Your search keyword '"Davies RO"' showing total 8 results

1. Changes in serotonin level in the hypoglossal nucleus region during carbachol-induced atonia.

Author

Kubin L, Reignier C, Tojima H, Taguchi O, Pack AI, and Davies RO

Subjects

8-Hydroxy-2-(di-n-propylamino)tetralin pharmacology, Animals, Carbachol pharmacology, Cats, Decerebrate State, Hydroxyindoleacetic Acid metabolism, Microdialysis, Muscular Diseases chemically induced, Muscular Diseases physiopathology, Pons drug effects, Sleep, REM physiology, Brain Stem metabolism, Hypoglossal Nerve physiology, Muscle Tonus, Muscular Diseases metabolism, Serotonin metabolism

Abstract

The excitability of hypoglossal (XII) motoneurons innervating genioglossal muscles is markedly suppressed during the rapid-eye-movement (REM) stage of sleep. This may contribute to airway obstructions in sleep apnea patients. Based on our earlier studies in decerebrate cats using injections of carbachol into the pons to induce a REM sleep-like atonia and microinjections of serotonin (5HT) into the XII motor nucleus, we hypothesized that a sleep-related withdrawal of the serotonergic excitatory input to XII motoneurons may play a major role in these processes. To test one aspect of this hypothesis, we inserted microdialysis probes into the XII nucleus region of decerebrate, paralyzed, vagotomized and artificially ventilated cats. The probes were perfused without or with the addition of a 5HT reuptake blocker, clomipramine. The levels of 5HT and its metabolite, 5-hydroxyindoleacetic acid (5HIAA), were determined using HPLC and electrochemical detection in dialysate samples collected over successive 20 min periods under four successive experimental conditions: control (at least 2 h after probe insertion); during the postural atonia and respiratory depression produced by pontine microinjection of carbachol; recovery from the effects of carbachol produced by pontine microinjection of atropine; and, to verify that the presence of 5HT in the dialysate was related to the activity of serotonergic cells of the brainstem, following administration of 8-OH-DPAT, a 5HT 1A receptor agonist known to suppress activity in the serotonergic cells of the raphe system. After correcting for recovery rates of individual probes, the mean control 5HT level in the extracellular space of the XII nucleus region was 7.9 +/- 4.4 nM (S.D.) in eight experiments without reuptake blockers. During the carbachol-induced depression, it was reduced to 70 +/- 20% of the pre-carbachol level. It increased to the original control level 98 +/- 27% after pontine injection of atropine. 8-OH-DPAT reduced the 5HT level to 43 +/- 14% of the post-atropine level. Changes in the 5HIAA level were not as consistent as for 5HT and did not reach statistical significance under any of the experimental conditions. Thus, a functionally significant amount of 5HT is present in the extracellular space within the XII nucleus region, and its decrement during carbachol-induced, REM sleep-like atonia is likely to reflect that occurring during natural REM sleep; this may contribute to the decreased tone of upper airway muscles and airway patency.

Published

1994

2. Suppression of hypoglossal motoneurons during the carbachol-induced atonia of REM sleep is not caused by fast synaptic inhibition.

Author

Kubin L, Kimura H, Tojima H, Davies RO, and Pack AI

Subjects

Animals, Bicuculline analogs & derivatives, Bicuculline pharmacology, Cats, Decerebrate State, Female, Functional Laterality, Hypoglossal Nerve drug effects, Male, Motor Neurons drug effects, Muscimol pharmacology, Reference Values, Sleep, REM drug effects, Strychnine pharmacology, Synapses drug effects, Time Factors, Carbachol pharmacology, Hypoglossal Nerve physiology, Motor Neurons physiology, Muscle Tonus drug effects, Sleep, REM physiology, Synapses physiology

