Xenon reduces activation of transient receptor potential vanilloid type 1 (TRPV1) in rat dorsal root ganglion cells and in human TRPV1-expressing HEK293 cells

AimsXenon provides effective analgesia in several pain states at sub-anaesthetic doses. Our aim was to examine whether xenon may mediate its analgesic effect, in part, through reducing the activity of transient receptor potential vanilloid type 1 (TRPV1), a receptor known to be involved in certain inflammatory pain conditions.Main methodsWe studied the effect of xenon on capsaicin-evoked cobalt uptake in rat cultured primary sensory neurons and in human TRPV1 (hTRPV1)-expressing human embryonic kidney 293 (HEK293) cells. We also examined xenon's effect on the phosphorylation of extracellular signal-regulated kinase 1/2 (ERK1/2) in the rat spinal dorsal horn evoked by hind-paw injection of capsaicin.Key findingsXenon (75%) reduced the number of primary sensory neurons responding to the TRPV1 agonist, capsaicin (100 nM–1 μM) by ~ 25% to ~ 50%. Xenon reduced the number of heterologously-expressed hTRPV1 activated by 300 nM capsaicin by ~ 50%. Xenon (80%) reduced by ~ 40% the number of phosporylated ERK1/2-expressing neurons in rat spinal dorsal horn resulting from hind-paw capsaicin injection.SignificanceXenon substantially reduces the activity of TRPV1 in response to noxious stimulation by the specific TRPV1 agonist, capsaicin, suggesting a possible role for xenon as an adjunct analgesic where hTRPV1 is an active contributor to the excitation of primary afferents which initiates the pain sensation.     

Chamavioline—Antiedematous,but not a constituent of Matricaria recutita

The antiphlogistic and spasmolytic effects of Matricaria recutita L. (German chamomile) are due to the combination of constituents, most notably bisaboloids, flavonoids, proazulenes and azulenes. Chamavioline (7-ethyl-4-methyl-azulene-1-carbaldehyde, 1) was thought to be part of the latter group. After the unsuccessful search for chamavioline in chamomile of different provenances, we postulate that it is an artefact. We describe its three-step synthesis from 5-ethyl-2-methyl-pyridine. Chamavioline inhibited cyclooxygenase-2 (57% at 1 μM). The effect could not be increased by higher concentrations. It did not inhibit cyclooxygenase-1 up to a concentration of 10 μM. After topical application, it reduced the TPA-induced mouse ear edema statistically significantly 6 h after the induction of the edema by 23 and 30% in concentrations of 0.1 and 1.0 μmol/ear. The related azulenes chamazulene carboxylic acid (3), a constituent of chamomile, and the synthetic 4- and 6-azulene acetic acids inhibited the edema by 32, 41 and 46% at 1 μmol/ear. The appropriate time for the application of test compounds in this animal model was determined in exploratory experiments with 3.     

Desflurane but not sevoflurane augments laryngeal C-fiber inputs to nucleus tractus solitarii neurons by activating transient receptor potential-A1

AimsVolatile anesthetics have distinct odors and some are irritating to the upper airway and may cause cough and laryngospasm, which may result, in part, from stimulation of C-fiber reflex. Local exposure of such anesthetics increases the sensitivity of capsaicin-sensitive laryngeal C-fiber endings compatible with airway irritability presumably by activation of transient receptor potential (TRP) ion channels, but the physiological relevance of this sensitization transmitted to the higher-order neurons in the central reflex pathway and output is unknown.Main methodsIn anesthetized young guinea pigs, baseline and left atrial capsaicin evoked changes in the extracellular unit activity of laryngeal C-fiber-activated neurons in the nucleus tractus solitarii (NTS) and phrenic nerve activity were compared between irritant (desflurane) and non-irritant (sevoflurane) anesthetic gas exposure to the isolated larynx.Key findingsDesflurane significantly augmented the peak and duration (p < 0.01) of the NTS neuronal responses and the prolongation of expiratory time (p = 0.017). The effect was enhanced by iontophoretic application of the TRPA1 agonist allyl-isothiocyanate (p < 0.05), inhibited by TRPA1 antagonist HC-030031 (p < 0.01), but not by TRPV1 antagonist BCTC. Sevoflurane did not affect the central pathway.SignificanceThus, the sensitization of the laryngeal C-fiber endings by irritant volatile anesthetics is transmitted to the NTS via activation of the TRPA1 and is associated with a prolonged reflexively evoked expiratory apnea. The findings may help to explain local deleterious effects of irritant volatile general anesthetics on the airways during inhaled induction or bronchodilator therapy for status asthmatics.     

