The main objectives will be to provide a better insight on the role of brain neuropeptides in central regulation of gastric secretory and motor functions. Selecting neuropeptides previously demonstrated to act within the brain to stimulate or to inhibit gastric acid secretion, we will 1) further localize and map specific sites in rat brain responsive to peptides by studying changes in gastric secretion and motility evoked by microinfusions of these peptides in specific cortical, hypothalamic, brain stem and spinal structures. 2) study neural pathways involved in mediating peptides action using electrophysiologic approaches of extracellular recording of neuron activity from sensitive sites localized in section 1 and gastric branch of the autonomic nervous system. 3) further characterize CNS and peripheral neurotransmitters or hormones mediating peptide action using pharmacologic or surgical approaches. 4) evaluate the possible physiologic role of these peptides in the central control of gastric secretion using selective antagonists when available and passive immunization. Peptides mostly studied will be bombesin, TRH, somatostatin, oxytocin, arginine vasopressine. Gastric secretions will be collected in conscious pylorus-ligated rats or gastric fistula dogs or in anesthetized rats with gastric fistula and processed for measurement of variations in volume, titratable acidity, pepsin and gastrin. Gastric contractions will be monitored by implanting extraluminal strain gages onto the corpus. Recording of the efferent autonomic nerve activity will be performed using platinum electrodes positioned on gastric branch of the vagus and splanchnic nerve, of single cell unit using the technique of combined iontophoresis and single cell microelectrode recording. Such studies will yield substantive information on brain structures and neural pathways involved in the CNS regulation of gastric function, lead to significant progress in the knowledge of central peptidergic modulation of the autonomic nervous system outflow to the gastrointestinal tract and ultimately the physiologic relevance of specific brain neuropeptides in mediating brain-gut-brain interactions in health and disease.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK030110-06
Application #
3229272
Study Section
General Medicine A Subcommittee 2 (GMA)
Project Start
1982-03-01
Project End
1991-01-31
Budget Start
1987-12-01
Budget End
1989-01-31
Support Year
6
Fiscal Year
1988
Total Cost
Indirect Cost
Name
University of California Los Angeles
Department
Type
Schools of Medicine
DUNS #
119132785
City
Los Angeles
State
CA
Country
United States
Zip Code
90095
Zhao, Chun-Mei; Martinez, Vicente; Piqueras, Laura et al. (2008) Control of gastric acid secretion in somatostatin receptor 2 deficient mice: shift from endocrine/paracrine to neurocrine pathways. Endocrinology 149:498-505
Kobelt, Peter; Tebbe, Johannes J; Tjandra, Ines et al. (2005) CCK inhibits the orexigenic effect of peripheral ghrelin. Am J Physiol Regul Integr Comp Physiol 288:R751-8
Martinez, Vicente; Wang, Lixin; Million, Mulugeta et al. (2004) Urocortins and the regulation of gastrointestinal motor function and visceral pain. Peptides 25:1733-44
Piqueras, Laura; Tache, Yvette; Martinez, Vicente (2004) Peripheral PACAP inhibits gastric acid secretion through somatostatin release in mice. Br J Pharmacol 142:67-78
Piqueras, Laura; Tache, Yvette; Martinez, Vicente (2003) Somatostatin receptor type 2 mediates bombesin-induced inhibition of gastric acid secretion in mice. J Physiol 549:889-901
Wang, Lixin; Saint-Pierre, David H; Tache, Yvette (2002) Peripheral ghrelin selectively increases Fos expression in neuropeptide Y - synthesizing neurons in mouse hypothalamic arcuate nucleus. Neurosci Lett 325:47-51
Martinez, Vicente; Barrachina, Maria Dolores; Ohning, Gordon et al. (2002) Cephalic phase of acid secretion involves activation of medullary TRH receptor subtype 1 in rats. Am J Physiol Gastrointest Liver Physiol 283:G1310-9
Yang, Hong; Tache, Yvette; Ohning, Gordon et al. (2002) Activation of raphe pallidus neurons increases insulin through medullary thyrotropin-releasing hormone (TRH)-vagal pathways. Pancreas 25:301-7
Kawakubo, Keishi; Yang, Hong; Tache, Yvette (2002) Gastric protective effect of peripheral PYY through PYY preferring receptors in anesthetized rats. Am J Physiol Gastrointest Liver Physiol 283:G1035-41
Ishikawa, T; Yang, H; Tache, Y (2001) Microinjection of bombesin into the ventrolateral reticular formation inhibits peripherally stimulated gastric acid secretion through spinal pathways in rats. Brain Res 918:1-9

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