Sigma (sigma) antagonist BMY 14802 prevents methamphetamine-induced sensitization.

We have demonstrated for the first time that the sigma antagonist BMY 14802 prevents the development of behavioral sensitization induced by repeated administration of methamphetamine. Rats received an intraperitoneal injection of 15 or 30 mg/kg BMY 14802 followed by 2 mg/kg methamphetamine 30 min later. Unlike dopamine antagonists, BMY 14802 did not induce major changes in the acute motor effects of 2 mg/kg methamphetamine. Repeated administration of methamphetamine induced progressive augmentation of stereotyped behaviors and resulted in behavioral sensitization. However, repeated administration of methamphetamine in combination with BMY 14802 at either dose produced no increase in the intensity of stereotypy when compared with the first treatment. After a 7-day abstinence period, a challenge test with methamphetamine alone revealed supersensitivity of methamphetamine-sensitized rats to subsequent methamphetamine, whereas rats pretreated with repeated methamphetamine in combination with BMY 14802 exhibited no difference in the intensity of stereotypy from rats pretreated with repeated saline. These results suggest that sigma receptors play a crucial role in the induction of methamphetamine-induced sensitization.     

GBR-12909 and fluspirilene potently inhibited binding of [3H] (+)3-PPP to sigma receptors in rat brain

Fluspirilene and GBR-12909, two compounds structurally similar to BMY-14802 and haloperidol, were assessed for their ability to interact with sigma receptors. Fluspirilene, an antipsychotic agent that interacts potently with dopamine receptors, inhibited the binding of [3H]-(+) 3-PPP (IC50 = 380 nM) more potently than rimcazole, a putative sigma antagonist that was tested clinically for antipsychotic activity. GBR-12909, a potent dopamine uptake blocker, also inhibited the binding of [3H]-(+) 3-PPP with an IC50 of 48 nM. However, other compounds that block the re-uptake of catecholamines, such as nomifensine, desipramine, imipramine, xylamine, benztropine and cocaine, were much weaker than GBR-12909 as sigma ligands. Thus, GBR-12909 and fluspirilene, compounds structurally similar to BMY-14802, are potent sigma ligands.     

Evidence for a model of activation of central sigma systems

Evidence for a drug-induced activation of central sigma systems is presented. The model is the locomotor activation initiated by a subcutaneous (SC) challenge of 1.6 mg/kg of (+)-butaclamol, (+)-BUT, given 30 min before 10 mg/kg SC of (-)-N-allylnormetazocine, (-)-NAN, in Sprague-Dawley male rats which have been pretreated with four daily injections of 10 mg/kg SC of (-)-NAN. The locomotor activation is characterized by an initial 20 min period of retropulsion and sideways-circling followed by 90 to 100 min of forward locomotion. The locomotor syndrome is antagonized by 10 mg/kg of (+/-)-BMY 14802, 20 mg/kg of rimcazole, and 0.2 mg/kg of haloperidol, but not by 0.04 mg/kg of R(+)SCH23390, 100 mg/kg of S(-)sulpiride, 10 mg/kg of naltrexone, or 2.5 mg/kg of MR2266. The data suggest that the manifestation of the (+)-BUT/(-)-NAN-induced syndrome depends upon intact transmission at central sigma sites.     

Amphetamine-induced inhibition of central noradrenergic neurons: a pharmacological analysis

The amphetamine-induced inhibition of brain noradrenaline (NA) containing neurons in the rat locus coeruleus (LC) was pharmacologically analyzed utilizing single unit recording techniques. The presynaptic α-receptor blocking agent yohimbine (10 mg/kg i.p., 30 min before) largely prevented the amphetamine-induced depression of LC units in contrast to prazosin (0.6 mg/kg i.p., 30 min) or phenoxybenzamine (20 mg/kg, 30 min) which both slow preference for postsynaptic α-receptors. The β-receptor blocking agent, propranolol (10 mg/kg, 30 min), as well as the peripherally but not centrally active α-receptor blocking drug phentolamine (10 mg/kg, i.p., 30 min), also did not block the amphetamine effect. The LC inhibition by amphetamine was blocked by pretreatment with reserpine (10 mg/kg, i.p., 5 h), which caused almost total depletion of brain catecholamines. However, unlike the amphetamine-induced inhibition of central dopamine (DA) neurons the NA cell inhibition was not blocked by pretreatment with a tyrosine hydroxylase inhibitor (α-MT, 50 or 250 mg/kg i.p., 30 min). These results suggest that the amphetamine-induced inhibition of NA neurons in the LC is an indirect effect, mediated via activation of central α-receptors of presynaptic character. The lack of antagonism by α-MT indicate that the NA release by amphetamine, unlike its effect on brain DA, is not critically dependent on the rate of tyrosine hydroxylation. Thus the euphoriant action of amphetamine, which is blocked by α-MT, may be associated with release of DA rather than NA in brain.     

