Central Mechanisms of Thermoregulation and Fever in Mammals

doi:10.1007/978-981-97-4584-5_10

Review

. 2024:1461:141-159.

doi: 10.1007/978-981-97-4584-5_10.

Central Mechanisms of Thermoregulation and Fever in Mammals

Kazuhiro Nakamura¹

Affiliations

PMID: 39289279
DOI: 10.1007/978-981-97-4584-5_10

Review

Central Mechanisms of Thermoregulation and Fever in Mammals

Kazuhiro Nakamura. Adv Exp Med Biol. 2024.

. 2024:1461:141-159.

doi: 10.1007/978-981-97-4584-5_10.

Author

Kazuhiro Nakamura¹

Affiliation

¹ Department of Integrative Physiology, Nagoya University Graduate School of Medicine, Nagoya, Japan. kazu@med.nagoya-u.ac.jp.

PMID: 39289279
DOI: 10.1007/978-981-97-4584-5_10

Abstract

Thermoregulation is a fundamental homeostatic function in mammals mediated by the central nervous system. The framework of the central circuitry for thermoregulation lies in the hypothalamus and brainstem. The preoptic area (POA) of the hypothalamus integrates cutaneous and central thermosensory information into efferent control signals that regulate excitatory descending pathways through the dorsomedial hypothalamus (DMH) and rostral medullary raphe region (rMR). The cutaneous thermosensory feedforward signals are delivered to the POA by afferent pathways through the lateral parabrachial nucleus, while the central monitoring of body core temperature is primarily mediated by warm-sensitive neurons in the POA for negative feedback regulation. Prostaglandin E₂, a pyrogenic mediator produced in response to infection, acts on the POA to trigger fever. Recent studies have revealed that this circuitry also functions for physiological responses to psychological stress and starvation. Master psychological stress signaling from the medial prefrontal cortex to the DMH has been discovered to drive a variety of physiological responses for stress coping, including hyperthermia. During starvation, hunger signaling from the hypothalamus was found to activate medullary reticular neurons, which then suppress thermogenic sympathetic outflows from the rMR for energy saving. This thermoregulatory circuit represents a fundamental mechanism of the central regulation for homeostasis.

Keywords: Body temperature; Brown adipose tissue; Central nervous system; Fever; Homeostasis; Metabolism; Neural circuit; Psychosomatic; Stress; Thermoregulation.

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References

1. Abbott S, Saper CB (2017) Median preoptic glutamatergic neurons promote thermoregulatory heat loss and water consumption in mice. J Physiol 595:6569–6583 - PubMed - PMC
1. Andrew D, Craig AD (2001) Spinothalamic lamina I neurones selectively responsive to cutaneous warming in cats. J Physiol 537:489–495 - PubMed - PMC
1. Atasoy D, Betley JN, Su HH et al (2012) Deconstruction of a neural circuit for hunger. Nature 488:172–177 - PubMed - PMC
1. Blessing WW, Nalivaiko E (2001) Raphe magnus/pallidus neurons regulate tail but not mesenteric arterial blood flow in rats. Neuroscience 105:923–929 - PubMed
1. Boulant JA, Dean JB (1986) Temperature receptors in the central nervous system. Annu Rev Physiol 48:639–654 - PubMed

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[1] Abbott S, Saper CB (2017) Median preoptic glutamatergic neurons promote thermoregulatory heat loss and water consumption in mice. J Physiol 595:6569–6583 - PubMed - PMC

[2] Abbott S, Saper CB (2017) Median preoptic glutamatergic neurons promote thermoregulatory heat loss and water consumption in mice. J Physiol 595:6569–6583 - PubMed - PMC

[3] Andrew D, Craig AD (2001) Spinothalamic lamina I neurones selectively responsive to cutaneous warming in cats. J Physiol 537:489–495 - PubMed - PMC

[4] Andrew D, Craig AD (2001) Spinothalamic lamina I neurones selectively responsive to cutaneous warming in cats. J Physiol 537:489–495 - PubMed - PMC

[5] Atasoy D, Betley JN, Su HH et al (2012) Deconstruction of a neural circuit for hunger. Nature 488:172–177 - PubMed - PMC

[6] Atasoy D, Betley JN, Su HH et al (2012) Deconstruction of a neural circuit for hunger. Nature 488:172–177 - PubMed - PMC

[7] Blessing WW, Nalivaiko E (2001) Raphe magnus/pallidus neurons regulate tail but not mesenteric arterial blood flow in rats. Neuroscience 105:923–929 - PubMed

[8] Blessing WW, Nalivaiko E (2001) Raphe magnus/pallidus neurons regulate tail but not mesenteric arterial blood flow in rats. Neuroscience 105:923–929 - PubMed

[9] Boulant JA, Dean JB (1986) Temperature receptors in the central nervous system. Annu Rev Physiol 48:639–654 - PubMed

[10] Boulant JA, Dean JB (1986) Temperature receptors in the central nervous system. Annu Rev Physiol 48:639–654 - PubMed

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Central Mechanisms of Thermoregulation and Fever in Mammals

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