Inhibition by capsaicin and its related vanilloids of compound action potentials in frog sciatic nerves

AimsAlthough capsaicin not only activates transient receptor potential vanilloid-1 (TRPV1) channels but also inhibits nerve conduction, the latter action has not yet been fully examined. The purpose of the present study was to know whether various vanilloids have an inhibitory action similar to that of capsaicin and further to compare their actions with that of local anesthetic procaine.Main methodsFast-conducting compound action potentials (CAPs) were recorded from frog sciatic nerve fibers by using the air-gap method.Key findingsCapsaicin reversibly and concentration-dependently reduced the peak amplitude of the CAP. TRPV1 antagonist capsazepine did not affect the capsaicin activity, and powerful TRPV1 agonist resiniferatoxin had no effect on CAPs, indicating no involvement of TRPV1 channels. Capsaicin analogs and other various vanilloids also inhibited CAPs in a concentration-dependent manner. An efficacy sequence of these inhibitions was capsaicin = dihydrocapsaicin > capsiate > eugenol > guaiacol ≥ zingerone ≥ vanillin > vanillylamine. Vanillic acid had almost no effect on CAPs; olvanil and curcumin appeared to be effective less than capsaicin. Capsaicin and eugenol were, respectively, ten- and two-fold effective more than procaine in CAP inhibition, while each of guaiacol, zingerone and vanillin was five-fold effective less than procaine.SignificanceVarious vanilloids exhibit CAP inhibition, the extent of which is determined by the property of the side chain bound to the vanillyl group, and some of them are more effective than procaine. These results may serve to unveil molecular mechanisms for capsaicin-induced conduction block and to develop antinociceptive drugs related to capsaicin.     

The characteristics of therapeutic effect of pinocembrin in transient global brain ischemia/reperfusion rats

AimsThe therapeutic effect of pinocembrin, together with the therapeutic time window, in the transient global cerebral ischemia/reperfusion (I/R) rats was investigated.Main methodsAdult male Sprague–Dawley rats were subjected to global cerebral ischemia for 20 min by four-vessel occlusion. Pinocembrin (1 and 5 mg/kg) was administrated intravenously 30 min before ischemia and 30 min, 2 h, 6 h after reperfusion, respectively. Neurological scores, brain edema and histological examination by Nissl staining were employed to assess the neuronal injury after ischemia and the neuroprotection by pinocembrin. The activities of superoxide dismutase (SOD), myeloperoxidase (MPO) and the content of malondialdehyde (MDA) in brain tissue were tested by colorimetric assays. Alterations of neurotransmitters were determined by a high performance liquid chromatography–electrochemical method.Key findingsPinocembrin significantly ameliorated neurological deficits and brain edema, and alleviated the degree of hippocampal neuronal loss at 24 h after global cerebral I/R with a broad therapeutic time window. It was found that treatment with pinocembrin reduced the compensatory increase of SOD activity and decreased the MDA level and MPO activity in a dose-dependent manner. The metabolic balance between excitatory and inhibitory amino acids was modulated by pinocembrin treatment.SignificanceThese findings suggest that pinocembrin provides neuroprotection against global cerebral ischemic injury with a wide therapeutic time window, which may be attributed to its antioxidative, antiinflammatory and antiexcitotoxic effects.     

