SEARCH

SEARCH BY CITATION

References

  • Arnalich F, Lopez J, Codoceo R, Jimenez M, Madero R & Montiel C (1999). Relationship of plasma leptin to plasma cytokines and human survival in sepsis and septic shock. J Infect Dis 180, 908911.
  • Aubé AC, Blottiére HM, Scarpignato C, Cherbut C, Rozé C & Galmiche JP (1996). Inhibition of acethylcholin induced intestinal motility by interleukin 1 β in the rat. Gut 39, 470474.
  • Bado A, Levasseur S, Attoub S, Kermorgant S, Laigneau JP, Bortoluzzi MN, Moizo L, Lehy T, Guerre-Millo M, Le Marchand-Brustel Y & Lewin MJ (1998). The stomach is a source of leptin. Nature 394, 790793.
  • Barbier M, Cherbut C, Aube AC, Blottiere HM & Galmiche JP (1998). Elevated plasma leptin concentrations in early stages of experimental intestinal inflammation in rats. Gut 43, 783790.
  • Barrachina MD, Martinez V, Wang L, Wei JY & Tache Y (1997a). Synergistic interaction between leptin and cholecystokinin to reduce short-term food intake in lean mice. Proc Natl Acad Sci U S A 94, 1045510460.
  • Barrachina MD, Martinez V, Wei JY & Tache Y (1997b). Leptin-induced decrease in food intake is not associated with changes in gastric emptying in lean mice. Am J Physiol 272, R10071011.
  • Basmadjian JV, & Stecko G (1962). A new bipolar electrode for electromyography. J Appl Physiol 17, 849852.
  • Berthoud HR, Carlson NR & Powley TL (1991). Topography of efferent vagal innervation of the rat gastrointestinal tract. Am J Physiol 260, R200207.
  • Berthoud HR, Patterson LM, Willing AE, Mueller K & Neuhuber WL (1997). Capsaicin-resistant vagal afferent fibers in the rat gastrointestinal tract: anatomical identification and functional integrity. Brain Res 746, 195206.
  • Bouvier M, & Gonella J (1981). Nervous control of the internal anal sphincter of the cat. J Physiol 310, 457469.
  • Bouvier M, Grimaud JC & Abysique A (1990). Effects of stimulation of vesical afferents on colonic motility in cats. Gastroenterology 98, 11481154.
  • Buyse M, Ovesjo ML, Goiot H, Guilmeau S, Peranzi G, Moizo L, Walker F, Lewin MJ, Meister B & Bado A (2001). Expression and regulation of leptin receptor proteins in afferent and efferent neurons of the vagus nerve. Eur J Neurosci 14, 6472.
  • Faggioni R, Fantuzzi G, Fuller J, Dinarello CA, Feingold KR & Grunfeld C (1998). Il-1 beta mediates leptin induction during inflammation. Am J Physiol 274, R204208.
  • Fargeas M-J, Fioramonti J & Bueno L (1993). Central action of interleukin 1 β on intestinal motility in rats: mediation by two mechanisms. Gastroenterology 104, 377383.
  • Francis J, Mohankumar PS, Mohankumar SM & Quadri SK (1999). Systemic administration of lipopolysaccharide increases plasma leptin levels: blockade by soluble interleukin-1 receptor. Endocrine 10, 291295.
  • Gaigé S, Abysique A & Bouvier M (2002). Effects of leptin on cat intestinal vagal mechanoreceptors. J Physiol 543, 679689.
  • Go VLW, (1978). The physiology of cholecystokinin. In Gut Hormones, ed. Bloom SR, pp. 203207. Churchill Livingstone, Edinburgh
  • Gonella J, Bouvier M & Blanquet F (1987). Extrinsic nervous control of motility of small and large intestine and related sphincters. Phys Rev 67, 902961.
  • Grider JR, (1994). Role of cholecystokinin in the regulation of gastrointestinal motility. J Nutr 124, 13341339S.
  • Hahn A, Huber A, Neumayer N & Allescher H-D (1998). Effect of interleukin-1 β on the ascending and descending reflex in rat small intestine. Eur J Pharmacol 359, 201209.
  • Hall KE, El-Sharkawy TY & Diamant NE (1982). Vagal control of migrating motor complex in the dog. Am J Physiol 243, G276284.
  • Haynes WG, Morgan DA, Walsh SA, Mark AL & Sivitz WI (1997). Receptor-mediated regional sympathetic nerve activation by leptin. J Clin Invest 100, 270278.
  • Holzer P, & Holzer-Petsche U (1997). T achykinins in the gut. Part I. Expression, release and motor function. Pharmacol Therapeut 73, 173217.
