The retrotrapezoid nucleus and breathing.

The retrotrapezoid nucleus (RTN) is located in the rostral medulla oblongata close to the ventral surface and consists of a bilateral cluster of glutamatergic neurons that are non-aminergic and express homeodomain transcription factor Phox2b throughout life. These neurons respond vigorously to increases in local pCO(2) via cell-autonomous and paracrine (glial) mechanisms and receive additional chemosensory information from the carotid bodies. RTN neurons exclusively innervate the regions of the brainstem that contain the respiratory pattern generator (RPG). Lesion or inhibition of RTN neurons largely attenuates the respiratory chemoreflex of adult rats whereas their activation increases respiratory rate, inspiratory amplitude and active expiration. Phox2b mutations that cause congenital central hypoventilation syndrome in humans prevent the development of RTN neurons in mice. Selective deletion of the RTN Phox2b-VGLUT2 neurons by genetic means in mice eliminates the respiratory chemoreflex in neonates.In short, RTN Phox2b-VGLUT2 neurons are a major nodal point of the CNS network that regulates pCO(2) via breathing and these cells are probable central chemoreceptors.

[1]  R. Stornetta,et al.  Pre‐Bötzinger complex receives glutamatergic innervation from galaninergic and other retrotrapezoid nucleus neurons , 2012, The Journal of comparative neurology.

[2]  C. Goridis,et al.  Central chemoreception: Lessons from mouse and human genetics , 2010, Respiratory Physiology & Neurobiology.

[3]  B. Matrot,et al.  Breathing without CO2 Chemosensitivity in Conditional Phox2b Mutants , 2011, The Journal of Neuroscience.

[4]  M. Thoby-Brisson,et al.  Defective Respiratory Rhythmogenesis and Loss of Central Chemosensitivity in Phox2b Mutants Targeting Retrotrapezoid Nucleus Neurons , 2009, The Journal of Neuroscience.

[5]  E. Deneris,et al.  Medullary serotonin neurons and central CO2 chemoreception , 2009, Respiratory Physiology & Neurobiology.

[6]  O. Isacson,et al.  A high-efficiency synthetic promoter that drives transgene expression selectively in noradrenergic neurons. , 2001, Human gene therapy.

[7]  D. Bayliss,et al.  Central respiratory chemoreception , 2010, The Journal of comparative neurology.

[8]  R. Stornetta,et al.  Control of Breathing by Raphe Obscurus Serotonergic Neurons in Mice , 2011, The Journal of Neuroscience.

[9]  E. Nattie,et al.  CO2 dialysis in one chemoreceptor site, the RTN: stimulus intensity and sensitivity in the awake rat , 2002, Respiratory Physiology & Neurobiology.

[10]  J C Smith,et al.  Abdominal expiratory activity in the rat brainstem–spinal cord in situ: patterns, origins and implications for respiratory rhythm generation , 2009, The Journal of physiology.

[11]  D. Bayliss,et al.  Regulation of Ventral Surface Chemoreceptors by the Central Respiratory Pattern Generator , 2005, The Journal of Neuroscience.

[12]  S. Iscoe Control of abdominal muscles , 1998, Progress in Neurobiology.

[13]  K. Deisseroth,et al.  Active Expiration Induced by Excitation of Ventral Medulla in Adult Anesthetized Rats , 2011, The Journal of Neuroscience.

[14]  D. Bayliss,et al.  Acid sensitivity and ultrastructure of the retrotrapezoid nucleus in Phox2b‐EGFP transgenic mice , 2009, The Journal of comparative neurology.

[15]  Jeffrey C. Smith,et al.  Essential Role of Phox2b-Expressing Ventrolateral Brainstem Neurons in the Chemosensory Control of Inspiration and Expiration , 2010, The Journal of Neuroscience.

[16]  R. Stornetta,et al.  Peripheral chemoreceptor inputs to retrotrapezoid nucleus (RTN) CO2‐sensitive neurons in rats , 2006, The Journal of physiology.