Inhibition of climbing and mossy fiber, and basket and stellate cell inputs to mouse cerebellar Purkinje cells by novel anti-ischemic agents, ifenprodil and BMY-14802

Cerebellar cyclic guanosine monophosphate (cGMP) levels reflect the ongoing neuronal activity mediated by the N-methyl-D-aspartate (NMDA) receptor complex. Due to the putative role of the NMDA receptor complex in the etiology of ischemic neuronal injury, the effects of two novel anti-ischemic agents, ifenprodil and BMY-14802, were examined on cGMP responses mediated by harmaline, methamphetamine (MA), and pentylenetetrazol (PTZ), agents which modulate the Purkinje cell activity by three distinct pharmacological mechanisms. Similar to the competitive NMDA antagonist, CPP [(+/-)-3-carboxypiperazin-4-yl)propyl-1-phosphonic acid], ifenprodil and BMY-14802 reversed the harmaline-, MA- and PTZ-induced cGMP levels. Unlike CPP, ifenprodil was nearly 3-times less potent at reversing the harmaline-induced increases in cGMP levels than at reversing MA-and PTZ-induced increases in cGMP levels. These results suggest a differential modulation of basket and stellate, and mossy fiber activity by ifenprodil.     

Selective inhibition of cholesterol synthesis in liver versus extrahepatic tissues by HMG-CoA reductase inhibitors

Hepatic specificity of inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase may be achieved by efficient first-pass liver extraction resulting in low circulating drug levels, as with lovastatin, or by lower cellular uptake in peripheral tissues, seen with pravastatin. BMY-21950 and its lactone form BMY-22089, new synthetic inhibitors of HMG-CoA reductase, were compared with the major reference agent lovastatin and with the synthetic inhibitor fluindostatin in several in vitro and in vivo models of potency and tissue selectivity. The kinetic mechanism and the potency of BMY-21950 as a competitive inhibitor of isolated HMG-CoA reductase were comparable to the reference agents. The inhibitory potency (cholesterol synthesis assayed by 3H2O or [14C]acetate incorporation) of BMY-21950 in rat hepatocytes (IC50 = 21 nM) and dog liver slices (IC50 = 23 nM) equalled or exceeded the potencies of the reference agents. Hepatic cholesterol synthesis in vivo in rats was effectively inhibited by BMY-21950 and its lactone form BMY-22089 (ED50 = 0.1 mg/kg p.o.), but oral doses (20 mg/kg) that suppressed liver synthesis by 83-95% inhibited sterol synthesis by only 17-24% in the ileum. In contrast, equivalent doses of lovastatin markedly inhibited cholesterol synthesis in both organs. In tissue slices from rat ileum, cell dispersions from testes, adrenal, and spleen, and in bovine ocular lens epithelial cells, BMY-21950 inhibited sterol synthesis weakly in vitro with IC50 values 76- and 188-times higher than in hepatocytes; similar effects were seen for BMY-22089. However, the IC50 ratios (tissue/hepatocyte) for lovastatin and fluindostatin were near unity in these models. Thus, BMY-21950 and BMY-22089 are the first potent synthetic HMG-CoA reductase inhibitors that possess a very high degree of liver selectivity based upon differential inhibition sensitivities in tissues. This cellular uptake-based property of hepatic specificity of BMY-21950 and BMY-22089, also manifest in pravastatin, is biochemically distinct from the pharmacodynamic-based disposition of lovastatin, which along with fluindostatin exhibited potent inhibition in all tissues that were exposed to it.     

