Retrotrapezoid nucleus: a litmus test for the identification of central chemoreceptors

doi:10.1113/expphysiol.2004.029637

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Retrotrapezoid nucleus: a litmus test for the identification of central chemoreceptors

Patrice G. Guyenet¹, Ruth L. Stornetta¹, Douglas A. Bayliss¹ and Daniel K. Mulkey¹

¹ Department of Pharmacology, University of Virginia, Charlottesville, VA 22908, USA

Abstract

Central chemoreception is the mechanism by which arterialblood P_CO₂ is detected by the CNS to regulate breathing. Twomain theories have been proposed to account for the phenomenon.The distributed chemosensitivity theory argues that pH sensitivityis a widespread attribute of brainstem neurones and that centralchemoreception results from the cumulative effects of pH oncountless neurones. The specialized chemoreceptor theory envisionsthe existence of small and specialized populations of CNS cells(chemoreceptors) that are unique in their ability to detectvery small pH fluctuations and, via specific connections, regulatea respiratory network that is itself unresponsive to pH. Therecently identified CO₂-sensitive neurones of the retrotrapezoidnucleus (RTN) seem to possess most of the attributes that onewould expect of such chemoreceptors. In this review we alsosuggest that many fewer medullary neurones are intrinsicallyresponsive to CO₂in vivo than might have been anticipated fromprior experimentation in vitro. The properties of RTN neuronesprovide renewed support for the specialized chemoreceptor theoryof central chemoreception, proposed in the early 1960s. However,many uncertainties remain, especially as regards the molecularmechanisms of chemoreception, the type of cell that actuallydetects pH in vivo (neurone, glia or others) and the numberand location of bona fide central chemoreceptors.

(Received 8 December 2004; accepted after revision 22 February 2005; first published online 25 February 2005)
Corresponding author P. G. Guyenet: Department of Pharmacology, University of Virginia Health System, PO Box 800735, 1300 Jefferson Park Avenue, Charlottesville, VA 22908-0735, USA. Email: pgg{at}virginia.edu

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				H. W. Kamendi, Q. Cheng, O. Dergacheva, J. G. Frank, C. Gorini, H. S. Jameson, R. A. Pinol, X. Wang, and D. Mendelowitz Recruitment of Excitatory Serotonergic Neurotransmission to Cardiac Vagal Neurons in the Nucleus Ambiguus Post Hypoxia and Hypercapnia J Neurophysiol, March 1, 2008; 99(3): 1163 - 1168. [Abstract] [Full Text] [PDF]

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Exchange of Views

Retrotrapezoid nucleus: a litmus test for the identification of central chemoreceptors

				R. L. Horner and T. D. Bradley Update in sleep and control of ventilation 2005. Am. J. Respir. Crit. Care Med., April 15, 2006; 173(8): 827 - 832. [Full Text] [PDF]

				A. C. T. Takakura, T. S. Moreira, E. Colombari, G. H. West, R. L. Stornetta, and P. G. Guyenet Peripheral chemoreceptor inputs to retrotrapezoid nucleus (RTN) CO2-sensitive neurons in rats J. Physiol., April 15, 2006; 572(2): 503 - 523. [Abstract] [Full Text] [PDF]

				E. E. Nattie The retrotrapezoid nucleus and the 'drive' to breathe J. Physiol., April 15, 2006; 572(2): 311 - 311. [Full Text] [PDF]

				C. A. Smith, J. R. Rodman, B. J. A. Chenuel, K. S. Henderson, and J. A. Dempsey Response time and sensitivity of the ventilatory response to CO2 in unanesthetized intact dogs: central vs. peripheral chemoreceptors J Appl Physiol, January 1, 2006; 100(1): 13 - 19. [Abstract] [Full Text] [PDF]

				J. Duffin Role of acid-base balance in the chemoreflex control of breathing J Appl Physiol, December 1, 2005; 99(6): 2255 - 2265. [Abstract] [Full Text] [PDF]

				A. V Gourine On the peripheral and central chemoreception and control of breathing: an emerging role of ATP J. Physiol., November 1, 2005; 568(3): 715 - 724. [Abstract] [Full Text] [PDF]

				P. G. Guyenet, D. K. Mulkey, R. L. Stornetta, and D. A. Bayliss Regulation of Ventral Surface Chemoreceptors by the Central Respiratory Pattern Generator J. Neurosci., September 28, 2005; 25(39): 8938 - 8947. [Abstract] [Full Text] [PDF]

				N. C Taylor, A. Li, and E. E Nattie Medullary serotonergic neurones modulate the ventilatory response to hypercapnia, but not hypoxia in conscious rats J. Physiol., July 15, 2005; 566(2): 543 - 557. [Abstract] [Full Text] [PDF]