The neurons of the lateral hypothalamus that contain hypocretin/orexin (hcrt/orx) are thought to ... more The neurons of the lateral hypothalamus that contain hypocretin/orexin (hcrt/orx) are thought to promote arousal through the excitatory action they exert on the multiple areas to which they project within the CNS. We show here that the hcrt/orx peptides can also exert a strong action on the amygdala, a structure known for its implication in emotional aspects of behavior. Indeed, the hcrt/orx peptides, applied in acute rat brain slices, excite a specific class of "low threshold burst" neurons in the central medial (CeM) nucleus which is considered as a major output of the amygdala. These excitatory effects are postsynaptic, mediated by Hcrt2/OX2 receptors and result from the closure of a potassium conductance. They occur on a class of neurons that are also excited by vasopressin acting through V1a receptors. These results suggest that the hcrt/orx system can act through the amygdala to augment arousal and evoke the autonomic and behavioral responses associated with fear, stress or emotion. (M. Mühlethaler). Abbreviations: ACSF, artificial cerebrospinal fluid; AVP, arginine-vasopressin; CeA, central nucleus of the amygdala; CeC, central capsular nucleus of the amygdala; CeL, central lateral nucleus of the amygdala; CeM, central medial nucleus of the amygdala; CRF, corticotropin releasing factor; d[Cha 4 ]AVP, [1-deamino-4-cyclohexylalanine] arginine vasopressin; hcrt/orx, hypocretin/orexin; Hepes, 4-(2hydroxyethyl)piperazine-1-ethanesulfonic acid; LTB, low threshold burst; S.E.M., standard error of the mean.
The basal forebrain (BF) cholinergic neurons play an important role in cortical activation and ar... more The basal forebrain (BF) cholinergic neurons play an important role in cortical activation and arousal and are active in association with cortical activation of waking and inactive in association with cortical slow wave activity of sleep. In view of findings that GABAA receptors (Rs) and inhibitory transmission undergo dynamic changes as a function of prior activity, we investigated whether the GABAARs on cholinergic cells might undergo such changes as a function of their prior activity during waking vs. sleep. In the brains of rats under sleep control (SC), sleep deprivation (SD) or sleep recovery (SR) conditions in the 3 hours prior to sacrifice, we examined immunofluorescent staining for beta2-3 subunit GABAARs on choline acetyltransferase (ChAT) immunopositive (+) cells in the magnocellular BF. In sections also stained for c-Fos, beta2-3 GABAARs were present on ChAT+ neurons which expressed c-Fos in the SD group alone and were variable or undetectable on other ChAT+ cells across...
Acetylcholine (ACh) plays an important role in the promotion of paradoxical sleep (PS) with muscl... more Acetylcholine (ACh) plays an important role in the promotion of paradoxical sleep (PS) with muscle atonia through the muscarinic-2 receptor (M2R) in the mesopontine tegmentum. Conversely, orexin (Orx or hypocretin) appears to be critical for the maintenance of waking with muscle tone through the orexin-2 (or hypocretin-B) receptor (Orx2R), which is lacking in dogs having narcolepsy with cataplexy. In dual-immunostained material viewed under fluorescence microscopy, we examined the presence and distribution of M2R or Orx2R labeling on all neuronal nuclei (NeuN)-stained neurons or on glutamic acid decarboxylase (GAD)-stained neurons through the mesopontine tegmentum. Applying stereological analysis, we determined that many neurons bear M2Rs on their membrane (Ϸ6,300), including relatively large, non-GABAergic cells, which predominate (Ͼ75%) in the oral and caudal pontine (PnO and PnC) reticular fields, and small, GABAergic cells (Ϸ2,800), which predominate (Ͼ80%) in the mesencephalic (Mes) reticular formation. Many neurons bear Orx2Rs on their membrane (Ϸ6,800), including relatively large, non-GABAergic cells, which predominate (Ͼ70%) through all reticular fields, and comparatively few GABAergic cells (Ϸ700). In triple-immunostained material viewed by confocal microscopy, many large neurons in PnO and PnC appear to bear both M2Rs and Orx2Rs on their membrane, indicating that ACh and Orx could exert opposing influences of inhibition vs. excitation on putative reticulo-spinal neurons and thus attenuate vs. facilitate activity and muscle tone. A few GABAergic cells bear both receptors and could as PS inhibitor neurons serve under these different influences to control PS effector neurons and accordingly gate PS and muscle atonia appropriately across sleep-wake states.
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 2000
The brainstem contains the neural systems that are necessary for the generation of the state of p... more The brainstem contains the neural systems that are necessary for the generation of the state of paradoxical sleep (PS) and accompanying muscle atonia. Important for its initiation are the pontomesencephalic cholinergic neurons that project into the pontomedullary reticular formation and that we have recently shown increase c-Fos expression as a reflection of neural activity in association with PS rebound after deprivation in rats (Maloney et al. , 1999). As a continuation, we examined in the present study c-Fos expression in the pontomedullary reticular and raphe neurons, including importantly GABAergic neurons [immunostained for glutamic acid decarboxylase (GAD)] and serotonergic neurons [immunostained for serotonin (Ser)]. Numbers of single-labeled c-Fos+ neurons were significantly increased with PS rebound only in the pars oralis of the pontine reticular nuclei (PnO), where numbers of GAD+/c-Fos+ neurons were conversely significantly decreased. c-Fos+ neurons were positively corr...
