Chemoreception : from cellular signalling to functional plasticity /
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| Corporate Author: | |
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| Format: | Conference Proceeding Book |
| Language: | English |
| Published: |
New York ; London :
Kluwer Academic/Plenum Publishers,
c2003.
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| Series: | Advances in experimental medicine and biology ;
v. 536. |
| Subjects: | |
| Online Access: | Table of contents only Publisher description |
Table of Contents:
- Machine derived contents note: Honoring Pierre Dejours. His Contribution to the Study of the Role of the Arterial Chemoreceptors in the Regulation of Breathing in Humans; H. Gautier. O2 and CO2 Sensing Mechanisms in the Peripheral Arterial Chemoreceptors: Membrane Properties, Intracellular Metabolic and Genomic Events. 2P Domain K+ Channels: Novel Pharmacological Targets for Volatile General Anesthetics; A.J. Patel, E. Honore. Ca2+ Responses to Hypoxia are Mediated by IP3-R on Ca2+ Store Depletion; S. Lahiri, et al. Functional Identification of Kvalpha Subunits Contributing to the O2-sensitive K+ Current in Rabbit Carotid Body Chemoreceptor Cells; J.R. Lp̤ez-Lp̤ez, et al. Carotid Body Chemoreceptor Activity in Mice Deficient in Selected Subunits of NADPH Oxidase ; L. He, et al. Glucose Sensing Cells in the Carotid Body; M. Garcia-Fernandez, et al. Effect of Mitochondrial Inhibitors on Type I Cells; C.N. Wyatt, K.J. Buckler. Ascorbate in the Carotid Body; A. Dymecka, et al. Studies on Glomus Cell Sensitivity to Hypoxia in Carotid Body Slices; P. Ortega-Sènz, et al. An Unusual Cytochrome a592 with low PO2 Affinity Correlates with Afferent Discharge in the Carotid Body; C. Huckstorf et al. A Reevaluation of the Mechanisms Involved in the Secretion of Catecholamine Evoked by 2.4 Dinitrophenol From Chemoreceptors Cells of the Rabbit Carotid Body; A. Rocher, et al. Enhancing Effect of Vasopressin on the Hyperglycaemic Response to Carotid Body Chemoreceptor Stimulation. 6 Additional Articles. O2 and CO2 Sensing Mechanisms in Airway Chemoreceptors, Pulmonary Artery Smooth Muscle Cells and Other Oxygen-sensing Systems: Membrane Properties, Intracellular Metabolic and Genomic Events. Pulmonary Interstitium: an Introductory Review; G. Miserocchi. Regulation of K+ Currents by CO in Carotid Body Type 1 Cells and Pulmonary Artery Smooth Muscle Cells; P. Kumar, et al. Ionotropic Receptors in Pulmonary Neuroepithelial Bodies (NEB) and their Possible Role in Modulation of Hypoxia Signalling; E. Cutz, et al. Mitochondrial Complex II is Essential for Hypoxia-induced ROS Generation and Vasoconstriction in the Pulmonary Vasculature; R. Paddenberg, et al. Regulation of the Hypoxia-inducible Transcription Factor HIF-1 by Reactive Oxygen Species in Smooth Muscle Cells; S. BelAiba, A. Gṟlach. O2-sensing Mechanisms in Efferent Neurons to the Rat Carotid Body; V.A. Campanucci, et al. Amyloid Peptide-mediated Hypoxic Regulation of Ca2+ Channels in PC12 Cells; C. Peers, et al. Role of ROS and NO in Hypoxia-induced Increase in Tyrosine Hydroxylase-messenger RNA in PC12 Cells; W. Kummer, et al. Oxygen Sensing by Human Recombinant Tandem-P Domain Potassium Channels; P.J. Kemp, et al. Oxygen Sensing by Human Recombinant Large Conductance Calcium-activated Potassium Channels: Regulation by Acute Hypoxia; P.J. Kemp, et al. Potential Oxygen Sensing Pathways in the Zebrafish Gill; M.G.Jonz, et al. 3 Additional Articles. Mechanisms of Communication Between Chemosensory Cells and Chemoafferent Fibers. Dye and Electric Coupling Between Carotid Nerve Terminals and Glomus Cells; R.G. Jiang, C. Eyzaguirre. Neurotransmitter Relationships in the Hypoxia-challenged Cat Carotid Body; R.S. Fitzgerald, et al.Ach Differentially Modulates Voltage-gated K Channels in Glomus Cells between DBA/2J and A/J Strains of Mice; S. Yamaguchi, et al. Hypoxic Augmentation of Neuronal Nicotinic Acetylcholine Receptors and Carotid Body Function; M. Shirahata, et al. Cholinergic Actions on Carotid Chemosensory System; P. Zapata, et al. Nicotinic Acetylcholine Receptor Channels in Cat Chemoreceptor Cells; T. Higashi, et al. Hypoxia Does Not Uniformly Facilitate The Release of Multiple Transmitters from the Carotid Body; Dong-Kyu Kim, et al. Expression and Function of Pre-synaptic Neurotransmitter Receptors in the Chemoafferent Pathway of the Rat Carotid Body; I.M. Fearon, et al. Adenosine-Acetylcholine Interactions at the Rat Carotid Body; S.V. Conde, E.C. Monteiro. Diverse Cholinergic Receptors in the Cat Carotid Chemosensory Unit; S. Hirasawa, et al. Carotid Chemosensory Neurons in the Petrosal Ganglia are Excited by Ach and ATP; R. Varas, et al. The Use of NK-1 Receptor Null Mice to Assess the Significance of Substance P in the Carotid Body Function; A.J. Rico, et al. Concomitant Effect of Acetylcholine and Dopamine on Carotid Chemosensory Activity in Catecholamine Depleted Cats; A. Bairam, Y. Lajeunesse. 