[17]  E. Nattie,et al.  Central chemoreception is a complex system function that involves multiple brain stem sites. , 2009, Journal of applied physiology.

[18]  A. Nishiyama,et al.  Astrocytes in the retrotrapezoid nucleus sense H+ by inhibition of a Kir4.1-Kir5.1-like current and may contribute to chemoreception by a purinergic mechanism. , 2010, Journal of neurophysiology.

[19]  I. Wenker,et al.  Astrocyte chemoreceptors: mechanisms of H+ sensing by astrocytes in the retrotrapezoid nucleus and their possible contribution to respiratory drive , 2011, Experimental physiology.

[20]  D. Bayliss,et al.  Respiratory control by ventral surface chemoreceptor neurons in rats , 2004, Nature Neuroscience.

[21]  K. Ikeda,et al.  CO2-Sensitive Preinspiratory Neurons of the Parafacial Respiratory Group Express Phox2b in the Neonatal Rat , 2008, The Journal of Neuroscience.

[22]  K. Deisseroth,et al.  Astrocytes Control Breathing Through pH-Dependent Release of ATP , 2010, Science.

[23]  R. Stornetta,et al.  Photostimulation of Phox2b medullary neurons activates cardiorespiratory function in conscious rats. , 2010, American journal of respiratory and critical care medicine.

[24]  J. Dempsey,et al.  Peripheral chemoreceptors determine the respiratory sensitivity of central chemoreceptors to CO2 , 2010, The Journal of physiology.

[25]  E. Berry-Kravis,et al.  An official ATS clinical policy statement: Congenital central hypoventilation syndrome: genetic basis, diagnosis, and management. , 2010, American journal of respiratory and critical care medicine.

[26]  J. C. Smith,et al.  Multiple pontomedullary mechanisms of respiratory rhythmogenesis , 2009, Respiratory Physiology & Neurobiology.

[27]  Bong Jin Kang,et al.  Expression of Phox2b by Brainstem Neurons Involved in Chemosensory Integration in the Adult Rat , 2006, The Journal of Neuroscience.

[28]  R. Stornetta,et al.  Selective lesion of retrotrapezoid Phox2b‐expressing neurons raises the apnoeic threshold in rats , 2008, The Journal of physiology.

[29]  Ilya A. Rybak,et al.  Structural and functional architecture of respiratory networks in the mammalian brainstem , 2009, Philosophical Transactions of the Royal Society B: Biological Sciences.

[30]  R. Stornetta,et al.  Photostimulation of Retrotrapezoid Nucleus Phox2b-Expressing Neurons In Vivo Produces Long-Lasting Activation of Breathing in Rats , 2009, The Journal of Neuroscience.

[31]  E. Rudzinski,et al.  PHOX2B Immunolocalization of the Candidate Human Retrotrapezoid Nucleus , 2010, Pediatric and developmental pathology : the official journal of the Society for Pediatric Pathology and the Paediatric Pathology Society.

[32]  J. Gallego,et al.  A human mutation in Phox2b causes lack of CO2 chemosensitivity, fatal central apnea, and specific loss of parafacial neurons , 2008, Proceedings of the National Academy of Sciences.

[33]  Gilles Fortin,et al.  Embryonic emergence of the respiratory rhythm generator , 2009, Respiratory Physiology & Neurobiology.

[34]  J C Smith,et al.  Brainstem projections to the major respiratory neuron populations in the medulla of the cat , 1989, The Journal of comparative neurology.

[35]  Jean Champagnat,et al.  Genetic identification of an embryonic parafacial oscillator coupling to the preBötzinger complex , 2009, Nature Neuroscience.

[36]  Robert T. R. Huckstepp,et al.  Connexin hemichannel‐mediated CO2‐dependent release of ATP in the medulla oblongata contributes to central respiratory chemosensitivity , 2010, The Journal of physiology.