Selective stimulation by cinnamaldehyde of progesterone secretion in human adrenal cells

AimsCinnamon bark has been used to treat menstrual pain and infertility. While several pharmacological studies have suggested anti-inflammatory properties, the mechanisms by which the herb exerts its various activities have not been well understood. Recent reports suggest menstrual distress is related to higher estradiol levels, higher estradiol/progesterone ratios. Cinnamaldehyde, a major active constituent of Cinnamomum cassia has been shown to stimulate cathecholamine release from adrenal glands. The objective of the present study is to examine whether cinnamaldehyde stimulates secretion of progesterone and other steroid hormones in human adrenal cells.Main methodsHuman adrenal cells, H295R were exposed for 24 h in a serum-free medium to various concentrations of cinnamaldehyde. Steroid hormones in the cultured medium were measured by a highly sensitive LC-electrospray ionization-tandem mass spectrometry.Key findingsExposure to cinnamaldehyde increased progesterone release in a dose-dependent manner. Testosterone and dehydroepiandrosterone concentrations decreased in the presence of cinnamaldehyde. The release of cortisol or estradiol was not affected by treatment with cinnamaldehyde. cAMP in the cultured medium was increased from 0.06 ± 0.0007 pmol/ml to 0.12 ± 0.0028 pmol/ml by exposure to cinnamaldehyde. The addition of isobutylmehtylxanthine, a phosphodiesterase inhibitor, caused a doubling of the amount of cAMP up to 0.397 ± 0.036 pmol/ml in the presence of cinnamaldehyde.SignificanceThese data suggest that cinnamaldehyde selectively induced progesterone production and inhibited production of testosterone and dehydroepiandrosterone in human adrenal cells.     

(−)-Menthylamine derivatives as potent and selective antagonists of transient receptor potential melastatin type-8 (TRPM8) channels

A series of twenty-two (?)-menthylamine derivatives was synthesized and tested on TRPM8, TRPV1, and TRPA1 channels. Five of the novel compounds, that is, 1d, 1f, 2b, 2c, and 2e behaved as potent TRPM8 antagonists with IC₅₀ values versus icilin and (?)-menthol between 20 nM and 0.7 μM, and were between 4- and ～150-fold selective versus TRPV1 and TRPA1 activation. Compound 1d also induced caspase 3/7 release in TRPM8-expressing LNCaP prostate carcinoma cells, but not in non-TRPM8 expressing DU-145 cells. Five other derivatives, that is, 1a, 1g, 1h, 2f, and 2h were slightly less potent than previous compounds but still relatively selective versus TRPV1 and TRPA1.     

Vascular metabolism of anandamide to arachidonic acid affects myogenic constriction in response to intraluminal pressure elevation

AimsWe hypothesized that arachidonic acid produced by anandamide breakdown contributes to the vascular effects of anandamide.Main methodsIsolated, pressurized rat skeletal muscle arteries, which possess spontaneous myogenic tone, were treated with anandamide, arachidonic acid, capsaicin (vanilloid receptor agonist), WIN 55-212-2 (cannabinoid receptor agonist), URB-597 (FAAH inhibitor), baicalein (lipoxygenase inhibitor), PPOH (cytochrome P450 inhibitor), and indomethacin (cyclooxygenase inhibitor). Changes in the arteriolar diameter in response to the various treatments were measured. To assess the effect of anandamide metabolism, anandamide was applied for 20 min followed by washout for 40 min. This protocol was used to eliminate other, more direct effects of anandamide in order to reveal how anandamide metabolism may influence vasodilation.Key findingsAnandamide at a low dose (1 μM) evoked a loss of myogenic tone, while a high dose (30 μM) not only attenuated the myogenic response but also evoked acute dilation. Both of these effects were inhibited by the FAAH inhibitor URB-597 and were mimicked by arachidonic acid. The CB1 and CB2 agonist R-WIN 55-212-2 and the vanilloid receptor agonist capsaicin were without effect on the myogenic response. The inhibition of the myogenic response by anandamide was blocked by indomethacin and PPOH, but not by baicalein or removal of the endothelium. FAAH expression in the smooth muscle cells of the blood vessels was confirmed by immunohistochemistry.SignificanceAnandamide activates the arachidonic acid pathway in the microvasculature, affecting vascular autoregulation (myogenic response) and local perfusion.     

