Youichirou Ootsuka scite author profile

We investigated the thermoregulatory responses of sympathetic fibres supplying the tail in urethane‐anaesthetised rats. When skin and rectal temperatures were kept above 39 °C, tail sympathetic fibre activity was low or absent. When the trunk skin was cooled episodically by 2–7 °C by a water jacket, tail sympathetic activity increased in a graded fashion below a threshold skin temperature of 37.8 ± 0.6 °C, whether or not core (rectal) temperature changed. Repeated cooling episodes lowered body core temperature by 1.3–3.1 °C, and this independently activated tail sympathetic fibre activity, in a graded fashion, below a threshold rectal temperature of 38.4 ± 0.2 °C. Tail blood flow showed corresponding graded vasoconstrictor responses to skin and core cooling, albeit over a limited range. Tail sympathetic activity was more sensitive to core than to trunk skin cooling by a factor that varied widely (24‐fold) between animals. Combined skin and core cooling gave additive or facilitatory responses near threshold but occlusive interactions with stronger stimuli. Unilateral warming of the preoptic area reversibly inhibited tail sympathetic activity. This was true for activity generated by either skin or core cooling. Single tail sympathetic units behaved homogeneously. Their sensitivity to trunk skin cooling was 0.3 ± 0.08 spikes s−1°C−1 and to core cooling was 2.2 ± 0.5 spikes s−1°C−1. Their maximum sustained firing rate in the cold was 1.82 ± 0.35 spikes s−1.

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Brown adipose tissue thermogenesis heats brain and body as part of the brain-coordinated ultradian basic rest-activity cycle

Ootsuka

Menezes

Zaretsky

et al. 2009

Neuroscience

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Brown adipose tissue (BAT), body and brain temperatures, as well as behavioral activity, arterial pressure and heart rate, increase episodically during the waking (dark) phase of the circadian cycle in rats. Phase-linking of combinations of these ultradian (<24 hour) events has previously been noted, but no synthesis of their overall interrelationships has emerged. We hypothesized that they are coordinated by brain central command, and that BAT thermogenesis, itself controlled by the brain, contributes to increases in brain and body temperature. We used chronically implanted instruments to measure combinations of BAT, brain and body temperatures, behavioral activity, tail artery blood flow, and arterial pressure and heart rate, in conscious freely moving Sprague-Dawley rats during the 12 hour dark active period. Ambient temperature was kept constant for any particular 24 hour day, varying between 22°C and 27°C on different days. Increases in BAT temperature (≥0.5°C) occurred in an irregular episodic manner every 94±43 min (mean±SD). Varying the temperature over a wider range (18-30°C) on different days did not change the periodicity, and neither body nor brain temperature fell before BAT temperature episodic increases. These increases are thus unlikely to reflect thermoregulatory homeostasis. Episodic BAT thermogenesis still occurred in food-deprived rats. Behavioral activity, arterial pressure (18±5 mmHg every 98±49 min) and heart rate (86±31 beats/min) increased approximately 3 min before each increase in BAT temperature. Increases in BAT temperature (1.1±0.4°C) were larger than corresponding increases in brain (0.8±0.4°C) and body (0.6±0.3°C) temperature and the BAT episodes commenced 2-3 min before body and brain episodes, suggesting that BAT thermogenesis warms body and brain. Hippocampal 5-8 Hz theta rhythm, indicating active engagement with the environment, increased before the behavioral and autonomic events, suggesting coordination by brain central command as part of the 1-2 hour ultradian basic rest-activity cycle (BRAC) proposed by Kleitman.

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Inhibition of rostral medullary raphé neurons prevents cold-induced activity in sympathetic nerves to rat tail and rabbit ear arteries

Ootsuka

Blessing

McAllen

2004

Neuroscience Letters

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