Mitsugu Oguri

Seasonal variation of mood and behaviour in a healthy middle‐aged population in Japan

A population survey of seasonality in six representative cities in Japan was conducted using the Japanese version of the Seasonal Pattern Assessment Questionnaire (SPAQ). The questionnaires were given to 951 parents (male: female ratio 1 : 1 age range 34‐59 years) of high‐school students. Significant regional differences in seasonal variations of mood, length of sleep, and weight were observed; the proportion of individuals reporting high seasonality in the two northern cities was significantly higher than that in the other areas. These results provide evidence for a northern predominance in the prevalence of seasonal affective disorder in Japan.

Cortical arousal induced by microinjection of orexins into the paraventricular nucleus of the rat

Orexin-A is a neuropeptide which has been suggested to be involved in sleep and arousal mechanisms. Orexin-A, for example, stimulates arousal when administrated intracerebroventricularly to rats. We attempted to identify specific neural sites of orexin-A and orexin-B action. Orexin-A and orexin-B were microinjected into the medial parvocellular subdivision of the paraventricular nucleus (PVN) in anesthetized, spontaneously breathing rats, and cortical arousal and yawning responses were assessed. Cortical arousal responses were monitored with the electrocorticogram (ECoG), and yawning responses were evaluated by monitoring intercostal electromyograms as an index of inspiratory activity and digastric electromyograms as an indicator of mouth opening. We also measured blood pressure and heart rate during yawning responses, since yawning is accompanied by changes in autonomic activity. Microinjection of orexin-A into the PVN elicited an arousal shift in the ECoG to lower voltage and faster rhythms. This cortical arousal response was followed by a single large inspiration with mouth opening, i.e. a yawning response. On the other hand, microinjection of orexin-B into the PVN elicited an arousal shift in the ECoG without yawning responses. These results demonstrate that an orexin receptive site for triggering arousal/yawning responses exists in the PVN, and suggest that the PVN is involved in arousal mechanisms.

Yawning responses induced by local hypoxia in the paraventricular nucleus of the rat.

Yawing was induced by microinjections of L-glutamate, cyanide and a nitric oxide-releasing compound (NOC12) into the paraventricular nucleus of the hypothalamus (PVN) in anesthetized, spontaneously breathing rats. To evaluate physiological aspects of yawning, we monitored intercostal electromyogram (EMG) as an index of inspiratory activity, digastric EMG, blood pressure and electrocorticogram (ECoG). Microinjection of L-glutamate in the medial parvocellular subdivision (mp) elicited a stereotyped yawning response, i.e. an initial depressor response and an arousal shift in ECoG followed by a single large inspiration with mouth opening. The same sequential events were observed during spontaneous yawning, indicating that the mp is responsible for triggering yawning. Microinjection of cyanide into the mp caused the same yawning responses as the ones elicited by microinjection of L-glutamate, suggesting that the mp is sensitive to chemical hypoxia or ischemia within the PVN. Microinjection of NOC12 into the mp elicited a single large inspiration with a variable onset delay, suggesting that diffusible nitric oxide (NO) within the mp may act as a paracrine agent to cause a yawning response. We hypothesize that the mp of the PVN contains an oxygen sensor that causes a yawning response.

Corticotropin-releasing factor neurons in the hypothalamic paraventricular nucleus are involved in arousal/yawning response of rats.

Our previous studies have suggested that activation of the hypothalamic paraventricular (PVN) descending oxytocinergic projections is involved in the induction of yawning accompanied by an arousal response, but the possibility that neural systems other than the oxytocinergic system in the PVN also mediate the arousal/yawning response cannot be ruled out. We assessed the activity of corticotropin-releasing factor (CRF) neurons during yawning induced by the PVN stimulation in anesthetized, spontaneously breathing rats using double-staining for c-Fos and CRF. Yawning response was evaluated by monitoring an intercostals electromyogram as an index of inspiratory activity and a digastric electromyogram as an indicator of mouth opening. We also recorded the electrocorticogram (ECoG) to determine the arousal response during yawning. Microinjection of l-glutamate (2-5 nmol) into the PVN produced a frequent yawning accompanied by an arousal shift in the ECoG, and these behavioral effects were associated with a significant increase of c-Fos positive CRF neurons in the medial parvocellular subdivision of the PVN. In addition, a marked enhancement in the c-Fos expression was found in the both locus coeruleus (LC) and global area in the cortex when the frequency of yawning response was increased by the PVN stimulation, suggesting that the arousal response during yawning might be mediated by the activation of LC neurons. The present study suggests that an activation of CRF neurons in the PVN is responsible for the arousal response accompanied by yawning behavior.

Yawning/cortical activation induced by microinjection of histamine into the paraventricular nucleus of the rat

The effects of microinjection of histamine into the paraventricular nucleus (PVN) of the hypothalamus on yawning responses were investigated in anesthetized, spontaneously breathing rats. Yawning responses were evaluated by monitoring the intercostal electromyogram (EMG) as an index of inspiratory activity and digastric EMG as an indicator of mouth opening. We also recorded the electrocorticogram (ECoG) to determine the arousal response during yawning. Autonomic function was evaluated by measuring blood pressure and heart rate. Microinjection of histamine into the medial parvocellular subdivision (mp) of the PVN elicited a yawning response, i.e. a single large inspiration with mouth opening, and an arousal shift in ECoG to lower voltage and faster rhythms. Microinjection of HTMT dimaleate, an H1 receptor agonist, into the PVN also caused the yawning/arousal response. Pretreatment with pyrilamine, an H1 receptor antagonist, inhibited the histamine induced yawning behavior. These data demonstrate that a histamine receptive site for triggering yawning/arousal responses exists in the PVN, and suggest that these responses are mediated by activation of H1 receptor within the PVN.