The basal forebrain (BF) plays an important role in modulating cortical activity and influencing ... more The basal forebrain (BF) plays an important role in modulating cortical activity and influencing attention, learning and memory. These activities are fulfilled importantly yet not entirely by cholinergic neurons. Noncholinergic neurons also contribute and comprise GABAergic neurons and other possibly glutamatergic neurons. The aim of the present study was to estimate the total number of cells in the BF of the rat and the proportions of that total represented by cholinergic, GABAergic and glutamatergic neurons. For this purpose, cells were counted using unbiased stereological methods within the medial septum, diagonal band, magnocellular preoptic nucleus, substantia innominata and globus pallidus in sections stained for Nissl substance and/or the neurotransmitter enzymes, choline acetyltransferase (ChAT), glutamic acid decarboxylase (GAD) or phosphate-activated glutaminase (PAG). In Nissl-stained sections, the total number of neurons in the BF was estimated as approximately 355,000 a...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 2000
The basal forebrain ostensibly plays a dual role in the modulation of cortical activation and beh... more The basal forebrain ostensibly plays a dual role in the modulation of cortical activation and behavioral state. It is essential for stimulating cortical activation in association with waking (and paradoxical sleep), yet also important for attenuating cortical activation and promoting slow wave sleep. Using juxtacellular recording and labeling of neurons with Neurobiotin followed by immunohistochemical staining for glutamic acid decarboxylase (GAD), we studied the discharge properties of identified GABAergic basal forebrain neurons in relation to electroencephalographic (EEG) activity in urethane-anesthetized rats to determine the part or parts that they may play in this dual role. The GABAergic neurons displayed distinct discharge profiles in relation to somatosensory stimulation-evoked cortical activation. Whereas a significant minority increased its average discharge rate, the majority decreased its average discharge rate in association with cortical activation. Moreover, subgroup...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 2000
Cholinergic basal forebrain neurons have long been thought to play an important role in cortical ... more Cholinergic basal forebrain neurons have long been thought to play an important role in cortical activation and behavioral state, yet the precise way in which they influence these processes has yet to be fully understood. Here, we have examined the effects on the electroencephalogram (EEG) and sleep-wake state of basal forebrain administration of neurotensin (NT), a neuropeptide that has been shown in vitro to potently and selectively modulate the cholinergic cells. Microinjection of (0.1-3.0 mm) NT into the basal forebrain of freely moving, naturally waking-sleeping rats produced a dose-dependent decrease in delta ( approximately 1-4 Hz) and increase in both theta ( approximately 4-9 Hz) and high-frequency gamma activity (30-60 Hz) across cortical, areas with no increase in the electromyogram. These EEG changes were accompanied by concomitant decreases in slow wave sleep (SWS) and transitional SWS (tSWS), increases in wake, and most remarkably, increases in paradoxical sleep (PS) a...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 2000
Multiple lines of evidence indicate that cholinergic basal forebrain neurons play an important ro... more Multiple lines of evidence indicate that cholinergic basal forebrain neurons play an important role in the regulation of cortical activity and state. However, the discharge properties of cholinergic cells in relation to the electroencephalogram (EEG) are not yet known. In the present study, cells were recorded in the basal forebrain in association with cortical EEG activity in urethane-anesthetized rats, and their discharge was examined during EEG irregular slow activity and during stimulation-induced cortical activation, characterized by rhythmic slow (theta) and high-frequency (gamma) activities. Recorded cells were labeled with Neurobiotin (Nb), using the juxtacellular technique and identified as cholinergic by immunohistochemical staining for choline acetyltransferase (ChAT). Nb-positive/ChAT-positive neurons were distinctive and significantly different from Nb-positive/ChAT-negative neurons, which were heterogeneous in their discharge properties. All Nb(+)/ChAT(+) cells increas...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 1999
Multiple lines of evidence indicate that neurons within the pontomesencephalic tegmentum are crit... more Multiple lines of evidence indicate that neurons within the pontomesencephalic tegmentum are critically involved in the generation of paradoxical sleep (PS). From single-unit recording studies, evidence suggests that unidentified but "possibly" cholinergic tegmental neurons discharge at higher rates during PS than during slow wave sleep or even waking and would thus play an active role, whereas "presumed" monoaminergic neurons cease firing during PS and would thus play a permissive role in PS generation. In the present study performed on rats, c-Fos immunostaining was used as a reflection of neuronal activity and combined with immunostaining for choline acetyltransferase (ChAT), serotonin (Ser), tyrosine hydroxylase (TH), or glutamic acid decarboxylase (GAD) for immunohistochemical identification of active neurons during PS recovery ( approximately 28% of recording time) as compared with PS deprivation (0%) and PS control (approximately 15%) conditions. With PS r...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 1997
In the present study, we investigated changes in regional cerebral blood flow (rCBF) in humans du... more In the present study, we investigated changes in regional cerebral blood flow (rCBF) in humans during the progression from relaxed wakefulness through slow wave sleep (SWS). These changes were examined as a function of spindle (12-15 Hz) and delta (1.5-4.0 Hz) electroencephalographic (EEG) activity of SWS. rCBF was studied with positron emission tomography (PET) using the H215O bolus method. A maximum of six 60 sec scans were performed per subject during periods of wakefulness and stages 1-4 of SWS, as determined by on-line EEG monitoring. Spectral analysis was performed off-line on the EEG epochs corresponding to the scans for computation of activity in specific frequency bands. The relationship between EEG frequency band activity and normalized rCBF was determined by means of a voxel-by-voxel analysis of covariance. delta activity covaried negatively with rCBF most markedly in the thalamus and also in the brainstem reticular formation, cerebellum, anterior cingulate, and orbitofro...
Considerable evidence has shown that both cholinergic and histaminergic neurons in the brain may ... more Considerable evidence has shown that both cholinergic and histaminergic neurons in the brain may act to facilitate processes of cortical activation that occur during wakefulness. In the present study, the potential influence of histaminergic neurons upon cholinergic neurons of the basal forebrain was investigated in guinea-pig basal forebrain slices. We found that electrophysiologically identified and immunohistochemically verified cholinergic neurons of the nucleus basalis were depolarized and excited by histamine, as manifested by an increase in tonic firing. The depolarization was associated with an increase in membrane input resistance. The effect of histamine persisted in the presence of either tetrodotoxin or a high-magnesium/low-calcium solution, indicating that it is postsynaptic. By a process of elimination, the participation in this response of the three described histamine receptors was examined. Involvement of H3 receptors was excluded on the basis that the H3 agonist (R)-alpha-methyl-histamine had no direct effect, and the H3 antagonist, thioperamide, did not block the effect of histamine. In contrast, the presence of a small response to impromidine, a selective agonist of H2 receptors, and the partial block of the response to histamine by the H2 receptor antagonist, cimetidine, indicated the participation of H2 receptors. Finally, the complete elimination of histamine's effect occurred when low doses of the H1 antagonist, mepyramine, were added to the H2 antagonist, cimetidine, indicating the involvement and predominance of H1 receptors in the response. Our data thus suggest that histamine excites nucleus basalis cholinergic neurons by a concomitant activation of H1 and H2 receptors. Histaminergic tuberomammillary neurons may accordingly facilitate tonic firing of cholinergic neurons during wakefulness. Cholinergic basalis neurons could thus act in tandem with histaminergic neurons during periods of arousal to collectively promote widespread cortical activation.