4 Additional Articles. Brainstem O2 and CO2 Sensing - Central Integration of Peripheral Chemosensory Inputs. Chemosensitivity of Medullary Respiratory Neurones. A Role for Ionotropic P2X and GABAA Receptors; A.V. Gourine, K.M. Spyer. Effects of Controller Dynamics on Stimulations of Irregular and Periodic Breathing; G.S. Longobardo, et al. CO2 /H+ Signal Tranduction and Central Ventilatory Control; H. Kazemi. Differential Expression of Intracellular Acidosis in Rat Brainstem Regions in Response to Hypercapnic Ventilation; J.C. LaManna, et al. Tentative Role of the Na+/H+ Exchanger Type 3 in Central Chemosensitivity of Respiration; H. Kiwull-Schṉe, et al. Effect of Losartan Microinjections into the NTS on the Cardiovascular Components of Chemically Evoked Reflexes in a Rabbit Model of Acute Heart Ischemia; L. Rosario, et al. Effects of Acute Hypoxic Conditions on Extracellular Excitatory Amino Acids and Dopamine in the Striatum of Freely-moving Rats; S. Parrot, et al. Activity of Dorsal Medullary Respiratory Neurons in Awake Rats; F.P. Martial, et al. Cardiovascular and Respiratory Responses to Heme Oxygenase Inhibition in Conscious Rats; H. Hirakawa, et al. Peripheral Chemoreceptor Input to Cardiac Vagal Preganglionic Neurons in the Anaesthetized Rat; D.M. O'Leary, J.F.X. Jones. Hypoxic Remodelling of Ca2+ Homeostasis in Rat Type 1 Cortical Astrocytes; C. Peers, et al. Effect of CO2 on Cardiovascular Regulation in Conscious Rats; S. Oikawa, et al. A6 noradrenergic cell group modulates the hypoxic ventilatory response; C. Soulage, et al. Ventilatory Chemosensory Drive in Cats, Rats and Guinea Pigs; R. Fernandez, et al. Plasticity of Chemosensitivity Processes During Development: Transition at Birth and Delayed Effects. Deletion of Tachykinin NK1 Receptor Gene in Mice Does Not Alter Respiratory Network Maturation but Alters Respiratory Responses to Hypoxia; G. Hilaire, et al. Autonomic Ganglion Cells: Likely Source of Acetylcholine in the Rat Carotid Body; E.B. Gauda, et al. Effects of Perinatal Hyperoxia on Carotid Body Chemoreceptors Activity in vitro; J. Prieto-Lloret, et al. Prenatal Hypoxia and Early Postnatal Maturation of the Chemoafferent Pathway; J. Peyronnet, et al. pH Sensitivity of Spinal Cord Rhythm in Fetal Mice in vitro; J. Eugenin, et al. Time Dependent Regulation of Dopamine D1- and D2 -Receptor Gene Expression in the Carotid Body of Developing Rabbits by Hypoxia; A. Bairam, et al. Ventilatory Response to CO2 in New-born Mouse; M.C. Ordenes, et al. Long-term Effects of Neonatal Cryoanesthesia on Hypoxic Ventilatory Response in Weaning Rats Depend on Neonatal Testosterone; V. Joseph, et al. Plasticity of Chemosensitive Processes: Acclimatization to Intermittent Versus Chronic Hypoxia in Adult Systemic and Cellular Responses to Intermittent Hypoxia: Evidence for Oxidative Stress and Mitochondrial Dysfunction; Y. Peng, et al. Effects of Hypobaric Hypoxia on the Intercellular Coupling of Glomus Cells; G.R. Jiang, C. Eyzaguirre. Oxygen Sensing by Recombinant Large Conductance Calcium-activated Potassium Channels: Regulation by Chronic Hypoxia; P.J. Kemp, et al. Altered Expression of Vascular Endothelial Growth Factor and FLK-1 Receptor in Chronically Hypoxic Rat Carotid Body; J. Chen, et al. Role of HIF-1 in Physiological Adaptation of the Carotid Body During Chronic Hypoxia; Man-Lung Fung, G.L. Tipoe. Carotid body HIF-1&agr;, VEGF and NOS Expression During Aging and Hypoxia; C. Di Giulio, et al. Rat Carotid Bodies in Systemic Hypoxia. Involvement of Arterial CO2 Tension in Morphological Changes; T. Kusakabe, et al. Immunohistochemical Study of the Carotid Body Just After Arousal From Hibernation; K. Fukuhara, et al. Index.