Involvement of dorsal hippocampal muscarinic cholinergic receptors on muscimol state-dependent memory of passive avoidance in mice

AimsIn the present study, the effects of bilateral intra-dorsal hippocampal (intra-CA1) injections of cholinergic agents on muscimol state-dependent memory were examined in mice.Main methodsA single-trial step-down passive avoidance task was used for the assessment of memory retention in adult male NMRI mice.Key findingsPre-training intra-CA1 administration of a GABA-A receptor agonist, muscimol (0.05 and 0.1 μg/mouse) dose dependently induced impairment of memory retention. Pre-test injection of muscimol (0.05 and 0.1 μg/mouse, intra-CA1) induced state-dependent retrieval of the memory acquired under pre-training muscimol (0.1 μg/mouse, intra-CA1) influence. Pre-test intra-CA1 injection of an acetylcholinesterase inhibitor, physostigmine (0.5 and 1 μg/mouse, intra-CA1) reversed the memory impairment induced by pre-training administration of muscimol (0.1 μg/mouse, intra-CA1). Moreover, pre-test administration of physostigmine (0.5 and 1 μg/mouse, intra-CA1) with an ineffective dose of muscimol (0.025 μg/mouse, intra-CA1) significantly restored the retrieval and induced muscimol state-dependent memory. Pre-test intra-CA1 administration of physostigmine (0.25, 0.5 and 1 μg/mouse) by itself cannot affect memory retention. Pre-test intra-CA1 injection of the muscarinic receptor antagonist, atropine (1 and 2 μg/mouse) 5 min before the administration of muscimol (0.1 μg/mouse, intra-CA1) dose dependently inhibited muscimol state-dependent memory. Pre-test intra-CA1 administration of atropine (0.5, 1 and 2 μg/mouse) by itself cannot affect memory retention.SignificanceThe results suggest that muscarinic cholinergic mechanism of the CA1 may influence muscimol state-dependent memory.     

Up-regulation of TRPV1 in mononuclear cells of end-stage kidney disease patients increases susceptibility to N-arachidonoyl-dopamine (NADA)-induced cell death

Transient receptor potential vanilloid (TRPV) 1 channels function as sensors for a variety of noxious and inflammatory signals, including capsaicin, heat and protons, and are up-regulated under inflammatory conditions. As end-stage kidney disease (ESKD) is associated with chronic inflammation, impaired immunity and depressed lymphocyte numbers, we sought to determine whether altered TRPV1 (and related TRPV2) expression in immune cells might be a contributing factor. TRPV1 and TRPV2 mRNA expression in peripheral blood mononuclear cells (PBMC) was similar in controls and ESKD patients by quantitative real-time RT-PCR. However, using immunocytochemistry, TRPV1-immunoreactivity was significantly higher and TRPV2-immunoreactivity was significantly lower in PBMC from ESKD patients compared to controls. The plant-derived TRPV1 agonists, capsaicin and resiniferatoxin (RTX) and the putative endovanilloid/endocannabinoids, N-arachidonoyl-dopamine (NADA) and N-oleoyl-dopamine (OLDA), induced concentration-dependent death of PBMC from healthy donors with a rank order of potency of RTX > NADA > OLDA >> capsaicin. TRPV1 (5′-iodoresiniferatoxin) and cannabinoid (CB₂; AM630) receptor antagonists blocked the cytotoxic effect of NADA. In subsequent experiments, PBMC from ESKD patients exhibited significantly increased susceptibility to NADA-induced death compared to PBMC from controls. The apparent up-regulation of TRPV1 may be a response to the inflammatory milieu in which PBMC exist in ESKD and may be responsible for the increased susceptibility of these cells to NADA-induced death, providing a possible explanation as to why ESKD patients have reduced lymphocyte counts and impaired immune function. Thus, TRPV1 (and possibly CB₂) antagonists may have potential for the treatment of immune dysfunction in ESKD.     