Abstract

The depression of upper airway motor activity that develops during the rapid eye movement (REM) stage of sleep is a major factor allowing upper airway obstructions to occur in patients with sleep apnea syndrome. Microinjections of carbachol, a cholinergic agonist, into the dorsal pontine tegmentum of chronically instrumented cats produce REM sleep. In acutely decerebrate cats, carbachol induces postural atonia, eye movements and a depression of the motor output to respiratory pump and upper airway muscles. In lumbar motoneurons, the depression of activity is due to a glycinergic inhibition that has the same characteristics during natural REM sleep in chronic cats and carbachol-induced atonia in decerebrate cats (Neurophysiology, 57 (1987) 1118-1129). The mechanisms that lead to the suppression of upper airway motoneuronal activity during REM sleep are unknown. In this study, we assessed whether the depression of hypoglossal (XII) nerve activity induced by pontine carbachol injections is caused by inhibitory amino acids acting within the XII nucleus. In decerebrate, paralyzed and artificially ventilated cats, we recorded the activities of both XII nerves (genioglossal branches), one phrenic and a cervical motor branch (to monitor postural activity). Postural atonia and respiratory depression were induced by pontine carbachol injections. The inhibitory amino acid receptor antagonists, strychnine (glycine receptors) or bicuculline (GABAA receptors), were injected (100-250 nl; 1.0-2.5 mM) into one XII nucleus (the other served as control) in an attempt to reduce or abolish the depression subsequently induced by pontine carbachol. Prior to the carbachol injections, both antagonists caused similar elevations of XII nerve activity on the treated side (30-40%). However, following carbachol, the XII nerve activity on the treated side was depressed to about 25% of the (pre-antagonist and pre-carbachol) control level, whereas the depression on the untreated side was slightly greater, to 10-15% of the control. Additional injections of antagonists during the carbachol-induced depression produced no further increase in nerve activity. This minor effect of the antagonists on the carbachol-induced depression of XII nerve activity was in contrast to the marked disinhibitory effects that both antagonists had on the XII nerve response to electrical stimulation of the lingual nerve. The latter was used as a control for the ability of strychnine and bicuculline to exert disinhibitory effects within the XII nucleus. Thus, there is little, if any, contribution of these inhibitory amino acids to the depression of XII motoneurons during the carbachol-induced, REM sleep-like postural and respiratory depression; mechanisms other than fast synaptic inhibition must be involved.

Published

1993

3. Behavior of VRG neurons during the atonia of REM sleep induced by pontine carbachol in decerebrate cats.

Author

Kubin L, Kimura H, Tojima H, Pack AI, and Davies RO

Subjects

Animals, Carbachol pharmacology, Cats, Decerebrate State, Electric Stimulation, Electrophysiology, Evoked Potentials, Female, Intercostal Nerves physiology, Male, Medulla Oblongata cytology, Muscle Tonus physiology, Phrenic Nerve physiology, Respiratory Center cytology, Medulla Oblongata physiology, Motor Neurons physiology, Muscle Tonus drug effects, Pons physiology, Respiratory Center physiology, Sleep, REM physiology

Abstract

The microinjection of carbachol into the pons of acute decerebrate cats elicits a REM sleep-like atonia and a profound suppression of respiratory motoneuronal activity (J. Appl. Physiol., 69 (1990) 2280-2289). To assess whether this suppression is mediated by medullary neurons that provide respiratory drive to motoneurons of the respiratory pump muscles (diaphragm and intercostals), we studied the effect of pontine carbachol on the activity of neurons of the ventral respiratory group (VRG) in decerebrate, vagotomized, paralyzed and artificially ventilated cats. VRG neurons were recorded extracellularly along with the activity of phrenic and intercostal (external and internal) nerves. Both inspiratory (I) and expiratory (E) VRG neurons had incrementing, ramp-like bursts of activity during their firing periods and were not vagal motoneurons. Carbachol produced a depression of the peak firing rate in most (42/57) neurons studied. However, five cells showed no change and ten had an increase in activity in spite of consistent depression at the motoneuronal level. For the total population of cells (34 I and 23 E), the peak firing was reduced to 88.5% +/- 16.3 (S.D.) of control. The simultaneously recorded phrenic activity was reduced to 77.9% +/- 11.5, while inspiratory intercostal activity fell to 63.4% +/- 21.6 and expiratory to 23.2% +/- 21.2 of control. The carbachol-induced changes in peak firing of both I and E cells were quantitatively similar, and positively correlated to changes in peak phrenic activity. Analysis of this correlation suggested that phrenic and intercostal activities will be depressed to some degree by carbachol even when the average VRG cell activity remains unchanged. In addition, our data show that VRG cells may receive a combination of inhibitory and excitatory inputs during the carbachol-induced depression of respiratory motoneurons. Thus, although some disfacilitation from VRG cells may occur, there must be additional inhibitory or disfacilitatory pathways that mediate the decrease in activity of both phrenic and intercostal motoneurons that accompanies the REM sleep-like atonia.

Published

1992

4. A neuroanatomical search for glossopharyngeal efferents to the carotid body using the retrograde transport of horseradish peroxidase.

Author

Kalia M and Davies RO

Subjects

Animals, Axonal Transport, Brain Stem anatomy & histology, Carotid Sinus innervation, Cats, Efferent Pathways anatomy & histology, Horseradish Peroxidase, Nerve Endings anatomy & histology, Spinal Cord anatomy & histology, Carotid Body anatomy & histology, Glossopharyngeal Nerve anatomy & histology

Published

1978

5. The responses of I beta cells to increases in the rate of lung inflation.

Author

Marino PL, Davies RO, and Pack AI

Subjects

Afferent Pathways physiology, Animals, Cats, Evoked Potentials, Female, Lung Volume Measurements, Male, Recruitment, Neurophysiological, Vagus Nerve physiology, Lung innervation, Mechanoreceptors physiology, Medulla Oblongata physiology, Pulmonary Stretch Receptors physiology, Respiration