Effects of a beta 3-adrenoceptor agonist, BRL 26830A, on insulin and glucagon release in mice.

The beta 3-adrenoceptor agonist, BRL 26830A, which is not inhibited by either beta 1 or beta 2-selective antagonists, has been shown to possess anti-obesity and anti-diabetic actions. However, the effects of this agent on insulin and glucagon release have not yet been substantiated. Therefore, we tested the hypothesis that BRL 26830A promotes insulin and glucagon secretion via beta 3 receptors on pancreatic islet B and A cells. In ICR mice fasted for 48 h, BRL 26830A significantly stimulated insulin secretion from 5 min after administration, markedly decreased blood glucose levels from 30 min after administration, and significantly increased glucagon secretion from 30 min after administration. The administration of a non-selective beta-receptor antagonist, at a dose of 50 mg/kg, 30 min prior to BRL 26830A injection completely abolished the effects induced by BRL 26830A. However, the administration of a beta 1-selective antagonist at doses of 50 or 100 mg/kg did not produce any significant effects. On the action of BRL 26830A, whereas the administration of a beta 2-selective antagonist at 50 mg/kg, a near maximal effective dose, partially abolished the effects of BRL 26830A. BRL 26830A had no effect on insulin, glucagon, or glucose levels in streptozocin (STZ) diabetic mice fasted for 48 h. These results suggest that, in mice, BRL 26830A may promote insulin secretion mainly via beta 3 receptors and partially via beta 2 receptors on pancreatic-islet B cells, and that glucagon may be secreted as the result of hypoglycemia induced by this agent.     

Anti-ischemic protection of the brain using water-soluble form of aspirin-acelisin]

The domestic water-soluble aspirin (acelisin) has been used as an anti-ischemic brain protector. The total brain ischemia has been implemented in accordance with an original technique for 17 to 35 min. The doses of acelisin from 25 to 250 mg/kg have been tested during experiments. The infusion of solutions has been carried out before ischemia, 15 min before reperfusion and just after the beginning of reperfusion. The functional status and survival of rats have been evaluated during a week. The best result has been reached with 150 mg/kg acelisin injected 30 min before ischaemia. A positive effect was reported when acelisin was used in early postischaemic period.     

Superoxide Dismutases and Anti-Oxidants Protected Mice from no-Reflow and Necrotic Damage Induced by Ischemia

A simple method in mice was established to screen anti-ischemic compounds. Thirteen times binding of rubber ring (1 × 1 mm, d = 42 mm) for 4.5 hrs, swelled the paws of 60% mice applied and 14 times binding swelled only of 5% mice. Critically reversible limit lay between these conditions. “All or none” rule dominated the paw swelling perhap due to different endogenous anti-oxidants' levels of individual mice. Determination of paw reversibility at 90 min of recirculation, was proved to be suitable. Swollen paws at this time returned normal and the paws with no-reflow dropped out by muscle necrosis after several days. Intravenous (i.v.) bovine Cu, Zn-SOD and bacterial Mn-SOD (3 - 10 × 10⁴ U/kg) or liposomal Cu, Zn-SOD (0.3 - 3 × 10⁴ U/kg) were protective (35-50%) by 14 times binding. Allopurinol (10-100 mg/kg) and D-mannitol (3-30mg/kg) was effective (25-55%). Catalase (i.v., up to 10⁵ U/kg) showed little protection, but local injection of 100 U/kg resulted in 50% protection. Glutathione (30 mg/kg) was suppressive only by local injection suggesting the importance of administration route. Desferal, heparin and nitric oxide synthesis inhibitor showed some protection, but indomethacin, mepyramine, ascorbate, vitamin E and dexamethasone were without effect. Excess dosing of all anti-oxidants tested, dramatically decreased their effects demanding caution for therapeutic trials.     