Basal forebrain neurons play important parts in processes of cortical activation and memory that ... more Basal forebrain neurons play important parts in processes of cortical activation and memory that have been attributed to the cortically projecting, cholinergic neurons. Yet, non-cholinergic neurons also project to the cerebral cortex and also appear to participate in processes of cortical modulation and plasticity. GABAergic neurons compose a portion of the cortically projecting cell group, but do not fully account for the non-cholinergic cell contingent. In the present study in the rat, we investigated whether the non-cholinergic, non-GABAergic cell component might be composed of glutamatergic neurons. We examined afferents to the entorhinal cortex, which is known to be modulated by basal forebrain neurons and to be critically involved in memory. Dual immunofluorescent staining was performed for cholera toxin, as retrograde tracer, and phosphate-activated glutaminase, the synthetic enzyme for the neurotransmitter pool of glutamate. The retrogradely labeled cells were distributed across the basal forebrain through the medial septum, diagonal band, magnocellular preoptic area and substantia innominata. The major proportion (approximately 80%) of the retrogradely labeled cells was found to be immunopositive for phosphate-activated glutaminase. Equal minor proportions (approximately 40%) were immunopositive for choline acetyltransferase and glutamic acid decarboxylase. In other material dual-immunostained for neurotransmitter enzymes, approximately 95% of choline acetyltransferase- and approximately 60% of glutamic acid decarboxylase-immunopositive neurons were also immunopositive for phosphate-activated glutaminase. From these results it appears that a significant proportion of these cell groups, including their cortically projecting contingents, could synthesize glutamate together with acetylcholine or GABA as neurotransmitters and another proportion of cells could synthesize glutamate alone. Accordingly, as either co-transmitter or primary transmitter within basalocortical afferents, glutamate could have the capacity to modulate the entorhinal cortex and promote its role in memory.
In a previous study we proposed that the depolarized state of the wake-promoting hypocretin/orexi... more In a previous study we proposed that the depolarized state of the wake-promoting hypocretin/orexin (hcrt/orx) neurons was independent of synaptic inputs as it persisted in tetrodotoxin and low calcium/high magnesium solutions. Here we show first that these cells are hyperpolarized when external sodium is lowered, suggesting that non-selective cation channels (NSCCs) could be involved. As canonical transient receptor channels (TRPCs) are known to form NSCCs, we looked for TRPCs subunits using single-cell RT-PCR and found that TRPC6 mRNA was detectable in a small minority, TRPC1, TRPC3 and TRPC7 in a majority and TRPC4 and 5 in the vast majority (,90%) of hcrt/orx neurons. Using intracellular applications of TRPC antibodies against subunits known to form NSCCs, we then found that only TRPC5 antibodies elicited an outward current, together with hyperpolarization and inhibition of the cells. These effects were blocked by co-application of a TRPC5 antigen peptide. Voltage-clamp ramps in the presence or absence of TRPC5 antibodies indicated the presence of a current with a reversal potential close to 215 mV. Application of the non-selective TRPC channel blocker, flufenamic acid, had a similar effect, which could be occluded in cells pre-loaded with TRPC5 antibodies. Finally, using the same TRPC5 antibodies we found that most hcrt/orx cells show immunostaining for the TRPC5 subunit. These results suggest that hcrt/orx neurons are endowed with a constitutively active non-selective cation current which depends on TRPC channels containing the TRPC5 subunit and which is responsible for the depolarized and active state of these cells. Citation: Cvetkovic-Lopes V, Eggermann E, Uschakov A, Grivel J, Bayer L, et al. (2010) Rat Hypocretin/Orexin Neurons Are Maintained in a Depolarized State by TRPC Channels. PLoS ONE 5(12): e15673.
The orexins (orexin A and B, also known as hypocretin 1 and 2) are two recently identified neurop... more The orexins (orexin A and B, also known as hypocretin 1 and 2) are two recently identified neuropeptides (de Lecea et al., 1998; Sakurai et al., 1998) which are importantly implicated in the control of wakefulness (for reviews see Hungs and Mignot, 2001; van den Pol, 2000; Willie et al., 2001 ). Indeed, alteration in these peptides' precursor, their receptors or the hypothalamic neurones that produce them leads to the sleep disorder narcolepsy (Chemelli et al., 1999; Lin et al., 1999; Peyron et al., 2000; Thannickal et al., 2000). The mechanisms by which the orexins modulate wakefulness, however, are still unclear. Their presence in fibres coursing from the hypothalamus (Peyron et al., 1998) up to the preoptic area (POA) and basal forebrain (BF) suggests that they might influence the important sleep and waking neural systems situated there (Jones, 2000). The present study, performed in rat brain slices, demonstrates, however, that the orexins have no effect on the GABA sleep-promoting neurones of the POA, whereas they have a strong and direct excitatory effect on the cholinergic neurones of the contiguous BF. In addition, by comparing the effects of orexin A and B we demonstrate here that orexins' action depends upon orexin type 2 receptors (OX(2)), which are those lacking in narcoleptic dogs (Lin et al., 1999). These results suggest that the orexins excite cholinergic neurones that release acetylcholine in the cerebral cortex and thereby contribute to the cortical activation associated with wakefulness.
