Orexin stimulates breathing via medullary and spinal pathways

1 Howard University Specialized Neuroscience Research Program, Departments of Physiology and Anatomy, Washington, District of Columbia, and 2 Departments of Pediatrics and Anatomy, Case Western University, Cleveland, Ohio Submitted 20 August 2004 ; accepted in final form 10 November 2004 A central n...

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Published in:Journal of applied physiology (1985) 2005-04, Vol.98 (4), p.1387-1395
Main Authors: Young, John K, Wu, Mingfei, Manaye, Kebreten F, Kc, Prabha, Allard, Joanne S, Mack, Serdia O, Haxhiu, Musa A
Format: Article
Language:English
Subjects:
Animals
Arousal - drug effects
Arousal - physiology
Biological and medical sciences
Fundamental and applied biological sciences. Psychology
Hypothalamus - cytology
Hypothalamus - drug effects
Hypothalamus - physiology
Intracellular Signaling Peptides and Proteins - administration & dosage
Male
Medulla Oblongata - cytology
Medulla Oblongata - drug effects
Medulla Oblongata - physiology
Motor control and motor pathways. Reflexes. Control centers of vegetative functions. Vestibular system and equilibration
Motor Neurons - cytology
Motor Neurons - drug effects
Motor Neurons - physiology
Neural networks
Neural Pathways - cytology
Neural Pathways - drug effects
Neural Pathways - physiology
Neuropeptides - administration & dosage
Orexin Receptors
Orexins
Phrenic Nerve - cytology
Phrenic Nerve - drug effects
Phrenic Nerve - physiology
Rats
Rats, Sprague-Dawley
Receptors, G-Protein-Coupled
Receptors, Neuropeptide - metabolism
Respiration - drug effects
Respiratory system
Sleep disorders
Spinal Cord - cytology
Spinal Cord - drug effects
Spinal Cord - physiology
Spine
Vertebrates: nervous system and sense organs
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Summary:1 Howard University Specialized Neuroscience Research Program, Departments of Physiology and Anatomy, Washington, District of Columbia, and 2 Departments of Pediatrics and Anatomy, Case Western University, Cleveland, Ohio Submitted 20 August 2004 ; accepted in final form 10 November 2004 A central neuronal network that regulates respiration may include hypothalamic neurons that produce orexin, a peptide that influences sleep and arousal. In these experiments, we investigated 1 ) projections of orexin-containing neurons to the pre-Bötzinger region of the rostral ventrolateral medulla that regulates rhythmic breathing and to phrenic motoneurons that innervate the diaphragm; 2 ) the presence of orexin A receptors in the pre-Bötzinger region and in phrenic motoneurons; and 3 ) physiological effects of orexin administered into the pre-Bötzinger region and phrenic nuclei at the C 3 –C 4 levels. We found orexin-containing fibers within the pre-Bötzinger complex. However, only 0.5% of orexin-containing neurons projected to the pre-Bötzinger region, whereas 2.9% of orexin-containing neurons innervated the phrenic nucleus. Neurons of the pre-Bötzinger region and phrenic nucleus stained for orexin receptors, and activation of orexin receptors by microperfusion of orexin in either site produced a dose-dependent, significant ( P < 0.05) increase in diaphragm electromyographic activity. These data indicate that orexin regulates respiratory activity and may have a role in the pathophysiology of sleep-related respiratory disorders. hypothalamus; pre-Bötzinger region; phrenic motor neurons; orexin-1 receptors; sleep apnea Address for reprint requests and other correspondence: J. K. Young, Dept. of Anatomy, Howard Univ. College of Medicine, 520 W St., NW, Washington, DC 20059 (E-mail: jyoung{at}howard.edu )
ISSN:8750-7587
1522-1601
DOI:10.1152/japplphysiol.00914.2004