Superoxide Dismutases and Anti-Oxidants Protected Mice from no-Reflow and Necrotic Damage Induced by Ischemia

A simple method in mice was established to screen anti-ischemic compounds. Thirteen times binding of rubber ring (1 × 1 mm, d = 42 mm) for 4.5 hrs, swelled the paws of 60% mice applied and 14 times binding swelled only of 5% mice. Critically reversible limit lay between these conditions. “All or none” rule dominated the paw swelling perhap due to different endogenous anti-oxidants' levels of individual mice. Determination of paw reversibility at 90 min of recirculation, was proved to be suitable. Swollen paws at this time returned normal and the paws with no-reflow dropped out by muscle necrosis after several days. Intravenous (i.v.) bovine Cu, Zn-SOD and bacterial Mn-SOD (3 - 10 × 10⁴ U/kg) or liposomal Cu, Zn-SOD (0.3 - 3 × 10⁴ U/kg) were protective (35-50%) by 14 times binding. Allopurinol (10-100 mg/kg) and D-mannitol (3-30mg/kg) was effective (25-55%). Catalase (i.v., up to 10⁵ U/kg) showed little protection, but local injection of 100 U/kg resulted in 50% protection. Glutathione (30 mg/kg) was suppressive only by local injection suggesting the importance of administration route. Desferal, heparin and nitric oxide synthesis inhibitor showed some protection, but indomethacin, mepyramine, ascorbate, vitamin E and dexamethasone were without effect. Excess dosing of all anti-oxidants tested, dramatically decreased their effects demanding caution for therapeutic trials.     

Rubiscolin-6, a delta opioid peptide derived from spinach Rubisco, has anxiolytic effect via activating sigma1 and dopamine D1 receptors

Rubiscolin-6 (Tyr-Pro-Leu-Asp-Leu-Phe) is a delta opioid peptide derived from the large subunit of spinach d-ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco). We previously reported that rubiscolin-6 had an analgesic effect and stimulated memory consolidation. Here we show that intraperitoneally (i.p.) or orally administered rubiscolin-6 has an anxiolytic effect at a dose of 10 mg/kg or 100 mg/kg, respectively, in the elevated plus-maze test in mice. The anxiolytic effects of rubscolin-6 after i.p. (10 mg/kg) and oral (100 mg/kg) administration were blocked by a delta opioid receptor antagonist, naltrindole (1 mg/kg, s.c.), suggesting that the anxiolytic activity of rubiscolin-6 is mediated by delta opioid receptor. The anxiolytic effect of rubiscolin-6 (10 mg/kg, i.p.) was also blocked by a dopamine D(1) antagonist, SCH23390 (30 microg/kg, i.p.), but not by a dopamine D(2) antagonist, raclopride (15 microg/kg, i.p.). The anxiolytic effect of rubiscolin-6 (10 mg/kg, i.p.) was blocked by sigma(1) receptor antagonist, BMY14802 (0.5 mg/kg, i.p.) or BD1047 (10 mg/kg, i.p.). Taken together, the anxiolytic effect of rubiscolin-6 is mediated by sigma(1) and dopamine D(1) receptors downstream of delta opioid receptor.     

Identification, biological activity, and mechanism of the anti-ischemic quinolone analog

The quinolone analog SQ-4004 has been identified as a potentially excellent anti-ischemic agent, which exhibited highly potent efficacy in reducing infarct volume size in vivo rat MCAO model (32.1% at 0.01mg/kg) and potent cardioprotective effect at myocardial infarction in vivo model (26.6% at 0.01mg/kg) while it exhibited highly reduced anti-bacterial activity. The mechanistic study revealed that the anti-ischemic activity might exert via an anti-apoptotic pathway, which implies its therapeutic uses against the ischemic cell injuries including ischemic stroke and ischemic heart disease.     

Myocardial protection from ischemic preconditioning is not blocked by sub-chronic inhibition of carnitine palmitoyltransferase I