Involvement of NO-guanylyl cyclase pathway for the depression of spinal monosynaptic reflex by Mesobuthus tamulus venom in neonatal rat in vitro

AimsThe present study was undertaken to evaluate the role of nitric oxide (NO) in Mesobuthus tamulus (MBT) venom-induced depression of spinal reflexes.Main methodsExperiments were performed on isolated hemisected spinal cords from 4 to 6 day old rats. Stimulation of a dorsal root with supramaximal strength evoked monosynaptic (MSR) and polysynaptic reflex (PSR) potentials in the corresponding segmental ventral root.Key findingsSuperfusion of MBT venom (0.3 μg/ml) depressed the spinal reflexes in a time-dependent manner and the maximum depression was seen at 10 min (MSR by 63%; PSR by 79%). The time to produce 50% depression (T-50) of MSR and PSR was 7.7 ± 1.3 and 5.7 ± 0.5 min, respectively. Pretreatment with bicuculline (1 μM; GABA_A receptor antagonist) or strychnine (1 μM; glycine_A receptor antagonist) did not block the venom-induced depression of spinal reflexes. However, Nω-nitro-L-arginine methyl ester (L-NAME, 100 or 300 μM; NO synthase inhibitor) or hemoglobin (Hb, 100 μM; NO scavenger) antagonized the venom-induced depression of MSR. Further, soluble guanylyl cylase inhibitors (1 H-[1,2,4]Oxadiazolo[4,3-a]quinoxalin-1-one, ODQ; 1 μM or methylene blue, 100 μM) also antagonized the venom-induced depression of MSR but not PSR. Nitrite concentration (indicator of NO activity) of the cords exposed to venom (0.3 μg/ml) was not different from the control group.SignificanceThe results indicate that venom-induced depression of MSR is mediated via NO-guanylyl cyclase pathway without involving GABAergic or glycinergic system.     

Effect of acyclic monoterpene alcohols and their derivatives on TRP channels

A series of thirty-six geraniol, nerol, citronellol, geranylamine, and nerylamine derivatives was synthesized and tested on TRPA1, TRPM8, and TRPV1 channels. Most of them acted as strong modulators of TRPA1 channels with EC₅₀ and/or IC₅₀ values <1 μM. None was able to significantly activate TRPM8 channels, while thirteen of them behaved as ‘true’ TRPM8 antagonists. Little or no effect was generally observed on TRPV1 channels. Some of the compounds examined, that is, compounds 1d,g,n, 2c,d,h,i,o, 3b,e exhibited an appreciable selectivity for TRPA1 subtype.     

Resveratrol in combination with other dietary polyphenols concomitantly enhances antiproliferation and UGT1A1 induction in Caco-2 cells

AimsThe only FDA approved medication for colorectal cancer (CRC) prevention is celecoxib. Its adverse effects underline the need for safer drugs. Polyphenols like resveratrol are in clinical trials for this purpose. This study aimed at examining effects of resveratrol alone and in combination with curcumin or chrysin on UGT induction in Caco-2 cells. Phytochemical combinations were selected using drug combination analyses of various anti-proliferation ratios of resveratrol + curcumin and resveratrol + chrysin.Main methodsCell proliferation and UGT1A1 induction assays were carried out with individual polyphenols and combinations. Cell viability was determined with AlamarBlue assays. UGT1A1 mRNA was quantified via real time RT-PCR. UGT activity was determined with 4-methylumbelliferone (4MU) glucuronidation.Key findingsCell proliferation IC₅₀ estimates (± SE) for resveratrol, curcumin and chrysin were 20.8 ± 1.2, 20.1 ± 1.1 and 16.3 ± 1.3 μM respectively. Combination of anti-proliferative effects showed additivity for resveratrol + chrysin and resveratrol + curcumin. Resveratrol at its IC₅₀ mediated a four-fold induction of UGT1A1 mRNA in a concentration independent manner. Chrysin at its IC₅₀ induced UGT1A1 expression seven-fold while Curcumin at its IC₉₀ mediated a two-fold induction. The 20 μM:40 μM resveratrol + curcumin and 20 μM :32 μM resveratrol + chrysin combinations mediated the greatest increases in mRNA expression (12 and 22 folds respectively). Significant increase in 4-MU glucuronidation was observed with combinations exhibiting maximal mRNA induction.SignificancePhytochemical combinations can offer greater chemoprevention than single agents. These chemicals might offer safer options than present synthetic therapeutics for CRC prevention.     

