S and CCK2L) were expressed in NIH3T3 cells, and compared using radioligand-binding assays with identical buffer and incubation conditions. (2) As judged by a saturation analysis, the selective CCK2-receptor antagonist radioligand [3H]-JB93182 did not discriminate between the CCK2S or CCK2L receptors. (3) A global analysis of competition studies, using a range of structurally diverse, CCK-receptor selective ligands, provided further evidence that these receptor subtypes were pharmacologically indistinguishable. However, when analysed individually a number of small, yet significant differences were observed with some of the compounds. (4) These data are consistent with previous study that suggested a possible pharmacological difference between these isoforms, at least in terms of the CCK2-receptor antagonist, L-365,260. However, it would appear that the pharmacological profile of these compounds is not consistent with their affinity at the putative G1/G2 receptors previously described by Harper et al.

In vitro evaluation of Bacopa monniera on anti-Helicobacter pylori activity and accumulation of prostaglandins.

Bacopa monniera is an Indian tratidional medicine widely used to improve intellectual functions. Earlier, we had reported the prophylactic and curative effects of standardized extract of Bacopa monniera (BME) in various gastric ulcer models. The effect was due to augmentation of the defensive mucosal factors like increase in mucin secretion, life span of mucosal cells and gastric antioxidant effect rather than on the offensive acid-pepsin secretion. The present study includes evaluation of standardized BME (bacoside A content--35.5 +/- 0.9) on other contributing factors towards ulcerogenesis. BME in the dose of 1000 microg/ml showed anti-Helicobacter pylori activity in vitrol and in the dose of 10 microg/ml increased in vitro of prostanoids (PGE and PGI2) in human colonic mucosal incubates. It may be concluded that these factors may contribute to antiulcerogenic activity of BME.

Effect of nimesulide on gastric acid secretion in the mouse stomach in vitro.

Nimesulide, a selective inhibitor of cyclooxygenase-2, has been reported to cause less gastric damage, compared to other NSAIDs. We investigated the effect of nimesulide on basal gastric acid secretion, a contributing factor in NSAID-induced gastric damage, and histamine, pentagastrin, 5-methylfurmethide, isobutyl methylxanthine or high K(+) stimulated acid secretion in the isolated mouse stomach. The stomachs, removed from mice, were transferred into an organ bath and continuously perfused. Changes in pH following the addition of secretagogues were measured by a pH electrode system. The effects of nimesulide on basal and secretagogues-stimulated acid secretion were compared to those of indomethacin. Nimesulide (1 microM to 100 microM) produced a rightward concentration-dependent shift and reduction of maximum acid secretion of all the agonist-stimulated acid secretion curves. Indomethacin was only effective at the higher concentration of 100 microM. Compared to their effects singly, nimesulide (20 microM) and famotidine (0.15 microM) together caused a further shift without further reduction in maximum acid output of the histamine-stimulated curve, suggesting that nimesulide was not acting at the histamine H(2)-receptor. Nimesulide concentration-dependent reduction of stimulated acid secretion in the isolated mouse stomach was not by antagonism of the histamine H(2) receptor and is probably beyond the level of adenylate cyclase stimulation. A direct effect on the calcium channel is demonstrated.

Pharmacological evidence for putative CCK(1) receptor heterogeneity in human colon smooth muscle.

1. The pharmacology of the cholecystokinin CCK(1) receptors endogenously expressed in human gallbladder and human ascending colon smooth muscle tissue was compared using radioligand binding assays. 2. Saturation analysis of the interaction between the radiolabelled, selective CCK(1)-receptor antagonist, [(3)H]-L-364,718, and enriched gastrointestinal tissue membranes suggested the presence of multiple binding sites in human colon but not human gallbladder. 3. Competition studies, using a range of structurally diverse, CCK-receptor selective ligands provided further evidence for CCK(1) receptor heterogeneity in human colon tissue (n(H) values significantly less than unity for SR27897=0.77+/-0.07, 2-NAP=0.73+/-0.03, YM220=0.70+/-0.09 and PD-134,308=0.83+/-0.01). Moreover, the competition data for SR27897, 2-NAP and YM220 were consistent with the interaction of these compounds at two binding sites. In contrast, in the human gallbladder assay, a single binding site model provided a good fit of the competition curve data obtained with all the CCK receptor selective compounds. 4. The data obtained are consistent with the presence of a single CCK(1) receptor binding site in the gallbladder but not in the colon. A two-site analysis of the colon data, indicated that one of the two sites was indistinguishable from that characterized in the gallbladder. The molecular basis of the apparent receptor heterogeneity in the colon remains to be established.