Ischemic preconditioning (IP) triggers cardioprotection via a signaling pathway that converges on mitochondria. The effects of the inhibition of carnitine palmitoyltransferase I (CPT-I), a key enzyme for transport of long chain fatty acids (LCFA) into the mitochondria, on ischemia/reperfusion (I/R) injury are unknown. Here we investigated, in isolated perfused rat hearts, whether sub-chronic CPT-I inhibition (5 days i.p. injection of 25 mg/kg/day of Etomoxir) affects I/R-induced damages and whether cardioprotection by IP can be induced after this inhibition. Effects of global ischemia (30 min) and reperfusion (120 min) were examined in hearts harvested from Control (untreated), Vehicle- or Etomoxir-treated animals. In subsets of hearts from the three treated groups, IP was induced by three cycles of 3 min ischemia followed by 10 min reperfusion prior to I/R. The extent of I/R injury under each condition was assessed by changes in infarct size as well as in myocardial contractility. Postischemic contractility, as indexed by developed pressure and dP/dt(max), was similarly affected by I/R, and was similarly improved with IP in Control, Vehicle or Etomoxir treated animals. Infarct size was also similar in the three subsets without IP, and was significantly reduced by IP regardless of CPT-I inhibition. We conclude that CPT-I inhibition does not affect I/R damages. Our data also show that IP affords myocardial protection in CPT-I inhibited hearts to a degree similar to untreated animals, suggesting that a long-term treatment with the metabolic anti-ischemic agent Etomoxir does not impede the possibility to afford cardioprotection by ischemic preconditioning.     

Gamma-hydroxybutyrate increases gastric emptying in rats.

The influence of gamma-hydroxybutyrate (GHB; 10, 50 or 100 mg/kg orally) and of its receptor antagonist, NCS-382 (25, 100 or 200 mg/kg orally, and 100 or 200 mg/kg intraperitoneally), on gastric emptying was studied in rats by measuring the serum level of acetaminophen (20 mg/rat orally, 30 min after GHB or NCS-382) 15, 30, 45 and 60 min after acetaminophen administration, or the amount of acetaminophen still present in the stomach 30 min after its administration. The highest dose of GHB produced a significant increase in 15 and 30 min serum levels of acetaminophen, indicating an acceleration of gastric emptying. A similar result was obtained with the prokinetic drug cisapride, at the oral dose of 2 mg/kg. On the other hand, NCS-382 significantly and dose-dependently reduced the serum levels of acetaminophen at every time of blood sampling, indicating a delay of gastric emptying, an effect confirmed by the amount of acetaminophen still present in the stomach 30 min after administration. Moreover, NCS-382 antagonized the prokinetic effect of GHB. These results may suggest for GHB (and/or possibly for its metabolites) a role in rat stomach motility.     

Endothelin-1, -2 and -3 directly and big-endothelin-1 indirectly elicit an abdominal constriction response in mice.

When injected intraperitoneally into mice, endothelins ET-1, ET-2, ET-3 and big-endothelin-1[1-38] (big-ET-1[1-38]) produced a dose-related, robust and easily quantified abdominal constriction response within 20 min. The ED50 values for this response were 0.026, 0.005, 0.131, and 0.043 mg/kg, respectively. Hence, this test could provide a convenient in vivo endpoint for endothelin activity. The results also imply that ET-1, ET-2, ET 3 or big-ET-1[1-38] may be nociceptive under certain conditions. Morphine (4 mg/kg, s.c.) administered 30 min prior completely blocked the response produced by ET-1. Thus, in conjunction with other indicators, the test may also serve as an in vivo screen for agents useful in the treatment of abdominal or visceral pain. The effect of big-ET-1[1-38], but not ET-1, was blocked by pretreatment with the enzyme inhibitor phosphoramidon (10 mg/kg, s.c., 30 min prior), implying that the big-ET-1[1-38] must first be enzymatically cleaved, presumably to ET-1, in order to elicit the abdominal constriction response. This test might also serve as a discriminative antinociceptive screen, because the response to ET-1 was not blocked by acetaminophen (400 mg/kg, p.o.), ibuprofen (75 mg/kg, p.o.) or indomethacin (1.0 mg/kg, p.o.).     

Cromakalim and cicletanine against pacing-induced myocardial ischemia in conscious rabbits

Myocardial ischemia assessed by intracavital ST-segment elevation, shortening of ventricular effective refractory period (VERP), and increase in left ventricular end-diastolic pressure (LVEDP) was provoked by ventricular overdrive pacing (VOP) in conscious rabbits. Cromakalim (10 μg/kg), an ATP-sensitive K⁺ channel opener, and cicletanine (30 mg/kg), a cGMP-phosphodiesterase inhibitor, reduced VOP-induced ST-segment elevation and LVEDP-increase. Under resting conditions, cromakalim lowered blood pressure, increased heart rate (HR), and shortened VERP, whereas cicletanine decreased HR, prolonged VERP without changing blood pressure. Co-administration of cromakalim and cicletanine additively reduced VOP-induced ST-segment elevation, shortening of VERP, and LVEDP-increase. Cicletanine did not change cromakalim-induced hypotension but abolished reflexogenic tachycardia. This suggests that VERP shortening is not a prerequisite for the anti-ischemic effect of cromakalim, and the combination of these drugs may afford a potent and safe anti-ischemic effect without affecting hypotension induced cromakalim.     