Hypocretin/orexin (Hcrt/Orx) and melanin concentrating hormone (MCH) are peptides contained in ov... more Hypocretin/orexin (Hcrt/Orx) and melanin concentrating hormone (MCH) are peptides contained in overlapping cell groups of the lateral hypothalamus and commonly involved in regulating sleep-wake states and energy balance, though likely in different ways. To see if these neurons are similarly or differentially modulated by neurotransmitters of the major brainstem arousal systems, the effects of noradrenaline (NA) and carbachol, a cholinergic agonist, were examined on identified Hcrt/Orx and MCH neurons in rat hypothalamic slices. Whereas both agonists depolarized and excited Hcrt/Orx neurons, they both hyperpolarized MCH neurons by direct postsynaptic actions. According to the activity profiles of the noradrenergic locus coeruleus and cholinergic pontomesencephalic neurons across the sleep-waking cycle, the Hcrt/Orx neurons would be excited by NA and acetylcholine (ACh) and thus active during arousal, whereas the MCH neurons would be inhibited by NA and ACh and thus inactive during arousal while disinhibited and possibly active during slow wave sleep. According to the present pharmacological results, Hcrt/Orx neurons may thus stimulate arousal in tandem with other arousal systems, whereas MCH neurons may function in opposition with other arousal systems and thus potentially dampen arousal to promote sleep.
Several lines of evidence indicate that cholinergic basalis neu- rons play an important role in c... more Several lines of evidence indicate that cholinergic basalis neu- rons play an important role in cortical activation. The present study was undertaken to determine the effect of noradrenergic and serotonergic modulation of the cholinergic neurons on cortical EEG activity and sleep-wake states. The neurotrans- mitters were injected into the region of the basalis neurons by remote control in freely moving,
Proceedings of the National Academy of Sciences, 2009
Neurons containing melanin-concentrating hormone (MCH) are codistributed with neurons containing ... more Neurons containing melanin-concentrating hormone (MCH) are codistributed with neurons containing orexin (Orx or hypocretin) in the lateral hypothalamus, a peptide and region known to be critical for maintaining wakefulness. Evidence from knockout and c-Fos studies suggests, however, that the MCH neurons might play a different role than Orx neurons in regulating activity and sleepwake states. To examine this possibility, neurons were recorded across natural sleep-wake states in head-fixed rats and labeled by using the juxtacellular technique for subsequent immunohistochemical identification. Neurons identified as MCH؉ did not fire during wake (W); they fired selectively during sleep, occasionally during slow wave sleep (SWS) and maximally during paradoxical sleep (PS). As W-Off/Sleep-On, the MCH neurons discharged in a reciprocal manner to the W-On/Sleep-Off Orx neurons and could accordingly play a complementary role to Orx neurons in sleepwake state regulation and contribute to the pathophysiology of certain sleep disorders, such as narcolepsy with cataplexy.
We recently demonstrated, in rat brain slices, that the usual excitation by noradrenaline (NA) of... more We recently demonstrated, in rat brain slices, that the usual excitation by noradrenaline (NA) of hypocretin/orexin (hcrt/orx) neurons was changed to an inhibition following sleep deprivation (SD). Here we describe that in control condition (CC), i.e. following 2 hours of natural sleep in the morning, the a 2 -adrenergic receptor (a 2 -AR) agonist, clonidine, had no effect on hcrt/orx neurons, whereas following 2 hours of SD (SDC), it hyperpolarized the neurons by activating G-protein-gated inwardly rectifying potassium (GIRK) channels. Since concentrations of clonidine up to a thousand times (100 mM) higher than those effective in SDC (100 nM), were completely ineffective in CC, a change in the availability of G-proteins is unlikely to explain the difference between the two conditions. To test whether the absence of effect of clonidine in CC could be due to a down-regulation of GIRK channels, we applied baclofen, a GABA B agonist known to also activate GIRK channels, and found that it hyperpolarized hcrt/orx neurons in that condition. Moreover, baclofen occluded the response to clonidine in SDC, indicating that absence of effect of clonidine in CC could not be attributed to down-regulation of GIRK channels. We finally tested whether a 2 -ARs were still available at the membrane in CC and found that clonidine could reduce calcium currents, indicating that a 2 -ARs associated with calcium channels remain available in that condition. Taken together, these results suggest that a pool of a 2 -ARs associated with GIRK channels is normally down-regulated (or desensitized) in hcrt/orx neurons to only become available for their inhibition following sleep deprivation.
The basal forebrain (BF) contains cholinergic neurons that stimulate cortical activation during w... more The basal forebrain (BF) contains cholinergic neurons that stimulate cortical activation during waking. In addition, both the BF and adjacent preoptic area (POA) contain neurons that promote sleep. We examined c-Fos expression in cholinergic and GABAergic neurons in the BF and POA to determine whether they are differentially active following sleep deprivation versus recovery and whether the GABAergic neurons are
The occurrence of high-frequency g activity (30-60 Hz) and its relationship to other frequency ba... more The occurrence of high-frequency g activity (30-60 Hz) and its relationship to other frequency band activities were examined by spectral analysis of the electroencephalogram in association with sleep-wake states and spontaneous behaviors in the rat. In the electroencephalogram, 7 wave activity was evident in unfiltered and high-frequency filtered recordings, in which it was prominent during attentive or active Wake episodes and during Paradoxical Sleep, when 0-like activity was also apparent. In amplitude spectra from these episodes, multiple peaks were evident within the 7 frequency band, indicating broad-band high-frequency activity, in association with a single low-frequency peak in the 0 band. y peaks were attenuated during quiet Waking, in association with a low-frequency peak between 0 and 8, and during Slow Wave Sleep, in association with a low-frequency peak in the 8 band. In coherence spectra from ipsilateral cortical leads, peaks were also present within the 7 range and were significantly higher in Waking moving and Paradoxical Sleep than in Waking quiet and Slow Wave Sleep. In measures of frequency band amplitude, 7 activity (30.5-58.0 Hz) varied significantly across the sleep waking cycle, being similarly high during Wake and Paradoxical Sleep and lowest during Slow Wave Sleep. Across these states, y was negatively correlated with 8 (1.5~.0 Hz). In contrast, high [3 (19.0-30.0 Hz) was significantly lower in Wake than in Slow Wave Sleep and was positively correlated with 8. ? differed significantly across specific behaviors, being highest in Paradoxical Sleep with twitches and during Waking eating and moving behaviors, slightly lower in Waking attentive, lower in Waking grooming and as low in Waking quiet as during Slow Wave Sleep.
