1st Edition
Airway Chemoreceptors in Vertebrates
This book provides a comprehensive and up-to-date account of the information available on the morphological, physiological and evolutionary aspects of specialized cells distributed within the epithelia of the airways in the vertebrates. A lot of work has been done on the cell and molecular biology of these cells which are regarded as as oxygen receptor neuroepithelial cells. These chemoreceptors which were conserved throughout evolution have neuroendocrine functions carrying their signals to the central nervous system.
The chemoreceptor cells are sensors which detect the signal changes in the external and internal environments, and play a key role in the survival of various species. Studies addressed to the chemoreceptor cell systems in the airways are of great importance for investigating their response to changes in the oxygen and carbon dioxide concentrations in the environment since the future of the planet earth is being threatened by global warming and climate change.
Praise for the book:
…This volume would be of special interest to researchers who are curious about the evolution of vertebrate respiratory control in general and the regulation of ventilation in nonmammalian vertebrates in particular. —Wayne L. Silver, Wake Forest University, in The Quarterly Review of Biology, Volume 85, Number 2
Preface
Neurosecretory Epithelial Cells (NEC’s) in the Airways and Carotid Labyrinth of Aquatic Vertebrates: Morphology, Distribution, Innervation and Function
Oxygen-sensitive Neuroepithelial Cells in the Gills of Aquatic Vertebrates Michael G. Jonz and Colin A. Nurse
Carotid Labyrinth and Associated PseudobranchialNeurosecretory Cells in Indian Catfishes A. Gopesh
Serotonergic Neuroepithelial Cells in Fish Gills:Cytology and Innervation Yannick J.R. Bailly
Neurosecretory Cells (NEC’s) in the Lung of Amphibians and Accessory Respiratory Organs of the Air-breathing Fishes and in Amphibian Carotid Labyrinth: Structural Morphology and Function
Neuroendocrine Cells in the Lungs of Amphibians and Air-Breathing Fishes Lucyna Goniakowska-Witalńska, Anna Pecio and Dagmara Podkowa
The Amphibian Carotid Labyrinth Tatsumi Kusakabe
Neuroendocrine System of the Amphibian Extrapulmonary Airways Luis Miguel Pastor García and Esther Beltrán-Frutos
Chemoreceptive Control of Ventilation in Amphibiansand Air-Breathing Fishes Warren Burggren and Tien-Chien Pan
Neuroepithelial Bodies(NEB’s) in the Lung of Reptiles: Structural Morphology, Immunohistochemistry and Function
Neuroendocrine System of the Reptilian Respiratory Tract Luis Miguel Pastor García, Giacomo Zaccone and Esther Beltrán-Frutos
Airway Receptors in Birds M. Fabiana Kubke, Roderick A. Suthers and J. Martin Wild
Mechanisms of CO2 Sensing in Avian Intrapulmonary Chemoreceptors Steven C. Hempleman and Jason Q. Pilarski
Pulmonary Neuroepithelial Cells in Mammals: Structure, Molecular Markers, Ontogeny and Functions
Diverse and Complex Airway Receptors in Rodent Lungs Inge Brouns, Isabel Pintelon, Ian De Proost, Jean-Pierre Timmermans and Dirk Adriaensen
Oxygen Sensing in Mammalian Pulmonary Neuroepithelial Bodies E. Cutz, W.X. Fu, H. Yeger, J. Pan and C.A. Nurse
Precursors and Stem Cells of the Pulmonary Neuroendocrine Cell System in the Developing Mammalian Lung H. Yeger, J. Pan and E. Cutz
Pulmonary Neuroepithelial Bodies as Hypothetical Immunomodulators: Some New Findings and a Review of the Literature Alfons T.L. Van Loomel, Tania Bollé and Peter W. Hellings
Neuroepithelial Bodies and Carotid Bodies: A Comparative Discussion of Pulmonary and Arterial Chemoreceptors Alfons T.L. Van Lommel
Solitary Chemosensory Cells in the Airways of Mammals: Distribution, Immunocytochemistry, Fine Structure and Function
Solitary Chemosensory Cells in the Airways of Mammals A. Sbarbati, M.P. Cecchini, C. Crescimanno, F. Merigo, D. Benati, M. Tizzano and F. Osculati
Solitary Chemosensory Cells: Phylogeny and Ontogeny Anne Hansen and Thomas E. Finger
Functional Importance of Pulmonary Neuroendocrine Cells Staffan Skogvall
CO2/H+ Chemoreceptors in the Respiratory Passages of Vertebrates K.M. Gilmour and W.K. Milsom
Index
Biography
Giacomo Zaccone
This book provides a review of the chemoreceptive cells associated with vertebrate respiration. … Most of the cells described in this volume detect respiratory gases and function to help regulate ventilation. Other roles include immune system activation, defense against bacteria, and environmental chemical detection. The majority of the book looks at the anatomy of respiratory-related structures: lungs (gills), carotid labyrinths (carotid body), and respiratory passages. … There are five sections organized by vertebrate class (fish, amphibians, reptiles/birds, and two for mammals). …This volume would be of special interest to researchers who are curious about the evolution of vertebrate respiratory control in general and the regulation of ventilation in nonmammalian vertebrates in particular.
—Wayne L. Silver, Wake Forest University, in The Quarterly Review of Biology, Volume 85, Number 2