Isoflurane with morphine is a suitable anaesthetic regimen for embryo transfer in the production of transgenic rats

During our initial attempts to produce transgenic rats, we found that an anaesthetic combination typically used for embryo transfer (intramuscular injection of ketamine [90 mg/kg] with xylazine [10 mg/kg]) yielded extensive variation in both the depth and length of anaesthesia. In the present prospective study, we compared the reproductive outcomes afforded by using either isoflurane (5% for induction, 2% for maintenance, carried in 2 l/min of oxygen) with morphine (5 mg/kg s.c., given immediately after isoflurane induction) or ketamine/xylazine in adult (250-300 g), pseudopregnant Sprague-Dawley rats. Each animal was anaesthetized with either isoflurane/morphine or ketamine/xylazine, after which 30 microinjected eggs were transferred into the left uterine horn. The mean pregnancy rate for isoflurane/morphine (15%) was 50% greater than that achieved with ketamine/xylazine (10%). The mean number of live pups (just over five per litter) was comparable for both regimens. All rats given isoflurane/morphine quickly achieved a surgical depth of anaesthesia and experienced a rapid postoperative recovery (3-5 min). In contrast, 25% of rats injected with ketamine/xylazine did not reach a depth of anaesthesia within 10 min that was sufficient for laparotomy, and all that were anaesthetized successfully required an extended postoperative recovery period (60-90 min). These data show that isoflurane/morphine is well tolerated by microinjected embryos and suggest that its use during embryo transfer may provide a means for both reducing the number of pseudopregnant females used and increasing the speed with which rat transgenic projects are completed.     

Cysteamine-colon and cysteamine-duodenum lesions in rats. Attenuation by gastric pentadecapeptide BPC 157, cimetidine, ranitidine, atropine, omeprazole, sulphasalazine and methylprednisolone.

Recently, we showed cysteamine-duodenal lesions without gastric acid, since they were induced also in gastrectomized rats, as in naive rats, and they were inhibited by the novel stomach pentadecapeptide BPC 157 as well as standard antiulcer drugs (i.e. cimetidine, ranitidine, omeprazole, bromocriptine, atropine). Therefore, as an advantage of considering cysteamine as a directly acting cytotoxic agent and mentioned agents as direct cytoprotective agents, the present focus was on the ulcerogenic effect of cysteamine and protective effect of gastroduodenal antiulcer agents outside upper gastrointestinal tract (i.e. in colon). Intrarectal administration of the cysteamine (200 or 400 mg/kg b.w) produced severe colon lesions (i.e. transmural inflammation with serosal involvement) in rats (30 min-72 h-experimental period), apparently distinctive from smaller lesions after non-specific irritant enema [diluted HCl solution, pH 3.8 (adjusted to pH of cysteamine solution (pH 3.8)]. All of the tested antiulcer agents were applied simultaneously with cysteamine enema (8 cm from the anus, in a volume of the 1.0 ml/rat) intraperitoneally (i.p.), intragastrically (i.g.) or intrarectally (i.r.). Pentadecapeptide BPC 157 (10 microg or 10 ng/kg b.w.), given in either regimen, previously shown to have, besides others, a particular beneficial activity just in the intestinal mucosa, inhibited these cysteamine colon lesions (assessed after 30 min, 60 min, 180 min, 24 h, 48 h, 72 h following cysteamine in a dose of either 200 or 400 mg/kg i.r.). Cysteamine-colon lesions were also attenuated by standard antiulcer agents (mg/kg b.w.), given i.p., i.g., or i.r., such as ranitidine (10), cimetidine (50), omeprazole (10), atropine (10), together with methylprednisolone (1), and sulphasalazine (50, i.r.), assessed 30 min following application of 200 mg of cysteamine. Finally, standard cysteamine duodenal lesions (assessed 24 h after a subcutaneous application of 400 mg/kg of cysteamine) were also attenuated by these agents application (given in the same doses, i.p., 1 h before cysteamine), with only exception to sulphasalazine. Thus, the extended cysteamine specific ulcerogenic effect, cysteamine colon/duodenum lesion-link and an extenuation of agents protection from upper to lower part of gastrointestinal tract (i.e. stomach pentadecapeptide BPC 157, standard antiulcer agents, cimetidine, ranitidine, atropine, omeprazole) and vice versa (remedies for inflammatory bowel disease) evidenced in the present study may be potentially important for both further experimental and clinical research.     