The neurons of the lateral hypothalamus that contain hypocretin/orexin (hcrt/orx) are thought to ... more The neurons of the lateral hypothalamus that contain hypocretin/orexin (hcrt/orx) are thought to promote arousal through the excitatory action they exert on the multiple areas to which they project within the CNS. We show here that the hcrt/orx peptides can also exert a strong action on the amygdala, a structure known for its implication in emotional aspects of behavior. Indeed, the hcrt/orx peptides, applied in acute rat brain slices, excite a specific class of "low threshold burst" neurons in the central medial (CeM) nucleus which is considered as a major output of the amygdala. These excitatory effects are postsynaptic, mediated by Hcrt2/OX2 receptors and result from the closure of a potassium conductance. They occur on a class of neurons that are also excited by vasopressin acting through V1a receptors. These results suggest that the hcrt/orx system can act through the amygdala to augment arousal and evoke the autonomic and behavioral responses associated with fear, stress or emotion. (M. Mühlethaler). Abbreviations: ACSF, artificial cerebrospinal fluid; AVP, arginine-vasopressin; CeA, central nucleus of the amygdala; CeC, central capsular nucleus of the amygdala; CeL, central lateral nucleus of the amygdala; CeM, central medial nucleus of the amygdala; CRF, corticotropin releasing factor; d[Cha 4 ]AVP, [1-deamino-4-cyclohexylalanine] arginine vasopressin; hcrt/orx, hypocretin/orexin; Hepes, 4-(2hydroxyethyl)piperazine-1-ethanesulfonic acid; LTB, low threshold burst; S.E.M., standard error of the mean.
The basal forebrain (BF) cholinergic neurons play an important role in cortical activation and ar... more The basal forebrain (BF) cholinergic neurons play an important role in cortical activation and arousal and are active in association with cortical activation of waking and inactive in association with cortical slow wave activity of sleep. In view of findings that GABAA receptors (Rs) and inhibitory transmission undergo dynamic changes as a function of prior activity, we investigated whether the GABAARs on cholinergic cells might undergo such changes as a function of their prior activity during waking vs. sleep. In the brains of rats under sleep control (SC), sleep deprivation (SD) or sleep recovery (SR) conditions in the 3 hours prior to sacrifice, we examined immunofluorescent staining for beta2-3 subunit GABAARs on choline acetyltransferase (ChAT) immunopositive (+) cells in the magnocellular BF. In sections also stained for c-Fos, beta2-3 GABAARs were present on ChAT+ neurons which expressed c-Fos in the SD group alone and were variable or undetectable on other ChAT+ cells across...
Acetylcholine (ACh) plays an important role in the promotion of paradoxical sleep (PS) with muscl... more Acetylcholine (ACh) plays an important role in the promotion of paradoxical sleep (PS) with muscle atonia through the muscarinic-2 receptor (M2R) in the mesopontine tegmentum. Conversely, orexin (Orx or hypocretin) appears to be critical for the maintenance of waking with muscle tone through the orexin-2 (or hypocretin-B) receptor (Orx2R), which is lacking in dogs having narcolepsy with cataplexy. In dual-immunostained material viewed under fluorescence microscopy, we examined the presence and distribution of M2R or Orx2R labeling on all neuronal nuclei (NeuN)-stained neurons or on glutamic acid decarboxylase (GAD)-stained neurons through the mesopontine tegmentum. Applying stereological analysis, we determined that many neurons bear M2Rs on their membrane (Ϸ6,300), including relatively large, non-GABAergic cells, which predominate (Ͼ75%) in the oral and caudal pontine (PnO and PnC) reticular fields, and small, GABAergic cells (Ϸ2,800), which predominate (Ͼ80%) in the mesencephalic (Mes) reticular formation. Many neurons bear Orx2Rs on their membrane (Ϸ6,800), including relatively large, non-GABAergic cells, which predominate (Ͼ70%) through all reticular fields, and comparatively few GABAergic cells (Ϸ700). In triple-immunostained material viewed by confocal microscopy, many large neurons in PnO and PnC appear to bear both M2Rs and Orx2Rs on their membrane, indicating that ACh and Orx could exert opposing influences of inhibition vs. excitation on putative reticulo-spinal neurons and thus attenuate vs. facilitate activity and muscle tone. A few GABAergic cells bear both receptors and could as PS inhibitor neurons serve under these different influences to control PS effector neurons and accordingly gate PS and muscle atonia appropriately across sleep-wake states.
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 2000
The brainstem contains the neural systems that are necessary for the generation of the state of p... more The brainstem contains the neural systems that are necessary for the generation of the state of paradoxical sleep (PS) and accompanying muscle atonia. Important for its initiation are the pontomesencephalic cholinergic neurons that project into the pontomedullary reticular formation and that we have recently shown increase c-Fos expression as a reflection of neural activity in association with PS rebound after deprivation in rats (Maloney et al. , 1999). As a continuation, we examined in the present study c-Fos expression in the pontomedullary reticular and raphe neurons, including importantly GABAergic neurons [immunostained for glutamic acid decarboxylase (GAD)] and serotonergic neurons [immunostained for serotonin (Ser)]. Numbers of single-labeled c-Fos+ neurons were significantly increased with PS rebound only in the pars oralis of the pontine reticular nuclei (PnO), where numbers of GAD+/c-Fos+ neurons were conversely significantly decreased. c-Fos+ neurons were positively corr...