μ1- and 5-HT1-dependent mechanisms in the anterior pretectal nucleus mediate the antinociceptive effects of retrosplenial cortex stimulation in rats

AimThis study examines if injection of cobalt chloride (CoCl₂) or antagonists of muscarinic cholinergic (atropine), μ₁-opioid (naloxonazine) or 5-HT₁ serotonergic (methiothepin) receptors into the dorsal or ventral portions of the anterior pretectal nucleus (APtN) alters the antinociceptive effects of stimulating the retrosplenial cortex (RSC) in rats.Main methodChanges in the nociceptive threshold were evaluated using the tail flick or incision pain tests in rats that were electrically stimulated at the RSC after the injection of saline, CoCl₂ (1 mM, 0.10 μL) or antagonists into the dorsal or ventral APtN.Key findingsThe injection of CoCl₂, naloxonazine (5 μg/0.10 μL) or methiothepin (3 μg/0.10 μL) into the dorsal APtN reduced the stimulation-produced antinociception from the RSC in the rat tail flick test. Reduction of incision pain was observed following stimulation of the RSC after the injection of the same substances into the ventral APtN. The injection of atropine (10 ng/0.10 μL) or ketanserine (5 μg/0.10 μL) into the dorsal or ventral APtN was ineffective against the antinociception resulting from RSC stimulation.Significanceμ₁-opioid- and 5-HT₁-expressing neurons and cell processes in dorsal and ventral APtN are both implicated in the mediation of stimulation-produced antinociception from the RSC in the rat tail flick and incision pain tests, respectively.     

Activation of protein kinase B/Akt by alpha1-adrenoceptors in the human prostate

AimsBesides their role in contraction, α1-adrenoceptors may be involved in prostate hyperplasia. This would require receptor signaling by growth-promoting pathways. Akt (syn. Protein kinase B) is an important regulator of growth and differentiation. Objective: To investigate whether α1-adrenoceptors in the human prostate activate Akt.Main methodsProstate tissue was obtained from patients undergoing radical prostatectomy. Akt expression was investigated by RT-PCR, Western blot, and immunohistochemistry. Akt activation by noradrenaline (30 μM) and phenylephrine (10 μM) was assessed by Western blot analyses with a phospho-specific antibody. The effects of the Akt inhibitors FPA-124 and 10-DEBC on phenylephrine-, noradrenaline- and electric field stimulation- (EFS-) induced contraction were studied in myographic measurements.Key findingsmRNA of all three Akt isoforms (Akt1, Akt2, Akt3) was detected by RT-PCR in all prostate samples (n = 6 patients). Protein expression was confirmed by Western blot analysis (n = 8 patients). Immunohistochemical staining for Akt revealed strong immunoreactivity in prostate smooth muscle cells (n = 5 patients). Stimulation of prostate tissues with noradrenaline (30 μM, n = 8 patients) or phenylephrine (10 μM, n = 7 patients) caused significant Akt phosphorylation at serine-473, indicating activation of Akt. FPA124 and 10-DEBC were without effects on noradrenaline-, phenylephrine-, or EFS-induced contraction of prostate strips.SignificanceProstate α1-adrenoceptors activate Akt. Consequently, Akt is a target of α1-blocker therapy, which has been unknown to date. Our findings point to functions of prostate α1-adrenoceptors besides contraction.     