Pharmacokinetics of dexloxiglumide after administration of single and repeat oral escalating doses in healthy young males.

OBJECTIVE: To assess the pharmacokinetics, safety and tolerability of dexloxiglumide, a new CCK1 receptor antagonist currently under development for the treatment of the constipation-predominant irritable bowel syndrome. SUBJECTS AND METHODS: Twelve volunteers were enrolled in the present study and received orally 100, 200 and 400 mg of dexloxiglumide as tablets as a single dose followed by repeated t.i.d. doses for 7 days according to a randomized, double-blind, double-dummy complete crossover design. Plasma and urine were collected before drug administration and up to 72 h after dosing. Dexloxiglumide plasma and urinary concentration, determined using validated HPLC methods with UV detection, were used for the pharmacokinetic analysis by standard noncompartmental methods. In addition, dexloxiglumide safety and tolerability were evaluated throughout the study period by performing standard laboratory tests, by recording vital signs and ECGs and by monitoring the occurrence and severity of adverse events. RESULTS: After a single oral administration, dexloxiglumide was rapidly bioavailable with mean t(max) ranging from 0.9 - 1.6 h at all doses. The mean peak plasma concentrations (Cmax) were 1.7+/-0.6, 5.4+/-1.7, and 11.9+/-4.7 microg/ml, and the mean area under the plasma concentration-time curves (AUC) were 4.4+/-3.3, 8.6+/-3.6, and 18.3+/-5.9 microg x h/ml at the 3 doses, respectively. Apparent plasma clearance (CL/F) was 30.8+/-13.9, 27.2+/-10.6, and 21.1+/-8.6 l/h at the 3 doses, respectively. The apparent elimination half-life from plasma (t1/2) ranged from 2.6 - 3.3 h at the 3 doses. The excretion of unchanged dexloxiglumide in 0 - 72 h urine accounted for approximately 1% of the administered dose and this was true for all doses. Dexloxiglumide renal clearance (CLR) averaged 0.4+/-0.4, 0.4+/-0.2, and 0.3+/-0.3 l/h for the 3 doses, respectively. After the last dose of the repeated dosing period dexloxiglumide Cmax occurred at 1.1 - 1.6 h after drug administration and averaged 2.4+/-1.3, 7.1+/-2.9, and 15.3+/-2.7 microg/ml for the 3 doses, respectively. The AUC values averaged 5.9+/-3.0, 16.0+/-8.8, and 50.8+/-38.1 microg x h/ml, respectively. The area under the plasma concentration-time curve calculated at steady state within a dosing interval (AUCss) averaged 4.6+/-1.6, 11.3+/-3.6, and 28.4+/-8.2 microg x h/ml, whereas CL/F averaged 20.3+/-8.3, 16.3+/-9.0, and 10.3+/-5.0 l/h at the 3 doses, respectively. Dexloxiglumide t1/2 could not be accurately calculated due to the high inter-subject variability and to sustained dexloxiglumide plasma concentrations that precluded the identification ofthe terminal phase of the plasma concentration-time profiles. However, it appeared that dexloxiglumide t1/2 was considerably prolonged at the dose of 400 mg. CLR averaged 0.4+/-0.4, 0.3+/-0.3, and 0.3+/-0.1 l/h for the 3 doses, respectively. After a single dose, the plasma pharmacokinetics of dexloxiglumide were dose-independent in the dose range 100 - 400 mg. After repeated dose the pharmacokinetics of dexloxiglumide were virtually dose-independent in the dose range 100 - 200 mg. A slight deviation from linear pharmacokinetics was found with a dose of 400 mg. Dexloxiglumide plasma pharmacokinetics were also time-independent in the dose range 100 - 200 mg with a deviation from expectation based on the superimposition principle with a dose of 400 mg. Dexloxiglumide urinary excretion and renal clearance were both dose- and time-independent in the dose range 100 - 400 mg. The safety and tolerability of dexloxiglumide administered to healthy young males was good up to the maximum investigated dose of 400 mg both after single and after repeated doses. CONCLUSIONS: The safety and pharmacokinetic profile of dexloxiglumide when the drug is administered as single and repeated doses in the dose range 100 - 400 mg provides the rationale for the choice of the treatment schedule (200 mg t.i.d.) for the efficacy trials in patients with (constipation-predominant) irritable bowel syndrome.