Chemical preconditioning with 3-nitropropionic acid in hearts: role of mitochondrial K(ATP) channel

We investigated the cardioprotective effect of 3-nitropropionic acid (3-NPA), an inhibitior of mitochondrial succinate dehydrogenase, and we wanted to show whether this protection is mediated by of opening mitochondrial ATP-sensitive potassium (K(ATP)) channels. Adult rabbits were treated with either 3-NPA (3 mg/kg iv) or saline (n = 6 rabbits/group). After 30 min (for early phase) or 24 h (for late phase) of the treatment, the animals were subjected to 30 min of ischemia and 3 h of reperfusion (ischemia-reperfusion). 5-Hydroxydecanoate (5-HD, 5 mg/kg iv),the mitochondrial K(ATP) channel blocker, was administered 10 min before ischemia-reperfusion in the saline- and 3-NPA-treated rabbits. 3-NPA caused a decrease in the infarct size from 27.8 +/- 4.2% in the saline group to 16.5 +/- 1.0% in the 3-NPA-treated rabbits during early phase and from 30.4 +/- 4.2% in the saline group to 17.6 +/- 1.05 in the 3-NPA group during delayed phase (P < 0.05, % of risk area). The anti-infarct effect of 3-NPA was blocked by 5-HD as shown by an increase in infarct size to 33 +/- 2.7% (early phase) and 31 +/- 2.4% (delayed phase) (P < 0.05 vs. 3-NPA groups). 5-HD had no proischemic effect in control animals. Also, 3-NPA had no effect on systemic hemodynamics. We conclude that 3-NPA induces long-lasting anti-ischemic effects via opening of mitochondrial K(ATP) channels.     

Antagonism by N-methyl levallorphan-methane sulphonate (SR 58002 C) of morphine-elicited acute and chronic central and peripheral effects

The peripheral activity of the quaternary narcotic antagonist N-methyl levallorphan-methane sulphonate (SR 58002 C) at opioid sites located in the periphery and in the central nervous system (CNS), was studied by different approaches in rats after subcutaneous injection (s.c.). Pretreatment with SR 58002 C 2,8 or 32 mg/kg s.c. 10, 50 or 110 min before buprenorphine consistently reduced buprenorphine in vivo binding only in the small intestinal longitudinal muscle with attached myenteric plexus (MP), whereas naloxone (1 mg/kg s.c.) 10 min before buprenorphine lowered buprenorphine binding in MP and brain (without cerebellum). Plasma levels were not altered by SR 58002 C or naloxone. The same doses of SR 58002 C injected 10, 50 or 110 min before morphine selectively antagonized the inhibition of transit of a charcoal meal along the small intestine (mainly a peripheral effect) induced by the agonist, but did not antagonize morphine-elicited analgesia in the hot-plate test (central effect). Naloxone (1 mg/kg s.c.) injected 10 min before morphine antagonized both agonist effects simultaneously. In morphine-dependent rats SR 58002 C (0.25, 1, 4 and 32 mg/kg s.c.) induced diarrhea, dose-dependently, in most animals within the first 30 min, while jumping, measured in the same rats, occurred in some animals, not dose-dependently, from 60 min on. Naloxone (1 mg/kg s.c.) induced both effects in most rats. These findings suggest that, although SR 58002 C probably penetrates the blood-brain barrier in some morphine-dependent rats, it discriminates peripheral and CNS opioid effects.