Abstract

The activity of inspiratory cells in the region of the nucleus of the tractus solitarius (NTS) was recorded extracellularly in paralyzed, artificially ventilated cats either during chloralose-urethane anesthesia or following midcollicular decerebration. Twenty-three of the 68 inspiratory cells recorded in the region of the NTS were classified as I beta cells on the basis of their response to withholding lung inflation. The dynamic sensitivity of I beta cells was determined by studying their response to increases in the rate of lung inflation at constant peak volume. The I beta cells in this study showed 3 distinct patterns of response to increases in the rate of inflation. Five cells showed no change in firing pattern (fixed firing pattern). Ten cells showed an increase in the rate of rise of cell activity but no change in peak frequency (low dynamic sensitivity). Eight cells showed increases in both the rate of rise of cell activity and peak frequency (high dynamic sensitivity). It was concluded that I beta cells are not a functionally homogeneous population, at least in terms of their dynamic sensitivity. Cells showing fixed firing patterns have the characteristics of off-switch neurons. Cells with low levels of dynamic sensitivity may receive afferents from pulmonary stretch receptors. Cells showing a high degree of dynamic sensitivity may receive afferents from rapidly adapting receptors. The fact that I beta cells are not a functionally homogeneous population may explain the many divergent observations reported from studies of these cells.

Published

1981

6. Sites of termination and relay of pulmonary rapidly adapting receptors as studied by spike-triggered averaging.

Author

Kubin L and Davies RO

Subjects

Action Potentials, Afferent Pathways physiology, Animals, Cattle, Functional Laterality, Physical Stimulation, Lung physiology, Mechanoreceptors physiology, Medulla Oblongata physiology, Neurons physiology

Abstract

The sites of termination and relay of pulmonary rapidly-adapting receptors (RARs) were determined by averaging the extracellular field potentials produced in the nucleus tractus solitarii of the cat by individual RAR neurons. Action potentials of individual RARs were recorded extracellularly in the nodose ganglion during mechanical stimulation of the receptive field in the lung and used as triggers for the averaging. The averaged records (2000-4000 sweeps) revealed the presence of terminal and focal synaptic potentials. These potentials, indicating the presence of pre- and postsynaptic elements at the recording site, were found ipsilaterally in the caudal medial and commissural subnuclei and contralaterally in the commissural subnucleus.

Published

1988

7. Effects of lung inflation on the excitability of dorsal respiratory group neurons.

Author

Davies RO, Metzler J, Silage DA, and Pack AI

Subjects

Adaptation, Physiological, Animals, Cats, Evoked Potentials, Female, Male, Mechanoreceptors physiology, Models, Neurological, Phrenic Nerve physiology, Reaction Time physiology, Lung innervation, Respiration, Respiratory Center physiology, Vagus Nerve physiology

Abstract

The effect of lung inflation on the excitability of inspiratory neurons of the dorsal respiratory group was studied in decerebrate, paralyzed, artificially ventilated cats. Variations in the antidromic latency (AL) were used as a measure of the changes in excitability. The antidromic responses of single cells were recorded extracellularly during electrical stimulation (20 Hz) of their spinal axons. Single-breath test inflations were delivered at the onset of inspiration (I) or expiration (E), and then maintained for the duration of that respiratory phase. In the absence of inflation during E, most of the inspiratory cells underwent progressive lengthening of the AL, indicating inhibition or disfacilitation. This effect was stronger in I beta than in I alpha cells but there was considerable overlap. In every cell (21 I alpha, 17 I beta), inflation during E caused a prompt AL shortening (excitation or disinhibition) that was evident in single tests. On average, I beta neurons were more strongly excited by the test inflation during E, but again there was considerable overlap. The excitation was maintained for the duration of the inflation, indicating that pulmonary stretch receptor afferents (PSR) were involved. The response to slow inflations (that preferentially excite PSR) was a progressive shortening of the AL that mirrored the increase in lung volume. The results emphasize the qualitative similarity in the responses of I alpha and I beta neurons to lung inflation and in their excitability changes during normal respiratory cycles.

Published

1986

8. Distribution of carotid body chemoreceptor afferents in the medulla of the cat.

Author

Davies RO and Edwards MW Jr

Subjects

Animals, Brain Mapping, Carotid Body physiology, Cats, Chemoreceptor Cells drug effects, Electric Stimulation, Hydrogen Cyanide pharmacology, Nerve Endings physiology, Neurons, Afferent physiology, Reflex, Monosynaptic, Sodium, Stimulation, Chemical, Carotid Body anatomy & histology, Chemoreceptor Cells physiology, Evoked Potentials, Medulla Oblongata anatomy & histology, Neurons physiology

Published

1973