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A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep

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Zeitschriftentitel: Journal of Applied Physiology
Personen und Körperschaften: Bonis, J. M., Neumueller, S. E., Krause, K. L., Kiner, T., Smith, A., Marshall, B. D., Qian, B., Pan, L. G., Forster, H. V.
In: Journal of Applied Physiology, 109, 2010, 1, S. 159-170
Format: E-Article
Sprache: Englisch
veröffentlicht:
American Physiological Society
Schlagwörter:
Physiology (medical)
Physiology
author_facet Bonis, J. M.
Neumueller, S. E.
Krause, K. L.
Kiner, T.
Smith, A.
Marshall, B. D.
Qian, B.
Pan, L. G.
Forster, H. V.
Bonis, J. M.
Neumueller, S. E.
Krause, K. L.
Kiner, T.
Smith, A.
Marshall, B. D.
Qian, B.
Pan, L. G.
Forster, H. V.
author Bonis, J. M.
Neumueller, S. E.
Krause, K. L.
Kiner, T.
Smith, A.
Marshall, B. D.
Qian, B.
Pan, L. G.
Forster, H. V.
spellingShingle Bonis, J. M.
Neumueller, S. E.
Krause, K. L.
Kiner, T.
Smith, A.
Marshall, B. D.
Qian, B.
Pan, L. G.
Forster, H. V.
Journal of Applied Physiology
A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
Physiology (medical)
Physiology
author_sort bonis, j. m.
spelling Bonis, J. M. Neumueller, S. E. Krause, K. L. Kiner, T. Smith, A. Marshall, B. D. Qian, B. Pan, L. G. Forster, H. V. 8750-7587 1522-1601 American Physiological Society Physiology (medical) Physiology http://dx.doi.org/10.1152/japplphysiol.00933.2009 <jats:p> For many years, acetylcholine has been known to contribute to the control of breathing and sleep. To probe further the contributions of cholinergic rostral pontine systems in control of breathing, we designed this study to test the hypothesis that microdialysis (MD) of the muscarinic receptor antagonist atropine into the pontine respiratory group (PRG) would decrease breathing more in animals while awake than while in NREM sleep. In 16 goats, cannulas were bilaterally implanted into rostral pontine tegmental nuclei ( n = 3), the lateral ( n = 3) or medial ( n = 4) parabrachial nuclei, or the Kölliker-Fuse nucleus (KFN; n = 6). After &gt;2 wk of recovery from surgery, the goats were studied during a 45-min period of MD with mock cerebrospinal fluid (mCSF), followed by at least 30 min of recovery and a second 45-min period of MD with atropine. Unilateral and bilateral MD studies were completed during the day and at night. MD of atropine into the KFN at night decreased pulmonary ventilation and breathing frequency and increased inspiratory and expiratory time by 12–14% during both wakefulness and NREM sleep. However, during daytime studies, MD of atropine into the KFN had no effect on these variables. Unilateral and bilateral nighttime MD of atropine into the KFN increased levels of NREM sleep by 63 and 365%, respectively. MD during the day or at night into the other three pontine sites had minimal effects on any variable studied. Finally, compared with MD of mCSF, bilateral MD of atropine decreased levels of acetylcholine and choline in the effluent dialysis fluid. Our data support the concept that the KFN is a significant contributor to cholinergically modulated control of breathing and sleep. </jats:p> A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep Journal of Applied Physiology
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title A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_unstemmed A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_full A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_fullStr A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_full_unstemmed A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_short A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_sort a role for the kölliker-fuse nucleus in cholinergic modulation of breathing at night during wakefulness and nrem sleep
topic Physiology (medical)
Physiology
url http://dx.doi.org/10.1152/japplphysiol.00933.2009
publishDate 2010
physical 159-170
description <jats:p> For many years, acetylcholine has been known to contribute to the control of breathing and sleep. To probe further the contributions of cholinergic rostral pontine systems in control of breathing, we designed this study to test the hypothesis that microdialysis (MD) of the muscarinic receptor antagonist atropine into the pontine respiratory group (PRG) would decrease breathing more in animals while awake than while in NREM sleep. In 16 goats, cannulas were bilaterally implanted into rostral pontine tegmental nuclei ( n = 3), the lateral ( n = 3) or medial ( n = 4) parabrachial nuclei, or the Kölliker-Fuse nucleus (KFN; n = 6). After &gt;2 wk of recovery from surgery, the goats were studied during a 45-min period of MD with mock cerebrospinal fluid (mCSF), followed by at least 30 min of recovery and a second 45-min period of MD with atropine. Unilateral and bilateral MD studies were completed during the day and at night. MD of atropine into the KFN at night decreased pulmonary ventilation and breathing frequency and increased inspiratory and expiratory time by 12–14% during both wakefulness and NREM sleep. However, during daytime studies, MD of atropine into the KFN had no effect on these variables. Unilateral and bilateral nighttime MD of atropine into the KFN increased levels of NREM sleep by 63 and 365%, respectively. MD during the day or at night into the other three pontine sites had minimal effects on any variable studied. Finally, compared with MD of mCSF, bilateral MD of atropine decreased levels of acetylcholine and choline in the effluent dialysis fluid. Our data support the concept that the KFN is a significant contributor to cholinergically modulated control of breathing and sleep. </jats:p>
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author Bonis, J. M., Neumueller, S. E., Krause, K. L., Kiner, T., Smith, A., Marshall, B. D., Qian, B., Pan, L. G., Forster, H. V.