The basal forebrain (BF) plays an important role in modulating cortical activity and influencing ... more The basal forebrain (BF) plays an important role in modulating cortical activity and influencing attention, learning and memory. These activities are fulfilled importantly yet not entirely by cholinergic neurons. Noncholinergic neurons also contribute and comprise GABAergic neurons and other possibly glutamatergic neurons. The aim of the present study was to estimate the total number of cells in the BF of the rat and the proportions of that total represented by cholinergic, GABAergic and glutamatergic neurons. For this purpose, cells were counted using unbiased stereological methods within the medial septum, diagonal band, magnocellular preoptic nucleus, substantia innominata and globus pallidus in sections stained for Nissl substance and/or the neurotransmitter enzymes, choline acetyltransferase (ChAT), glutamic acid decarboxylase (GAD) or phosphate-activated glutaminase (PAG). In Nissl-stained sections, the total number of neurons in the BF was estimated as approximately 355,000 a...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 2000
The basal forebrain ostensibly plays a dual role in the modulation of cortical activation and beh... more The basal forebrain ostensibly plays a dual role in the modulation of cortical activation and behavioral state. It is essential for stimulating cortical activation in association with waking (and paradoxical sleep), yet also important for attenuating cortical activation and promoting slow wave sleep. Using juxtacellular recording and labeling of neurons with Neurobiotin followed by immunohistochemical staining for glutamic acid decarboxylase (GAD), we studied the discharge properties of identified GABAergic basal forebrain neurons in relation to electroencephalographic (EEG) activity in urethane-anesthetized rats to determine the part or parts that they may play in this dual role. The GABAergic neurons displayed distinct discharge profiles in relation to somatosensory stimulation-evoked cortical activation. Whereas a significant minority increased its average discharge rate, the majority decreased its average discharge rate in association with cortical activation. Moreover, subgroup...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 2000
Cholinergic basal forebrain neurons have long been thought to play an important role in cortical ... more Cholinergic basal forebrain neurons have long been thought to play an important role in cortical activation and behavioral state, yet the precise way in which they influence these processes has yet to be fully understood. Here, we have examined the effects on the electroencephalogram (EEG) and sleep-wake state of basal forebrain administration of neurotensin (NT), a neuropeptide that has been shown in vitro to potently and selectively modulate the cholinergic cells. Microinjection of (0.1-3.0 mm) NT into the basal forebrain of freely moving, naturally waking-sleeping rats produced a dose-dependent decrease in delta ( approximately 1-4 Hz) and increase in both theta ( approximately 4-9 Hz) and high-frequency gamma activity (30-60 Hz) across cortical, areas with no increase in the electromyogram. These EEG changes were accompanied by concomitant decreases in slow wave sleep (SWS) and transitional SWS (tSWS), increases in wake, and most remarkably, increases in paradoxical sleep (PS) a...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 2000
Multiple lines of evidence indicate that cholinergic basal forebrain neurons play an important ro... more Multiple lines of evidence indicate that cholinergic basal forebrain neurons play an important role in the regulation of cortical activity and state. However, the discharge properties of cholinergic cells in relation to the electroencephalogram (EEG) are not yet known. In the present study, cells were recorded in the basal forebrain in association with cortical EEG activity in urethane-anesthetized rats, and their discharge was examined during EEG irregular slow activity and during stimulation-induced cortical activation, characterized by rhythmic slow (theta) and high-frequency (gamma) activities. Recorded cells were labeled with Neurobiotin (Nb), using the juxtacellular technique and identified as cholinergic by immunohistochemical staining for choline acetyltransferase (ChAT). Nb-positive/ChAT-positive neurons were distinctive and significantly different from Nb-positive/ChAT-negative neurons, which were heterogeneous in their discharge properties. All Nb(+)/ChAT(+) cells increas...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 1999
Multiple lines of evidence indicate that neurons within the pontomesencephalic tegmentum are crit... more Multiple lines of evidence indicate that neurons within the pontomesencephalic tegmentum are critically involved in the generation of paradoxical sleep (PS). From single-unit recording studies, evidence suggests that unidentified but "possibly" cholinergic tegmental neurons discharge at higher rates during PS than during slow wave sleep or even waking and would thus play an active role, whereas "presumed" monoaminergic neurons cease firing during PS and would thus play a permissive role in PS generation. In the present study performed on rats, c-Fos immunostaining was used as a reflection of neuronal activity and combined with immunostaining for choline acetyltransferase (ChAT), serotonin (Ser), tyrosine hydroxylase (TH), or glutamic acid decarboxylase (GAD) for immunohistochemical identification of active neurons during PS recovery ( approximately 28% of recording time) as compared with PS deprivation (0%) and PS control (approximately 15%) conditions. With PS r...
The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 15, 1997
In the present study, we investigated changes in regional cerebral blood flow (rCBF) in humans du... more In the present study, we investigated changes in regional cerebral blood flow (rCBF) in humans during the progression from relaxed wakefulness through slow wave sleep (SWS). These changes were examined as a function of spindle (12-15 Hz) and delta (1.5-4.0 Hz) electroencephalographic (EEG) activity of SWS. rCBF was studied with positron emission tomography (PET) using the H215O bolus method. A maximum of six 60 sec scans were performed per subject during periods of wakefulness and stages 1-4 of SWS, as determined by on-line EEG monitoring. Spectral analysis was performed off-line on the EEG epochs corresponding to the scans for computation of activity in specific frequency bands. The relationship between EEG frequency band activity and normalized rCBF was determined by means of a voxel-by-voxel analysis of covariance. delta activity covaried negatively with rCBF most markedly in the thalamus and also in the brainstem reticular formation, cerebellum, anterior cingulate, and orbitofro...
Considerable evidence has shown that both cholinergic and histaminergic neurons in the brain may ... more Considerable evidence has shown that both cholinergic and histaminergic neurons in the brain may act to facilitate processes of cortical activation that occur during wakefulness. In the present study, the potential influence of histaminergic neurons upon cholinergic neurons of the basal forebrain was investigated in guinea-pig basal forebrain slices. We found that electrophysiologically identified and immunohistochemically verified cholinergic neurons of the nucleus basalis were depolarized and excited by histamine, as manifested by an increase in tonic firing. The depolarization was associated with an increase in membrane input resistance. The effect of histamine persisted in the presence of either tetrodotoxin or a high-magnesium/low-calcium solution, indicating that it is postsynaptic. By a process of elimination, the participation in this response of the three described histamine receptors was examined. Involvement of H3 receptors was excluded on the basis that the H3 agonist (R)-alpha-methyl-histamine had no direct effect, and the H3 antagonist, thioperamide, did not block the effect of histamine. In contrast, the presence of a small response to impromidine, a selective agonist of H2 receptors, and the partial block of the response to histamine by the H2 receptor antagonist, cimetidine, indicated the participation of H2 receptors. Finally, the complete elimination of histamine's effect occurred when low doses of the H1 antagonist, mepyramine, were added to the H2 antagonist, cimetidine, indicating the involvement and predominance of H1 receptors in the response. Our data thus suggest that histamine excites nucleus basalis cholinergic neurons by a concomitant activation of H1 and H2 receptors. Histaminergic tuberomammillary neurons may accordingly facilitate tonic firing of cholinergic neurons during wakefulness. Cholinergic basalis neurons could thus act in tandem with histaminergic neurons during periods of arousal to collectively promote widespread cortical activation.
