Transient attenuation of CO2 sensitivity after neurotoxic lesions in the medullary raphe area of awake goats

doi:10.1152/japplphysiol.00584.2004

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Transient attenuation of CO₂ sensitivity after neurotoxic lesions in the medullary raphe area of awake goats

M. R. Hodges,¹ C. Opansky,¹ B. Qian,¹ S. Davis,¹ J. Bonis,¹ J. Bastasic,¹ T. Leekley,¹ L. G. Pan,³ and H. V. Forster¹^,2

¹Department of Physiology, Medical College of Wisconsin, ²Zablocki Veterans Affairs Medical Center, and ³Department of Physical Therapy, Marquette University, Milwaukee, Wisconsin 53226

Submitted 10 June 2004 ; accepted in final form 17 August 2004

The major objective of this study was to gain insight into whetherunder physiological conditions medullary raphe area neuronsinfluence breathing through CO₂/H⁺ chemoreceptors and/or througha postulated, nonchemoreceptor modulatory influence. Microtubuleswere chronically implanted into the raphe of adult goats (n= 13), and breathing at rest (awake and asleep), breathing duringexercise, as well as CO₂ sensitivity were assessed repeatedlybefore and after sequential injections of the neurotoxins saporinconjugated to substance P [SP-SAP; neurokinin-1 receptor (NK1R)specific] and ibotenic acid (IA; nonspecific glutamate receptorexcitotoxin). In all goats, microtubule implantation alone resultedin altered breathing periods, manifested as central or obstructiveapneas, and fractionated breathing. The frequency and characteristicsof the altered breathing periods were not subsequently affectedby injections of the neurotoxins (P > 0.05). Three to sevendays after SP-SAP or subsequent IA injection, CO₂ sensitivitywas reduced (P < 0.05) by 23.8 and 26.8%, respectively, butCO₂ sensitivity returned to preinjection control values >7days postinjection. However, there was no hypoventilation atrest (awake, non-rapid eye movement sleep, or rapid eye movementsleep) or during exercise after these injections (P > 0.05).The neurotoxin injections resulted in neuronal death greaterthan three times that with microtubule implantation alone andreduced (P < 0.05) both tryptophan hydroxylase-expressing(36%) and NK1R-expressing (35%) neurons at the site of injection.We conclude that both NK1R- and glutamate receptor-expressingneurons in the medullary raphe nuclei influence CO₂ sensitivityapparently through CO₂/H-expressing chemoreception, but thealtered breathing periods appear unrelated to CO₂ chemoreceptionand thus are likely due to non-chemoreceptor-related neuromodulationof ventilatory control mechanisms.

central chemoreception; control of breathing

Address for reprint requests and other correspondence: M. R. Hodges, 706 LCI, Dept. of Neurology, 333 Cedar St., New Haven, CT 06520 (E-mail: hodges{at}yale.edu)

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				P. F. Martino, S. Davis, C. Opansky, K. Krause, J. M. Bonis, S. G. Czerniak, L. G. Pan, B. Qian, and H. V. Forster Lesions in the cerebellar fastigial nucleus have a small effect on the hyperpnea needed to meet the gas exchange requirements of submaximal exercise J Appl Physiol, October 1, 2006; 101(4): 1199 - 1206. [Abstract] [Full Text] [PDF]

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