Pharmacological characterization of cholecystokinin receptors mediating contraction of human gallbladder and ascending colon.

Cholecystokinin (CCK) produces contractions of gallbladder and colon in a number of different species. Although the effects of CCK on the human gallbladder are relatively well documented, the CCK receptors in the human colon have not been clearly characterised. Therefore, in this study, the CCK receptors in the human gallbladder and colon were compared using pharmacological techniques. Contraction of specimens of the human tissue was measured using in vitro organ bath bioassay. The effect of selective concentrations of CCK(1) and CCK(2) receptor antagonists (L-364,718 and JB93182, respectively) was determined on agonist concentration-effect (E/[A]) curves obtained by cumulative dosing with sulphated CCK. The CCK(1) antagonist L-364,718 produced a rightward shift of the CCK-8S [E/[A] curve in the human gallbladder (pA(2)=9.15 +/- 0.26) and ascending colon (pA(2)=9.20 +/- .33). In both tissues, the CCK(2) receptor antagonist, JB93182, had no effect on the CCK E/[A] curves. In addition, in the colon, pentagastrin responses were inhibited by L-364,718 but unaffected by JB93182. These data indicate that the CCK-induced contraction of the human colon and gallbladder smooth muscle is mediated solely through the CCK(1) receptor subtype, and the antagonist affinity estimates are consistent with those previously obtained in experiments on animal tissue.

Inhibition of gastric acid secretion by nimesulide: a possible factor in its gastric tolerability.

OBJECTIVE: To study the effect of nimesulide on acid secretion in mouse isolated stomach. METHODS: Isolated lumen-perfused mouse stomachs were monitored by pH-electrodes (1). Gastric acid secretion was stimulated with histamine or 5-methylfurmethide (5-MeF, a stable acetylcholine derivative), and the effect of nimesulide and indomethacin were studied alone and in combination with famotidine. RESULTS: The concentration-dependent stimulation of gastric acid output by histamine (Hill equation fitting parameters: log[A]50 5.44 +/- 0.15; p, 1.01 +/- 0.11; alpha, 0.64 +/- 0.05) was inhibited by famotidine, and also by nimesulide (log r = 0.79 +/- 0.10 at 30 microM). However, nimesulide also reduced the maximum acid output. The shift produced by nimesulide and famotidine in combination indicated a greater than additive effect, suggesting that nimesulide was not acting at histamine H2-receptors (Shankley et al., 1988) (2). Indomethacin reduced acid secretion only at the highest concentration (100 microM). Furthermore, the histamine-receptor-independent stimulation of gastric acid output by 5-MeF was greatly inhibited by nimesulide, which also suggests that nimesulide was acting on the parietal cell signaling pathway at a non-histamine-receptor site. CONCLUSION: The relatively low risk of gastric mucosal damage with nimesulide is thought to involve its weak inhibition of gastric prostaglandin synthesis and its weak acidity, but another factor might be the ability to reduce gastric acid production. However, the effect of nimesulide on human gastric acid secretion remains to be investigated.

A robust method for evaluation of NANC transmission in human sigmoid colon muscle in vitro.