  • Kewenter J, (1965). The vagal control of the jejunal and ileal motility and blood flow. Acta Physiol Scand 251, 168.
  • Liu M, Seino S & Kirchgessner AL (1999). Identification and characterization of glucoresponsive neurons in the enteric nervous system. J Neurosci 19, 1030510317.
  • Lostao MP, Urdaneta E, Martinez-Anso E, Barber A & Martinez JA (1998). Presence of leptin receptors in rat small intestine and leptin effect on sugar absorption. FEBS Lett 423, 302306.
  • Luheshi GN, Gardner JD, Rushforth DA, Loudon AS & Rothwell NJ (1999). Leptin actions on food intake and body temperature are mediated by IL-1. Proc Natl Acad Sci U S A 96, 70477052.
  • Main C, Blennerhassett P & Collins SM (1993). H uman recombinant interleukin-1β suppresses acetylcholine release from rat myenteric plexuses. Gastroenterology 104, 16481654.
  • Martinez V, Barrachina MD, Wang L & Tache Y (1999). Intracerebroventricular leptin inhibits gastric emptying of a solid nutrient meal in rats. Neuroreport 10, 32173221.
  • Matson CA, Reid DF, Cannon TA & Ritter RC (2000). Cholecystokinin and leptin act synergistically to reduce body weight. Am J Physiol 278, R882890.
  • Meyer JH, (1975). Release of secretin and cholecystokinin. In: Gastrointestinal Hormones, ed. Thompson JC, pp. 475489. University of Texas Press, Austin
  • Milenov K, Kalfin R, Todorov S & Raichev P (1998). Neuropeptides of the cholecystokinin group: effects and mechanisms of action on the gastro-intestinal and gall bladder motility. Physiol Pharmacol Bulgarica 23, 8591.
  • Miller SM, Schmalz PF, Benarroch EE & Szurszewski JH (1999). Leptin receptor immunoreactivity in sympathetic prevertebral ganglion neurons of mouse and rat. Neurosci Lett 265, 7578.
  • Niijima A, (1998). Afferent signals from leptin sensors in the white adipose tissue of the epididymis, and their reflex effect in the rat. J Autonom Nerv Syst 73, 1925.
  • Niijima A, (1999). Reflex effects from leptin sensors in the white adipose tissue of the epididymis to the efferent activity of the sympathetic and vagus nerve in the rat. Neurosci Lett 262, 125128.
  • Pelleymounter MA, Cullen MJ, Baker MB, Hecht R, Winters D, Boone T & Collins F (1995). Effects of the obese gene product on body weight regulation in ob/ob mice. Science 269, 540543.
  • Raybould HE, & Llyod KC (1994). Integration of postprandial function in the proximal gastrointestinal tract. Role of CCK and sensory pathways. Annals NY Acad Sci 713, 143146.
  • Sobhani I, Bado A, Vissuzaine C, Buyse M, Kermorgant S, Laigneau JP, Attoub S, Lehy T, Henin D, Mignon M & Lewin MJ (2000). Leptin secretion and leptin receptor in the human stomach. Gut 47, 178183.
  • Tansy MF, & Kendall FM (1977). Systemic effects of visceral afferent fiber stimulation. In: Nerves and the Gut, ed. Brooks FP & Evers PW, pp. 154196. NJ Slack, Thorofare
  • Vizi SE, Betraccini G, Impicciatore M & Knoll J (1973). Evidence that acetylcholine released by gastrin and polypeptides contributes to their effect on gastrointestinal motility. Gastroenterology 64, 268277.
  • Wang L, Barachina MD, Martinez V, Wei JY & Tache Y (2000). Synergistic interaction between CCK and leptin to regulate food intake. Regul Peptides 92, 7985.
  • Wang L, Martinez V, Barrachina MD & Tache Y (1998). Fos expression in the brain induced by peripheral injection of CCK or leptin plus CCK in fasted lean mice. Brain Res 791, 157166.
  • Wang YH, Tache Y, Sheibel AB, Go VL & Wei JY (1997). Two types of leptin-responsive gastric vagal afferent terminals: an in vitro single-unit study in rats. Am J Physiol 273, R833837.
  • Yuan SY, Costa M & Brookes SJ (2001). Neuronal control of the pyloric sphincter of the guinea-pig. Neurogastroenterol Motil 13, 187198.
  • Zhang Y, Proenca R, Maffei M, Barone M, Leopold L & Friedman JM (1994). Positional cloning of the mouse obese gene and its human homologue. Nature 372, 425432.