SEARCH

SEARCH BY CITATION

References

  • ABDEL SALAM, O.M., SZOLCSANYI, J., PORSZASZ, R. & MOZSIK, G. (1996). Effect of capsaicin and resiniferatoxin on gastrointestinal blood flow in rats. Eur. J. Pharmacol., 305, 127136.
  • ACS, G., BIRO, T., ACS, P., MODARRES, S. & BLUMBERG, P.M. (1997). Differential activation and desensitization of sensory neurons by resiniferatoxin. J. Neurosci., 17, 56225628.
  • ALLESCER, H.-D., SATTLER, D., PILLER, C., SCHUSDZIARRA, V. & CLASSEN, M. (1992). Ascending neural pathways in the rat ileum in vitro: effect of capsaicin and involvement of nitric oxide. Eur. J. Pharmacol., 217, 153162.
  • BARRACHINA, M.D., MARTINEZ, V., WANG, L., WEI, J.Y. & TACHE', Y. (1997). Synergistic interaction between leptin and cholecystokinin to reduce short-term food intake in lean mice. Proc. Natl. Acad. Sci. U.S.A., 94, 1045510460.
  • BARTHO', L. & HOLZER, P. (1995). The inhibitory modulation of guinea-pig intestinal peristalsis caused by capsaicin involves calcitonin gene-related peptide and nitric oxide. Naunyn-Schmiedeberg's Arch. Pharmacol., 353, 102109.
  • BARTHO', L. & LAZAR, Z., LENARD JR. L., BENKÒ, R., TOTH, G., PENKE, B., SZOLCSANYI, J. & MAGGI, C.A. (2000). Evidence for the involvement of ATP, but not of VIP/PACAP or nitric oxide, in the excitatory effect of capsaicin in the small intestine. Eur. J. Pharmacol., 392, 183188.
  • BEVAN, S., HOTHI, S., HUGHES, G., JAMES, I.F., RANG, H.P., SHAH, K., WALPOLE, C.S. & YEATS, J.C. (1992). Capsazepine: a competitive antagonist of the sensory neurone excitant capsaicin. Br. J. Pharmacol., 107, 544552.
  • BURKS, T.S. (1994). Neurotransmission and neurotransmitters. In Physiology of the Gastrointestinal Tract. ed. Johnson, L.R. pp. 211242. New York, Raven Press.
  • CALIGNANO, A., LA RANA, G., MAKRIAYANNIS, A., LIN, S.Y., BELTRAMO, M. & PIOMELLI, D. (1997). Inhibition of intestinal motility by anandamide, an endogenous cannabinoid. Eur. J. Pharmacol., 340, R7R8.
  • CATERINA, M.J., SCHUMACHER, M.A., TOMINAGA, M., ROSEN, T.A., LEVEIN, J.D. & JULIUS, D. (1997). The capsaicin receptor: a heat-activated ion channel in the pain pathway. Nature, 389, 816824.
  • CHANG, F.Y., CHEN, C.Y., CHEN, T.S., LEE, S.D., DOONG, M.L. & WANG, P.S. (1999). Variation of capsaicin-sensitive motor activities along the rat gastrointestinal tract. Chin. J. Physiol., 31, 4145.
  • DEVANE, W.A., HANUS, L., BREUER, A., PERTWEE, R.G., STEVENSON, L.A., GRIFFIN, G., GIBSON, D., MANDELBAUM, A., ETINGER, A. & MECHOULAM, R. (1992). Isolation and structure of a brain constituent that binds to the cannabinoid receptor. Science, 277, 119131.
  • DE WINTER, B.Y., BOECKXSTAENS, G.E., DE MAN, J.G., MOREELS, T.G., HERMAN, A.G. & PELCKMANS, P.A. (1997). Effect of adrenergic and nitrergic blockade on experimental ileus in rats. Br. J. Pharmacol., 120, 464468.
  • DOCKRAY, G.J. (1994). Physiology of enteric neuropeptides. In Physiology of the Gastrointestinal Tract. ed. Johnson, L.R. pp. 169210. New York, Raven Press.
  • FRIDE, E. (1995). Anandamides: tolerance and cross-tolerance to delta-9-tetrahydrocannabinol. Brain Res., 697, 8390.
  • GOYAL, R.K. & HIRANO, I. (1996). The enteric nervous system. N. Eng. J. Med., 334, 11061115.
  • HEINEMANN, A., SHAHBAZIAN, A. & HOLZER, P. (1999). Cannabinoid inhibition of guinea-pig intestinal peristalsis via inhibition of excitatory and activation of inhibitory neural pathways. Neuropharmacology, 38, 12891297.