INTRODUCTION: Human tissues are notoriously difficult to work with, giving results that are quantitatively variable within and between studies. Hence, previous investigations of nonadrenergic, noncholinergic (NANC) relaxation in human colon muscle report both partial and complete inhibitions of the NANC response by specific competitive inhibitors of nitric oxide (NO) production. We have established a robust and reproducible model to examine the contribution of NO during NANC relaxation assay in human sigmoid colon muscle strips. METHODS: Complete control curves to long-train, stepwise, frequency-dependent, continuous electrical field stimulation (EFS) relaxation using vertical platinum electrodes connected to a biphasic pulse train stimulator generated NANC responses in fresh human sigmoid colon circular muscle strips set up in Bennett baths. A second complete curve was generated on the same strip in the presence of specific drugs to determine the contribution of NO to NANC relaxation. Responses to NO were also generated in muscle strips. Results were fitted to the Hill equation. RESULTS: The first and second frequency-response curves without test drugs could be fitted to the Hill equation, resulting in similar midpoint locations ([f](50)), maximal asymptotes (alpha), and midpoint slope (n) parameters. L-N(G)-nitro-arginine (L-NOARG), TTX, and haemoglobin produced a tonic contraction in the muscle strips. NANC relaxations to EFS were inhibited by L-NOARG (30-37%), TTX (56-62%), and haemoglobin (48-90%). NO relaxations were concentration dependently inhibited by haemoglobin. Haemoglobin was equipotent in mediating tonic contraction and inhibiting NO relaxation. DISCUSSION: We established reproducible assays for human colon muscle strips by the generation of two complete dose-response curves to long-train EFS, thus enabling a "within-preparations" study. The results suggest that NO contributes but is not the sole mediator of relaxations to long-train EFS in human sigmoid colon muscle. Moreover, a basal production of NO may serve to regulate tone of human colonic muscle.

COX-2 inhibitors compared and contrasted.

Non-steroidal anti-inflammatory drugs (NSAIDs) are the principal drug treatments for inflammation, pain and fever. They act primarily by inhibiting prostaglandin (PG) synthesis but this can cause adverse events (AEs). Since the discovery of two PG synthesising enzymes, COX-1 and COX-2, and the substantial evidence that sparing COX-1 is advantageous for gastric safety, great interest has focused on selective COX-2 inhibitors. Much of the impetus has come from the most recently developed compounds celecoxib and rofecoxib, which have shown spectacular sales growth. However, the older drugs etodolac, nimesulide and meloxicam, made before COX-2 was discovered, are also COX-1-sparing and have good GI safety and therapeutic activities. These five compounds show similarities and differences that are discussed in relation to aspects that include their uses, efficacy, actions and safety.

Gastric acid secretion in cyclooxygenase-1 deficient mice.

BACKGROUND: Constitutive cyclooxygenase-1 enzyme synthesizes prostaglandins which are thought to play an important role in the functional integrity of the stomach gastric mucosa. Recently, it was shown that cyclooxygenase-1 deficient mutant mice did not develop spontaneous gastric pathology and appear less sensitive to indomethacin-induced gastric damage. AIM: To investigate gastric acid secretion in cyclooxygenase-1 deficient mutant mice. METHODS: The basal and histamine or isobutyl methylxanthine-stimulated acid secretion in stomachs of cyclooxygenase-1 deficient homozygous mice and the effect of indomethacin was compared with that of heterozygous and wild-type mice using isolated lumen perfused mouse stomachs, in organ baths, monitored by pH-electrodes. RESULTS: There was no significant difference in the basal or histamine stimulated gastric acid secretion between wild-type or heterozygous or homozygous mice. However, isobutyl methylxanthine was more potent in the cyclooxygenase-1 deficient and heterozygous mice than in wild-type mice. Indomethacin, at concentrations below 1 mM, had no effect on either basal or histamine stimulated acid secretion in any of the mice populations. CONCLUSION: Gastric acid secretion is maintained without prostaglandin involvement in cyclooxygenase-1 deficient mice. The finding that basal and histamine-stimulated gastric acid secretion was similar in the cyclooxygenase-1 deficient, compared to wild-type mice is consistent with the lack of spontaneous gastric pathology in the cyclooxygenase-1 deficient mice.

The effects of meloxicam, indomethacin or NS-398 on eicosanoid synthesis by fresh human gastric mucosa.