Basal forebrain neurons play important parts in processes of cortical activation and memory that ... more Basal forebrain neurons play important parts in processes of cortical activation and memory that have been attributed to the cortically projecting, cholinergic neurons. Yet, non-cholinergic neurons also project to the cerebral cortex and also appear to participate in processes of cortical modulation and plasticity. GABAergic neurons compose a portion of the cortically projecting cell group, but do not fully account for the non-cholinergic cell contingent. In the present study in the rat, we investigated whether the non-cholinergic, non-GABAergic cell component might be composed of glutamatergic neurons. We examined afferents to the entorhinal cortex, which is known to be modulated by basal forebrain neurons and to be critically involved in memory. Dual immunofluorescent staining was performed for cholera toxin, as retrograde tracer, and phosphate-activated glutaminase, the synthetic enzyme for the neurotransmitter pool of glutamate. The retrogradely labeled cells were distributed across the basal forebrain through the medial septum, diagonal band, magnocellular preoptic area and substantia innominata. The major proportion (approximately 80%) of the retrogradely labeled cells was found to be immunopositive for phosphate-activated glutaminase. Equal minor proportions (approximately 40%) were immunopositive for choline acetyltransferase and glutamic acid decarboxylase. In other material dual-immunostained for neurotransmitter enzymes, approximately 95% of choline acetyltransferase- and approximately 60% of glutamic acid decarboxylase-immunopositive neurons were also immunopositive for phosphate-activated glutaminase. From these results it appears that a significant proportion of these cell groups, including their cortically projecting contingents, could synthesize glutamate together with acetylcholine or GABA as neurotransmitters and another proportion of cells could synthesize glutamate alone. Accordingly, as either co-transmitter or primary transmitter within basalocortical afferents, glutamate could have the capacity to modulate the entorhinal cortex and promote its role in memory.
In a previous study we proposed that the depolarized state of the wake-promoting hypocretin/orexi... more In a previous study we proposed that the depolarized state of the wake-promoting hypocretin/orexin (hcrt/orx) neurons was independent of synaptic inputs as it persisted in tetrodotoxin and low calcium/high magnesium solutions. Here we show first that these cells are hyperpolarized when external sodium is lowered, suggesting that non-selective cation channels (NSCCs) could be involved. As canonical transient receptor channels (TRPCs) are known to form NSCCs, we looked for TRPCs subunits using single-cell RT-PCR and found that TRPC6 mRNA was detectable in a small minority, TRPC1, TRPC3 and TRPC7 in a majority and TRPC4 and 5 in the vast majority (,90%) of hcrt/orx neurons. Using intracellular applications of TRPC antibodies against subunits known to form NSCCs, we then found that only TRPC5 antibodies elicited an outward current, together with hyperpolarization and inhibition of the cells. These effects were blocked by co-application of a TRPC5 antigen peptide. Voltage-clamp ramps in the presence or absence of TRPC5 antibodies indicated the presence of a current with a reversal potential close to 215 mV. Application of the non-selective TRPC channel blocker, flufenamic acid, had a similar effect, which could be occluded in cells pre-loaded with TRPC5 antibodies. Finally, using the same TRPC5 antibodies we found that most hcrt/orx cells show immunostaining for the TRPC5 subunit. These results suggest that hcrt/orx neurons are endowed with a constitutively active non-selective cation current which depends on TRPC channels containing the TRPC5 subunit and which is responsible for the depolarized and active state of these cells. Citation: Cvetkovic-Lopes V, Eggermann E, Uschakov A, Grivel J, Bayer L, et al. (2010) Rat Hypocretin/Orexin Neurons Are Maintained in a Depolarized State by TRPC Channels. PLoS ONE 5(12): e15673.
The orexins (orexin A and B, also known as hypocretin 1 and 2) are two recently identified neurop... more The orexins (orexin A and B, also known as hypocretin 1 and 2) are two recently identified neuropeptides (de Lecea et al., 1998; Sakurai et al., 1998) which are importantly implicated in the control of wakefulness (for reviews see Hungs and Mignot, 2001; van den Pol, 2000; Willie et al., 2001 ). Indeed, alteration in these peptides' precursor, their receptors or the hypothalamic neurones that produce them leads to the sleep disorder narcolepsy (Chemelli et al., 1999; Lin et al., 1999; Peyron et al., 2000; Thannickal et al., 2000). The mechanisms by which the orexins modulate wakefulness, however, are still unclear. Their presence in fibres coursing from the hypothalamus (Peyron et al., 1998) up to the preoptic area (POA) and basal forebrain (BF) suggests that they might influence the important sleep and waking neural systems situated there (Jones, 2000). The present study, performed in rat brain slices, demonstrates, however, that the orexins have no effect on the GABA sleep-promoting neurones of the POA, whereas they have a strong and direct excitatory effect on the cholinergic neurones of the contiguous BF. In addition, by comparing the effects of orexin A and B we demonstrate here that orexins' action depends upon orexin type 2 receptors (OX(2)), which are those lacking in narcoleptic dogs (Lin et al., 1999). These results suggest that the orexins excite cholinergic neurones that release acetylcholine in the cerebral cortex and thereby contribute to the cortical activation associated with wakefulness.