  • HELLIWELL, R.J.A., MCLATCHIE, L.M., CLARKE, M., WINTER, J., BEVAN, S. & MCINTYRE, P. (1998). Capsaicin sensitivity is associated with the expression of the vanilloid (capsaicin) receptor (VR1) mRNA in adult rat sensory ganglia. Neurosci. Lett., 250, 177180.
  • HOLZER, P. (1986). Capsaicin-sensitive afferent neurones and gastrointestinal propulsion in the rat. Naunyn-Schmiedebergs Arch. Pharmacol., 332, 6265.
  • HOLZER, P. (1991). Capsaicin: cellular targets, mechanism of action, and selectivity of thin sensory neurons. Pharmacol. Rev., 43, 143201.
  • HOLZER, P., LIVINGSTON, E.H., SARIA, A. & GUTH, P.H. (1991). Sensory neurons mediate protective vasodilatation in rat gastric mucosa. Am. J. Physiol., 260, G363G370.
  • HOLZER, P., PABST, M.A., LIPPIE, I.T., PESKAR, B.M., PESKAR, B.A., LIVINGSTON, E.H. & GUTH, P.H. (1990). Afferent nerve-mediated protection against deep mucosal damage in the rat stomach. Gastroenterology, 98, 839849.
  • HOLZER, P., SCHLUET, W., LIPPE, I.T. & SAMETZ, W. (1987). Involvement of capsaicin-sensitive sensory neurons in gastrointestinal function. Acta Physiol. Hung., 69, 403411.
  • HOLZER-PETSCHE, U., SEITZ, H. & LEMBECK, F. (1989). Effect of capsaicin on gastric corpus smooth muscle of the rat in vitro. Eur. J. Pharmacol., 162, 2936.
  • IZZO, A.A., GAGINELLA, T.S., MASCOLO, N. & CAPASSO, F. (1994). Nitric oxide as a mediator of the laxative action of magnesium sulphate. Br. J. Pharmacol., 113, 228232.
  • IZZO, A.A., MASCOLO, N., BORRELLI, F. & CAPASSO, F. (1998). Excitatory transmission to the circular muscle of the guinea-pig ileum: evidence for the involvement of cannabinoid CB1 receptor. Br. J. Pharmacol., 124, 13631368.
  • IZZO, A.A., MASCOLO, N., BORRELLI, F. & CAPASSO, F. (1999). Defaecation, intestinal fluid accumulation and motility in rodents: implications of cannabinoid CB1 receptors. Naunyn-Schmiedeberg's Arch., Pharmacol., 359, 6570.
  • IZZO, A.A., MASCOLO, N., TONINI, M. & CAPASSO, F. (2000a). Modulation of peristalsis by cannabinoid CB1 ligands in the isolated guinea-pig ileum. Br. J. Pharmacol., 129, 984990.
  • IZZO, A.A., PINTO, L., BORRELLI, F., CAPASSO, R., MASCOLO, N. & CAPASSO, F. (2000b). Central and peripheral cannabinoid modulation of gastrointestinal transit in physiological states or during the diarrhoea induced by croton oil. Br. J. Pharmacol., 129, 16271632.
  • KANG, J.Y., ALEXANDER, B., MATH, M.V. & WILLIAMSON, R.C. (1993). The effect of chilli and its pungent ingredient capsaicin on gastrointestinal transit in the rat. J. Gatroenterol. Hepatol., 8, 513516.
  • JIN, J.-G., TAKAKI, M. & NAKAYAMA, S. (1990). Inhibitory effect of capsaicin on the ascending pathway of the guinea-pig ileum and antagonism of this effect by ruthenium red. Eur. J. Pharmacol., 180, 1319.
  • LEFEBVRE, R.A., DE BEURME, F.A. & SAS, S. (1991). Relaxant effect of capsaicin in the rat gastric fundus. Eur. J. Pharmacol., 195, 131137.
  • LIU, L. & SIMON, S.A. (1997). Similarities and differences in the currents activated by capsaicin, piperine and zingerone in rat trigeminal ganglion cells. J. Neurophysiol., 76, 18581869.
  • MAGGI, C.A. & MELI, A. (1988). The sensory-efferent function of capsaicin-sensitive sensory neurons. Gen. Pharmacol., 19, 143.
  • MAGGI, C.A., MANZINI, S., GIULIANI, S., SANTICIOLI, P. & MELI, A. (1986a). Extrinsic origin of the capsaicin-sensitive innervation of rat duodenum: possible involvement of calcitonin gene-related peptide (CGRP) in the capsaicin-induced activation of intramural non-adrenergic non-cholinergic neurons. Naunyn-Schmiedeberg's Arch. Pharmacol., 334, 172180.
  • MAGGI, C.A., SANTICIOLI, P., MANZINI, S. & MELI, A. (1986b). Capsaicin activates neurogenic non-adrenergic non-cholinergic relaxation of the isolated rat duodenum. Eur. J. Pharmacol., 120, 367370.