BACKGROUND: In the stomach, constitutive cyclooxygenase (COX-1) synthesizes prostaglandins that maintain the integrity of the gastric mucosa, while their inhibition contributes to gastric mucosal damage. In contrast COX-2, an inducible enzyme, forms prostanoids involved in pain and inflammation. AIM: To compare prostaglandin synthesis inhibition by meloxicam, a selective COX-2 NSAID reported to have better gastric tolerability, with indomethacin and NS-398 in human gastric mucosa and in whole blood assays. METHODS: Meloxicam, indomethacin or NS-398 were incubated with fresh human gastric mucosa pieces (100 mg in 1 mL phosphate buffered saline, pH 7.4, 37 degrees C, 30 min), clotting human blood (1 mL, 37 degrees C, 60 min) or with lipopolysaccharide-stimulated heparinized blood (1 mL, 37 degrees C, 24 h). Prostanoids were analysed by radioimmunoassay. RESULTS: Meloxicam was a less potent inhibitor of gastric mucosal eicosanoid compared to indomethacin, showing a sixfold difference in IC50 with gastric mucosal prostaglandin E (PGE) (11.8 and 1.8 microM, respectively). In the whole blood assays, the COX-2/COX-1 ratio for meloxicam was 0.2 compared to 0.9 for indomethacin confirming meloxicam's COX-2 selectivity. CONCLUSION: The results with human mucosa pieces would suggest that the better gastric tolerability of meloxicam compared to indomethacin is related to its relatively lower inhibition of gastric mucosal PGE synthesis by COX-1.

Uncoupling of intestinal mitochondrial oxidative phosphorylation and inhibition of cyclooxygenase are required for the development of NSAID-enteropathy in the rat.

BACKGROUND: The pathogenesis of NSAID-induced gastrointestinal damage is believed to involve a nonprostaglandin dependent effect as well as prostaglandin dependent effects. One suggestion is that the nonprostaglandin mechanism involves uncoupling of mitochondrial oxidative phosphorylation. AIMS: To assess the role of uncoupling of mitochondrial oxidative phosphorylation in the pathogenesis of small intestinal damage in the rat. METHODS: We compared key pathophysiologic events in the small bowel following (i) dinitrophenol, an uncoupling agent (ii) parenteral aspirin, to inhibit cyclooxygenase without causing a 'topical' effect and (iii) the two together, using (iv) indomethacin as a positive control. RESULTS: Dinitrophenol altered intestinal mitochondrial morphology, increased intestinal permeability and caused inflammation without affecting gastric permeability or intestinal prostanoid levels. Parenteral aspirin decreased mucosal prostanoids without affecting intestinal mitochondria in vivo, gastric or intestinal permeability. Aspirin caused no inflammation or ulcers. When dinitrophenol and aspirin were given together the changes in intestinal mitochondrial morphology, permeability, inflammation and prostanoid levels and the macro- and microscopic appearances of intestinal ulcers were similar to indomethacin. CONCLUSIONS: These studies allow dissociation of the contribution and consequences of uncoupling of mitochondrial oxidative phosphorylation and cyclooxygenase inhibition in the pathophysiology of NSAID enteropathy. While uncoupling of enterocyte mitochondrial oxidative phosphorylation leads to increased intestinal permeability and low grade inflammation, concurrent decreases in mucosal prostanoids appear to be important in the development of ulcers.

Effects of amide local anaesthetics on eicosanoid formation in burned skin.

BACKGROUND: Previous studies have demonstrated potent inhibition of burn oedema and progressive ischaemia by local anaesthetics. Since eicosanoids have been suggested to play an important role in the pathophysiology of burns, we compared in the present ex vivo study the effects of topical lidocaine/prilocaine cream (EMLA, ASTRA, Sweden) and intravenous lidocaine with that of saline on eicosanoid formation by normal and burned rat skin. METHODS: A full-thickness burn trauma was induced in the abdominal skin. All the agents were given 5 min postburn until 2 h after the trauma. The experimental skin was subsequently removed and incubated in Krebs solution for 1 h. Eicosanoid concentrations in the solution were analysed by radioimmunoassay. RESULTS: EMLA cream induced a significant inhibition of TXB2 (P<0.05) and 6-Keto-PGF1alpha (P<0.01) but not of PGE release from burned skin as compared to saline treatment. Intravenous lidocaine infusions did not significantly influence the release of any of the measured eicosanoids versus saline. CONCLUSION: In conclusion, the lack of effect of intravenous lidocaine could relate to the severe burn trauma inducing rapid ischaemia which may have interfered with the delivery of the agent to the burned tissues or to insufficient concentrations achieved in the burn area. Topical treatment of burned skin with a local anaesthetic cream significantly reduced the release of TXB2 and 6-Keto-PGF1alpha, suggesting a possible mechanism of action in progressive burn ischaemia.

Cholecystokinin receptors in human pancreatic cancer cell lines.