author_facet Bonis, J. M., Neumueller, S. E., Krause, K. L., Kiner, T., Smith, A., Marshall, B. D., Qian, B., Pan, L. G., Forster, H. V., Bonis, J. M., Neumueller, S. E., Krause, K. L., Kiner, T., Smith, A., Marshall, B. D., Qian, B., Pan, L. G., Forster, H. V.
author_sort bonis, j. m.
container_issue 1
container_start_page 159
container_title Journal of Applied Physiology
container_volume 109
description <jats:p> For many years, acetylcholine has been known to contribute to the control of breathing and sleep. To probe further the contributions of cholinergic rostral pontine systems in control of breathing, we designed this study to test the hypothesis that microdialysis (MD) of the muscarinic receptor antagonist atropine into the pontine respiratory group (PRG) would decrease breathing more in animals while awake than while in NREM sleep. In 16 goats, cannulas were bilaterally implanted into rostral pontine tegmental nuclei ( n = 3), the lateral ( n = 3) or medial ( n = 4) parabrachial nuclei, or the Kölliker-Fuse nucleus (KFN; n = 6). After &gt;2 wk of recovery from surgery, the goats were studied during a 45-min period of MD with mock cerebrospinal fluid (mCSF), followed by at least 30 min of recovery and a second 45-min period of MD with atropine. Unilateral and bilateral MD studies were completed during the day and at night. MD of atropine into the KFN at night decreased pulmonary ventilation and breathing frequency and increased inspiratory and expiratory time by 12–14% during both wakefulness and NREM sleep. However, during daytime studies, MD of atropine into the KFN had no effect on these variables. Unilateral and bilateral nighttime MD of atropine into the KFN increased levels of NREM sleep by 63 and 365%, respectively. MD during the day or at night into the other three pontine sites had minimal effects on any variable studied. Finally, compared with MD of mCSF, bilateral MD of atropine decreased levels of acetylcholine and choline in the effluent dialysis fluid. Our data support the concept that the KFN is a significant contributor to cholinergically modulated control of breathing and sleep. </jats:p>
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spelling Bonis, J. M. Neumueller, S. E. Krause, K. L. Kiner, T. Smith, A. Marshall, B. D. Qian, B. Pan, L. G. Forster, H. V. 8750-7587 1522-1601 American Physiological Society Physiology (medical) Physiology http://dx.doi.org/10.1152/japplphysiol.00933.2009 <jats:p> For many years, acetylcholine has been known to contribute to the control of breathing and sleep. To probe further the contributions of cholinergic rostral pontine systems in control of breathing, we designed this study to test the hypothesis that microdialysis (MD) of the muscarinic receptor antagonist atropine into the pontine respiratory group (PRG) would decrease breathing more in animals while awake than while in NREM sleep. In 16 goats, cannulas were bilaterally implanted into rostral pontine tegmental nuclei ( n = 3), the lateral ( n = 3) or medial ( n = 4) parabrachial nuclei, or the Kölliker-Fuse nucleus (KFN; n = 6). After &gt;2 wk of recovery from surgery, the goats were studied during a 45-min period of MD with mock cerebrospinal fluid (mCSF), followed by at least 30 min of recovery and a second 45-min period of MD with atropine. Unilateral and bilateral MD studies were completed during the day and at night. MD of atropine into the KFN at night decreased pulmonary ventilation and breathing frequency and increased inspiratory and expiratory time by 12–14% during both wakefulness and NREM sleep. However, during daytime studies, MD of atropine into the KFN had no effect on these variables. Unilateral and bilateral nighttime MD of atropine into the KFN increased levels of NREM sleep by 63 and 365%, respectively. MD during the day or at night into the other three pontine sites had minimal effects on any variable studied. Finally, compared with MD of mCSF, bilateral MD of atropine decreased levels of acetylcholine and choline in the effluent dialysis fluid. Our data support the concept that the KFN is a significant contributor to cholinergically modulated control of breathing and sleep. </jats:p> A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep Journal of Applied Physiology
spellingShingle Bonis, J. M., Neumueller, S. E., Krause, K. L., Kiner, T., Smith, A., Marshall, B. D., Qian, B., Pan, L. G., Forster, H. V., Journal of Applied Physiology, A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep, Physiology (medical), Physiology
title A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_full A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_fullStr A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_full_unstemmed A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_short A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
title_sort a role for the kölliker-fuse nucleus in cholinergic modulation of breathing at night during wakefulness and nrem sleep
title_unstemmed A role for the Kölliker-Fuse nucleus in cholinergic modulation of breathing at night during wakefulness and NREM sleep
topic Physiology (medical), Physiology
url http://dx.doi.org/10.1152/japplphysiol.00933.2009