  • MILLER, M.S., GALLIGAN, J.J. & BURKS, T.F. (1981). Accurate measurement of intestinal transit in the rat. J. Pharmacol. Methods, 6, 211217.
  • MATSUDA, H., LY, Y., YAMAHARA, J. & YOSHIKAWA, M. (1999). Inhibition of gastric emptying by triterpene saponin, momordin Ic, in mice: roles of blood glucose, capsaicin-sensitive sensory nerves, and central nervous system. J. Pharmacol. Exp. Ther., 289, 729734.
  • ORIHATA, M. & SARNA, S.K. (1994). Inhibition of nitric oxide synthase delays gastric emptying of solid meals. J. Pharmacol. Exp. Ther., 271, 660667.
  • PERKINS, M.N. & CAMPBELL, E.A. (1992). Capsazepine reversal of the antinociceptive action of capsaicin in vivo. Br. J. Pharmacol., 107, 329333.
  • PERTWEE, R.G., FERNANDO, S.R., NASH, J.E. & COUTTS, A.A. (1996). Further evidence for the presence of cannabinoid CB1 receptors in guinea-pig small intestine. Br. J. Pharmacol., 118, 21992205.
  • RINALDI-CARMONA, M., BARTH, F., HEAULME, M., ALFONSO, R., SHIRE, D., CONGY, C., SOBRIE', P., BRELIERE, J.-C. & LE FUR, G. (1995). Biochemical and pharmacological characterization of SR141716A, the first potent and selective brain cannabinoid receptor antagonist. Life Sci., 56, 19411947.
  • SANTOS, F.A. & RAO, V.S.N. (1999). Quinine-induced inhibition of gastrointestinal transit in mice: possible involvement of endogenous opioids. Eur. J. Pharmacol., 364, 193197.
  • SASAMURA, R., SASAKI, M., TOHDA, C. & KURAISHI, Y. (1998). Existence of capsaicin-sensitive glutamatergic terminals in rat hypothalamus. Neuroreport., 9, 20452048.
  • SMART, D., GUNTHORPE, M.J., JERMAN, J.C., NASIR, S., GRAY, J., MUIR, A.I., CHAMBERS, J.K., RANDALL, A.D. & DAVIDS, J.B. (2000). The endogenous lipid anandamide is a full agonist at the human vanilloid receptor (hVR1). Br. J. Pharmacol., 129, 227230.
  • STEFANO, G.B., SALZET, B., RIALAS, C.M., POPE, M., KUSTKA, A., NEENAN, K., PRYOR, S. & SALZET, M. (1997). Morphine- and anandamide-stimulated nitric oxide production inhibits presynaptic dopamine release. Brain Res., 763, 6368.
  • STERNER, O. & SZALLASI, A. (1999). Novel natural vanilloid receptor agonists: new therapeutic targets for drug development. Trends Pharmacol. Sci., 20, 459464.
  • SZALLASI, A. & BLUMBERG, P.M. (1999). Vanilloid (capsaicin) receptors and mechanisms. Pharmacol. Rev., 51, 159211.
  • SZOLCSANYI, J. (2000). Are cannabinoids endogenous ligands for the VR1 capsaicin receptor. Trends Pharmacol. Sci., 21, 4142.
  • TAKAKI, M., JIN, J., LU, Y.F. & NAKAYAMA, S. (1990). Effects of piperine on the motility of the isolated guinea-pig comparison with capsaicin. Eur. J. Pharmacol., 186, 7177.
  • TAKEUCHI, K., NIIDA, H., MATSUMOTO, J., UESHIMA, K. & OKABE, S. (1991). Gastric motility changes in capsaicin-induced cytoprotection in the rat stomach. Jpn. J. Pharmacol., 55, 147155.
  • TOMINAGA, M., CATERINA, M.J., MALMBERG, A.B., ROSEN, T.A., GILBERT, H., SKINNER, K., RAUMANN, B.E., BASBAUM, A.I. & JULIUS, D. (1998). The cloned capsaicin receptor integrates multiple pain-producing stimuli. Neuron, 21, 531543.
  • TORSOLI, A., ANNESE, V., CORAZZIARI, E., CUCCHIARA, S., RENZI, D., SEVERI, C., STANCHELLINI, V., STERNINI, C. & SURRENTI, C. (1993). Neuroendocrine regulation of gastrointestinal motility. Normal and abnormal physiology. Ital. J. Gastroenterol., 25, 123134.
  • ZYGMUNT, P.M., PETERSSON, J., ANDERSSON, D.A., CHUANG, H., SORGARD, M., DI MARZO, V., JULIUS, D. & HOGESTATT, E.D. (1999). Vanilloid receptors on sensory nerves mediate the vasodilatator action of anandamide. Nature, 400, 452457.