Recent studies have suggested that cholecystokinin (CCK) receptors may play a role in the development and growth of pancreatic cancers. We detected the expression of mRNA encoding CCK-A and CCK-B receptors in eight human pancreatic tumour cell lines using reverse transcription-polymerase chain reaction (RT-PCR), but not by RNase protection assays. The K-ras gene, which can be activated by G-coupled protein receptors such as CCK receptors, was mutated in codon 12 in five of the cell lines. In addition, Mia PaCa-2 pancreatic cancer cells did not respond to CCK or gastrin in cell proliferation or focal adhesion kinase (FAK) phosphorylation assays. In contrast, mouse NIH3T3 fibroblasts transfected with human CCK-B receptor (NIH3T3CCK-BR) showed increased proliferation and phosphorylation to the peptides. Also, radioligand binding studies indicated that Mia PaCa-2 cells had approximately 12.5-fold less CCK-B receptors than NIH3T3CCK-BR. Our results suggest that in Mia PaCa-2 cells, CCK receptors may not play a crucial role in supporting cell growth.

Enantiomers of flurbiprofen can distinguish key pathophysiological steps of NSAID enteropathy in the rat.

BACKGROUND: Non-steroidal anti-inflammatory drugs (NSAIDs) cause gastrointestinal damage by a non-prostaglandin (PG) dependent "topical" action and by inhibiting cyclooxygenase. AIMS: To discriminate between these two effects by studying some key pathophysiological steps in NSAID enteropathy following administration of (R)- and (S)-flurbiprofen, the racemic mixture, and an uncoupler, dinitrophenol. METHODS: The effects of dinitrophenol, racemic, (R)-, and (S)-flurbiprofen on mitochondria were assessed in vitro and on key pathophysiological features of small intestinal damage in vivo (ultrastructure by electron microscopy, mucosal prostanoid concentrations, intestinal permeability, inflammation, and ulcer count) in rats. RESULTS: All the drugs uncoupled mitochondrial oxidative phosphorylation in vitro, caused mitochondrial damage in vivo, and increased intestinal permeability. Dinitrophenol and (R)-flurbiprofen caused no significant decreases in mucosal prostanoid concentrations (apart from a decrease in thromboxane (TX) B2 concentrations following (R)-flurbiprofen) while racemic and (S)- flurbiprofen reduced mucosal prostanoids significantly (PGE, TXB2, and 6-keto-PGF1alpha concentrations by 73-95%). Intestinal inflammation was significantly greater following administration of (S)-flurbiprofen and racemate than with dinitrophenol and (R)-flurbiprofen. No small intestinal ulcers were found following dinitrophenol or (R)-flurbiprofen while both racemic and (S)-flurbiprofen caused numerous ulcers. CONCLUSIONS: Dinitrophenol and (R)-flurbiprofen show similarities in their actions to uncouple mitochondrial oxidative phosphorylation in vitro, alter mitochondrial morphology in vivo, increase intestinal permeability, and cause mild inflammation without ulcers. Concurrent severe decreases in mucosal prostanoids seem to be the driving force for the development of severe inflammation and ulcers.

Cytosolic phospholipase A2, cyclo-oxygenases and arachidonate in human stomach tumours.

Human stomach tumours usually form more prostaglandins (PGs) than their associated normal mucosa/submucosa, but the mechanisms are not fully understood. The key enzymes are cytosolic phospholipase A2 (cPLA2, Mr 85,000) and the cyclo-oxygenases (COXs) which exist in constitutive (COX-1) and inducible forms (COX-2). In human stomach tumours and associated macroscopically normal tissues, we determined the fatty acid composition by gas chromatography, amounts of cPLA2, COX-1 and COX-2 by immunoblotting with specific antibodies and cPLA2 enzyme activity using a tritiated substrate. Although compared to normal mucosa there was less arachidonate in tumours (P < 0.05), the arachidonate/total fatty acid ratio was higher. Mean amounts of cPLA2 and COX-1 and cPLA2 activity were similar in tumours and normal mucosa. However, substantial amounts of COX-2 were found in the tumours but not in the mucosa, which may explain why many gastric tumours form increased amounts of PGs.

Early responses to dynamic strain change and prostaglandins in bone-derived cells in culture.