In vivo nitric oxide concentration in the vitreous of rat eye

Nitric oxide (NO) has been proposed to mediate light-adaptation in the vertebrate retina. However, the in vivo NO concentration in the retina is not known. We measured NO in the vitreous adjacent to the retina of the rat eye using NO-selective electrodes under various light conditions. The rats were kept under a 12:12 h light/dark cycle with lights on from 08:00 to 20:00 h. NO during the daytime in the light remained constant at 0.85+/-0.41 microM (n=10), and decreased after dark-adaptation, while NO during the nighttime in darkness was 0.55+/-0.27 microM (n=5), and increased in the light. The vitreous NO initially increased rapidly to flicker, but then decreased as the flicker continued. We found that the diurnal change of NO in the vitreous depended on the ambient light condition.

Changes in sleep and wakefulness following single and repeated exposures to toluene vapor in rats

Male rats with indwelling electrodes for electroencephalographic (EEG), electromyographic (EMG) and electrooculographic (EOG) recordings were exposed via inhalation to 900 ppm and 2700 ppm toluene vapor continuously for a 8-h period or repeatedly for 3 weeks at a rate of 8 h/day and 5 days/week. Rats exposed to a clean airstream under the same exposure schedules served as controls. Polygraphic recordings were made on 3 consecutive days after cessation of the single 8-h and repeated 3-week exposures to 900 ppm and 2700 ppm toluene vapor or clean airstream. Amounts of time spent in wakefulness (W), slow-wave sleep (SWS) and paradoxical sleep (PS) were quantified by visual inspection of the polygraphic records. Single exposure to toluene produced a prolonged PS latency and a long-lasting increase in SWS at the expense of depressed W, whereas repeated exposures prolonged both SWS and PS latencies, abolished the initial increase of SWS and increased the light-phase level of W on Days 1 and 2. The prolonged PS latency and the decreased light-phase PS on Day 2 induced by single exposure to toluene still persisted after repeated exposures. There were no statistically significant differences in attenuation of brain and blood toluene levels between single and repeated exposures to toluene vapor of 900 ppm and 2700 ppm.

Light induces cortical activation and yawning in rats.

We examined the effects of light stimulation on cortical activation and yawning response in anesthetized, spontaneously breathing rats. Cortical activation was assessed by means of an electrocorticogram (ECoG) and yawning response was evaluated by monitoring an intercostal electromyogram as an index of inspiratory activity and a digastric electromyogram as an indicator of mouth opening. Light stimulation elicited an arousal shift in the ECoG to faster rhythms. This arousal response was followed by a single large inspiration with mouth opening, i.e. a yawning response. Higher light intensity significantly reduced the onset latency of the arousal/yawning response. Pretreatment with pyrilamine, an H1-histamine receptor antagonist, injected into the lateral ventricle blocked both the cortical activation and the yawning response induced by light stimulation, suggesting a role of brain histaminergic neurotransmission in modulating the light-induced arousal/yawning responses.

O2 sensitivity in the paraventricular nucleus and yawning response

Spontaneous neuronal burst activities were optically recorded in the neonatal rat brainstem block (l-3 days after birth) stained with a voltage sensitive dye (RH-795). Medullary respiratory bursts were continuously monitored from the central cut-end of the XIIth cranial nerve in the standard artificial cerebra-spinal fluid. During a respiratory cycle including one bursting phase and one silent phase (approximately 10 s), a fluorescence was microscopically detected on the cut surface of the block illuminated with excitation light (Fuji, Deltaron). Dynamics of the neuron activities corresponding to the respiratory cycle was represented in 1.3 mm square range of the ventrolateral medulla by means of the image processing.

2116 Effects of naitric oxide on yawning evoked by stimulation of paraventricular nucleus of rats

Mamoru Yanagihara’ , Keihachiro Ito 2, Lynda Dauphin2, Robert W. McCarley’ The cholinergic projection from the laterodorsal tegmental (LDT) and pedunculopontine tegmental (PPT) nuclei to the pontomedullary reticular formation may play an important roll in REM sleep. The projection of the PPT/LDT neurons to both sides of the reticular formation (RF) was quantitatively analyzed by a combination of the fluorescence retrograde double labeling with the fluorescence immunohistochemistry for chorine acetyltransferase. Although 2% of PPT neurons project to both sides of the giant cell field of pontine RF (GPRF), 21% of PPT neurons projecting to ipsilateral GPRF have a collateral to the contralateral GPRF. This percentage was reduced by about one half in cases in which the ipsilateral was to the GPRF but the contralateral projection was to a non-giant cellular field. In medullary projection, 0.3-2.4% of PPT neurons project both sides of the medullary RF. In the LDT, 0.8% of neurons project to giant cell field on both sides of pontine RF.