Hypocretin/orexin (Hcrt/Orx) and melanin concentrating hormone (MCH) are peptides contained in ov... more Hypocretin/orexin (Hcrt/Orx) and melanin concentrating hormone (MCH) are peptides contained in overlapping cell groups of the lateral hypothalamus and commonly involved in regulating sleep-wake states and energy balance, though likely in different ways. To see if these neurons are similarly or differentially modulated by neurotransmitters of the major brainstem arousal systems, the effects of noradrenaline (NA) and carbachol, a cholinergic agonist, were examined on identified Hcrt/Orx and MCH neurons in rat hypothalamic slices. Whereas both agonists depolarized and excited Hcrt/Orx neurons, they both hyperpolarized MCH neurons by direct postsynaptic actions. According to the activity profiles of the noradrenergic locus coeruleus and cholinergic pontomesencephalic neurons across the sleep-waking cycle, the Hcrt/Orx neurons would be excited by NA and acetylcholine (ACh) and thus active during arousal, whereas the MCH neurons would be inhibited by NA and ACh and thus inactive during arousal while disinhibited and possibly active during slow wave sleep. According to the present pharmacological results, Hcrt/Orx neurons may thus stimulate arousal in tandem with other arousal systems, whereas MCH neurons may function in opposition with other arousal systems and thus potentially dampen arousal to promote sleep.
Several lines of evidence indicate that cholinergic basalis neu- rons play an important role in c... more Several lines of evidence indicate that cholinergic basalis neu- rons play an important role in cortical activation. The present study was undertaken to determine the effect of noradrenergic and serotonergic modulation of the cholinergic neurons on cortical EEG activity and sleep-wake states. The neurotrans- mitters were injected into the region of the basalis neurons by remote control in freely moving,
Proceedings of the National Academy of Sciences, 2009
Neurons containing melanin-concentrating hormone (MCH) are codistributed with neurons containing ... more Neurons containing melanin-concentrating hormone (MCH) are codistributed with neurons containing orexin (Orx or hypocretin) in the lateral hypothalamus, a peptide and region known to be critical for maintaining wakefulness. Evidence from knockout and c-Fos studies suggests, however, that the MCH neurons might play a different role than Orx neurons in regulating activity and sleepwake states. To examine this possibility, neurons were recorded across natural sleep-wake states in head-fixed rats and labeled by using the juxtacellular technique for subsequent immunohistochemical identification. Neurons identified as MCH؉ did not fire during wake (W); they fired selectively during sleep, occasionally during slow wave sleep (SWS) and maximally during paradoxical sleep (PS). As W-Off/Sleep-On, the MCH neurons discharged in a reciprocal manner to the W-On/Sleep-Off Orx neurons and could accordingly play a complementary role to Orx neurons in sleepwake state regulation and contribute to the pathophysiology of certain sleep disorders, such as narcolepsy with cataplexy.
We recently demonstrated, in rat brain slices, that the usual excitation by noradrenaline (NA) of... more We recently demonstrated, in rat brain slices, that the usual excitation by noradrenaline (NA) of hypocretin/orexin (hcrt/orx) neurons was changed to an inhibition following sleep deprivation (SD). Here we describe that in control condition (CC), i.e. following 2 hours of natural sleep in the morning, the a 2 -adrenergic receptor (a 2 -AR) agonist, clonidine, had no effect on hcrt/orx neurons, whereas following 2 hours of SD (SDC), it hyperpolarized the neurons by activating G-protein-gated inwardly rectifying potassium (GIRK) channels. Since concentrations of clonidine up to a thousand times (100 mM) higher than those effective in SDC (100 nM), were completely ineffective in CC, a change in the availability of G-proteins is unlikely to explain the difference between the two conditions. To test whether the absence of effect of clonidine in CC could be due to a down-regulation of GIRK channels, we applied baclofen, a GABA B agonist known to also activate GIRK channels, and found that it hyperpolarized hcrt/orx neurons in that condition. Moreover, baclofen occluded the response to clonidine in SDC, indicating that absence of effect of clonidine in CC could not be attributed to down-regulation of GIRK channels. We finally tested whether a 2 -ARs were still available at the membrane in CC and found that clonidine could reduce calcium currents, indicating that a 2 -ARs associated with calcium channels remain available in that condition. Taken together, these results suggest that a pool of a 2 -ARs associated with GIRK channels is normally down-regulated (or desensitized) in hcrt/orx neurons to only become available for their inhibition following sleep deprivation.
The basal forebrain (BF) contains cholinergic neurons that stimulate cortical activation during w... more The basal forebrain (BF) contains cholinergic neurons that stimulate cortical activation during waking. In addition, both the BF and adjacent preoptic area (POA) contain neurons that promote sleep. We examined c-Fos expression in cholinergic and GABAergic neurons in the BF and POA to determine whether they are differentially active following sleep deprivation versus recovery and whether the GABAergic neurons are
The occurrence of high-frequency g activity (30-60 Hz) and its relationship to other frequency ba... more The occurrence of high-frequency g activity (30-60 Hz) and its relationship to other frequency band activities were examined by spectral analysis of the electroencephalogram in association with sleep-wake states and spontaneous behaviors in the rat. In the electroencephalogram, 7 wave activity was evident in unfiltered and high-frequency filtered recordings, in which it was prominent during attentive or active Wake episodes and during Paradoxical Sleep, when 0-like activity was also apparent. In amplitude spectra from these episodes, multiple peaks were evident within the 7 frequency band, indicating broad-band high-frequency activity, in association with a single low-frequency peak in the 0 band. y peaks were attenuated during quiet Waking, in association with a low-frequency peak between 0 and 8, and during Slow Wave Sleep, in association with a low-frequency peak in the 8 band. In coherence spectra from ipsilateral cortical leads, peaks were also present within the 7 range and were significantly higher in Waking moving and Paradoxical Sleep than in Waking quiet and Slow Wave Sleep. In measures of frequency band amplitude, 7 activity (30.5-58.0 Hz) varied significantly across the sleep waking cycle, being similarly high during Wake and Paradoxical Sleep and lowest during Slow Wave Sleep. Across these states, y was negatively correlated with 8 (1.5~.0 Hz). In contrast, high [3 (19.0-30.0 Hz) was significantly lower in Wake than in Slow Wave Sleep and was positively correlated with 8. ? differed significantly across specific behaviors, being highest in Paradoxical Sleep with twitches and during Waking eating and moving behaviors, slightly lower in Waking attentive, lower in Waking grooming and as low in Waking quiet as during Slow Wave Sleep.
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Papers by Barbara Jones