Mechanical loading of bone explants stimulates prostaglandin E2 (PGE2) and prostacyclin (PGI2) release and increases glucose 6-phosphate dehydrogenase (G6PD) activity. This response is blocked by indomethacin and imitated by exogenous PGs. In the experiments reported here, primary cultures of rat long bone-derived osteoblast-like cells were exposed to a dynamic strain and exogenous PGs in the culture dish. Strain (3400 mu epsilon, 600 cycles, 1 Hz) caused an immediate release of PGI2 into the culture medium but had no effect on PGE2. Strain also caused an increase in G6PD activity per cell and an increase in the smallest transcript of insulin-like growth factor II (IGF-II) (IGF-II T3) but had no effect on the expression of transforming growth factor-beta1 (TGF-beta1). Indomethacin inhibited strain-induced release of PGI2 and suppressed strain-induced stimulation of IGF-II T3 transcript. PGI2 (1 microM) increased G6PD activity and mRNA levels of all three transcripts of IGF-II but had no effect on the mRNA levels of IGF-I or TGF-beta1. PGE2 (1 microM) stimulated G6PD activity and caused a marked increase in IGF-I and the largest transcript of IGF-II (IGF-II T1) but had no effect on the IGF-II transcripts T2 and T3 or on TGF-beta1 mRNA levels. These findings show similarities in response between osteoblast-like cells strained in monolayer culture and bone cells in loaded bone explants in situ. They provide support for a role for IGF-II and PGI2 in the early strain-related response of osteoblasts in loading-related bone modeling/remodeling.

High molecular weight phospholipase A2 and fatty acids in human colon tumours and associated normal tissue.

Human colon tumours usually form more prostaglandins (PGs) than associated normal tissues, but the mechanism(s) are not fully understood. We analysed fatty acid compositions, in particular arachidonate, and measured the amount and the activity of high molecular weight cytoplasmic phospholipase A2 (cPLA2) of these tissues. Total lipids extracted from homogenised surgical specimens were transesterified and fatty acids were analysed by gas chromatography. cPLA2 was separated by SDS-PAGE, Western-blotted, immunoblotted using a specific antibody to cPLA2 and semiquantified following enhanced chemiluminescence using a scanning densitometer. cPLA2 biological activity was also assayed using 1-stearoyl, 2-[1-14C]-arachidonyl, L-3-phosphatidylcholine. Compared with normal mucosa/submucosa, there was more total arachidonate in tumours (P < 0.01), and increased levels of cPLA2 occurred in 6 of 17 tumours. In conclusion, the higher amounts of tumour total arachidonate and the sometimes higher levels of cPLA2, might help to explain why some human colon tumours form increased amounts of PGs.

Effects of D-myo-Inositol-1,2,6-triphosphate on eicosanoid formation in burned skin.

D-myo-Inositol-1,2,6-triphosphate (IP3) has been shown to reduce edema and progressive ischemia following experimental skin burns. The mechanism(s) are not identified but could be related to antiinflammatory effects of the agent. In the present ex vivo study we compared the effects of IP3 with those of saline and indomethacin on eicosanoid formation by normal and burned rat skin. In burned skin IP 3 treatment reduced the release of thromboxane B2 (TXB2) (P < 0.01) and leukotriene B4 (LTB 4) (P < 0.05) but there was only a weak trend for less prostaglandin E (PGE) compared to burned control animals receiving saline. Indomethacin reduced the release of TXB2 (P < 0.01), and PGE (P < 0.001), but not LTB 4 from burned skin compared to skin from saline-treated burned animals. In non-burned skin IP 3 increased the release of PGE (P < 0.01) and LTB 4 (P < 0.01), but did not significantly influence TXB2 accumulation in the incubation fluid compared to the saline-treated group. Indomethacin reduced the release of TXB2 (P < 0.001) and PGE (P < 0.001), but increased LTB 4 (P < 0.001) in normal skin compared to the saline-treated group. In conclusion, IP 3 inhibited the release of TXB2 and LTB 4 from burned skin ex vivo, but increased PGE and LTB 4 release from normal skin. These results suggest that the mode of action of IP 3 differs from that of nonsteroidal antiinflammatory drugs. The effects of IP 3 on the arachidonic acid cascade also seem to differ in burned versus normal skin.