Intraperitoneal kisspeptin-10 administration induces dose-dependent degenerative changes in maturing rat testes

AimsKisspeptin, a peptide secreted by hypothalamic neurons, is a critical regulator of reproduction and puberty but its role in the regulation of gonadal maturation in sexually immature males is elusive. The present study investigated the effects of 12 days of pulsatile kisspeptin administration on gonadotropins and testosterone release and maturation of immature male gonads.Main methodsKisspeptin-10 was administered intraperitoneally at different dosage concentrations (1 μg, 1 ng, and 10 pg) to 5 weeks old prepubertal male rats, twice daily for 12 days. Plasma LH, FSH and testosterone concentrations were measured through competitive-binding radioimmunoassay. Spermatogenesis was studied mainly at stage VII of the spermatogenic cycle through light and electron microscopy.Key findingsAt the end of the treatments plasma LH and testosterone concentrations were reduced significantly at 1 ng and 1 μg kisspeptin doses (P < 0.05; P < 0.01). Type A spermatogonia, preleptotene spermatocytes, pachytene spermatocytes, step 7 spermatids, elongated spermatids and daily sperm production decreased significantly (P < 0.05). Sertoli cell efficiency and total support capacity of Sertoli cells were reduced at all doses (P < 0.05). Meiotic index decreased (P < 0.05) at 1 μg dose only, whereas coefficient of mitosis increased at 1 ng and 1 μg (P < 0.01) kisspeptin doses. Histologically, degeneration of seminiferous tubules was evident showing tubular necrosis, multinucleated giant cell formation, intratubular vacuolization, widened lumen and deshaped germ cells. Marked ultrastructural changes characterized by thin basal laminae, enlarged intratubular spaces, abnormal acrosome and disrupted germ cells were noticeable.SignificanceIn conclusion long-term kisspeptin-10 administration negatively regulates gonadal maturation in prepubertal testes.     

The increase in rat ventricular automaticity induced by salbutamol is mediated through β(1)- but not β(2)-adrenoceptors: role of phosphodiesterases

AimsWhile β₂-adrenoceptor (AR) agonists are useful bronchodilators, they also produce cardiac arrhythmias. These agents are not fully selective and also activate β₁-AR, but the involvement of β₁-AR and β₂-AR in the observed pro-arrhythmic effect has not been established. We studied the effect of β₁-AR and β₂-AR activation on ventricular automaticity and the role of phosphodiesterases (PDE) in regulating this effect.Main methodsExperiments were performed in the spontaneously beating isolated right ventricle of the rat heart. We also measured cAMP production in this tissue.Key findingsThe β₂-AR agonist salbutamol (1-100 μM) produced a concentration-dependent increase in ventricular automaticity that was not affected by 50 nM of the β₂-AR antagonist ICI 118551. This effect was enhanced by the non-selective PDE inhibitor theophylline (100 μM) and by the selective PDE4 inhibitors rolipram (1 μM) and Ro 201724 (2 μM), but not modified by the selective PDE3 inhibitors cilostamide (0.3 μM) or milrinone (0.2 μM). The effects of salbutamol alone and in the presence of either theophylline or rolipram were virtually abolished by 0.1 μM β₁-AR antagonist CGP20712A. Salbutamol (10 μM) increased the cAMP concentration, and this effect was abolished by CGP 20712A (0.1 μM) but enhanced by theophylline (100 μM) or rolipram (1 μM). Cilostamide (0.3 μM) failed to modify the effect of salbutamol on cAMP concentration.SignificanceThese results indicate that the increase of ventricular automaticity elicited by salbutamol was exclusively mediated through β₁-AR and enhanced by non-selective PDE inhibition with theophylline or selective PDE4 inhibition. However, PDE3 did not appear to regulate this effect.     

Propofol decreases the axonal excitability in rat primary sensory afferents

AimsThe aim of this present study was to investigate the changes of peripheral sensory nerve excitability produced by propofol.Main methodsIn a recently described in vitro model of rodent saphenous nerve we used the technique of threshold tracking (QTRAC®) to measure changes of axonal nerve excitability of Aβ-fibres caused by propofol. Concentrations of 10 μMol, 100 μMol and 1000 μMol were tested. Latency, peak response, strength-duration time constant (τSD) and recovery cycle of the sensory neuronal action potential (SNAP) were recorded.Key findingsOur results have shown that propofol decreases nerve excitability of rat primary sensory afferents in vitro. Latency increased with increasing concentrations (0 μMol: 0.96 ± 0.07 ms; 1000 μMol 1.10 ± 0.06 ms, P < 0.01). Also, propofol prolonged the relative refractory period (0 μMol: 1.79 ± 1.13 ms; 100 μMol: 2.53 ± 1.38 ms, P < 0.01), and reduced superexcitability (0 μMol: ? 14.0 ± 4.0%; 100 μMol: ? 9.5 ± 5.5%) and subexcitability (0 μMol: 7.5 ± 1.2%; 1000 μMol: 3.6 ± 1.2) significantly during the recovery cycle (P < 0.01).SignificanceOur results have shown that propofol decreases nerve excitability of primary sensory afferents. The technique of threshold tracking revealed that axonal voltage-gated ion channels are significantly affected by propofol and therefore might be at least partially responsible for earlier described analgesic effects.     

Arsenate V induced glutathione efflux from human erythrocytes

ObjectiveThe objective of the present study was to investigate if arsenate V exposure results in glutathione efflux from human erythrocytes.ProcedureThe changes in intracellular and extracellular nonprotein sulfhydryl and glutathione levels were determined in arsenate (V) exposed erythrocytes. Presence of any cellular membrane damage was assessed by lactate dehydrogenase activity measurement in the supernatant.ResultsWhen erythrocytes were exposed to 10 mM of arsenate (V) for 4 h, the intracellular NPSH level decreased to 0.28 ± 0025 μmol/ml erythrocyte. In contrast, extracellular nonprotein thiol level was increased to 0.180 ± 0.010 μmol/ml erythrocyte in 4 h. Extracellular glutathione levels reached to 0.028 ± 0.001, 0.052 ± 0.002, and 0.054 ± 0.004 μmol/ml erythrocyte with 1, 5, and 10 mM of arsenate (V), respectively. Utilization of MK571 a multi drug resistance-associated protein 1 inhibitor decreased the rate of glutathione efflux from erythrocytes suggesting a role for this membrane transporter in the process.ConclusionThe results of the present study indicate that erythrocytes efflux glutathione when exposed to arsenate (V).     

The putative somatostatin antagonist cyclo-somatostatin has opioid agonist effects in gastrointestinal preparations

AimsSpecificity of receptor antagonists used is crucial for clarifying physiological/pathophysiological roles of the respective endogenous agonist. We studied the effects (somatostatin antagonist and possibly other actions) of cyclo-somatostatin (CSST), a putative somatostatin receptor antagonist on the guinea-pig small intestine, a preparation where somatostatin causes inhibition of nerve-mediated contractions.Main methodsIn isolated organ experiments, half-maximal cholinergic “twitch” contractions of the guinea-pig small intestine were evoked or tonic contractions of the rat stomach fundus strip (in the presence of physostigmine) were elicited by electrical field stimulation. The effects of somatostatin (somatostatin-14), CSST, naloxone, as well as of direct smooth muscle stimulants were examined.Key findingsSomatostatin (10 nM–1 μM) caused transient inhibition of the twitch contraction, in a naloxone-insensitive manner. Surprisingly, CSST (0.3–1 μM) also inhibited twitch contractions (more than 50% reduction at 1 μM). This effect was prevented by the opioid receptor antagonist naloxone. Responses to acetylcholine or histamine were not or only minimally inhibited by CSST (up to 3 μM). CSST (0.3 μM in the absence or 1–10 μM in the presence of naloxone) failed to inhibit the effect of somatostatin. The SST₂ receptor antagonist CYN-154806 (3 μM) attenuated the effect of somatostatin and failed to evoke naloxone-sensitive inhibition of the twitch response. The naloxone-sensitive inhibitory effect of CSST on cholinergic contractions was also confirmed in the rat stomach fundus preparation.SignificanceCyclo-somatostatin exerts opioid agonist activity in the two preparations tested, while it does not behave as a somatostatin-receptor antagonist in the guinea-pig intestine.