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Orexinergic neurons contribute to autonomic cardiovascular regulation for locomotor exercise.

Authors :
Narai, Emi
Yoshimura, Yuki
Honaga, Takaho
Mizoguchi, Hiroyuki
Yamanaka, Akihiro
Hiyama, Takeshi Y.
Watanabe, Tatsuo
Koba, Satoshi
Source :
Journal of Physiology. Feb2024, p1. 17p. 8 Illustrations, 1 Chart.
Publication Year :
2024

Abstract

Key points While the hypothalamic orexinergic nervous system is established as having a pivotal role in the long‐term regulation of various organismic functions, including wakefulness, metabolism and hypertensive states, whether this system contributes to the rapid autonomic cardiovascular regulation during physical activity remains elusive. This study aimed to elucidate the role of the orexinergic nervous system in transmitting volitional motor signals, i.e. central command, to drive somatomotor and sympathetic cardiovascular responses. We first found that this system is activated by voluntary locomotor exercise as evidenced by an increased expression of Fos, a marker of neural activation, in the orexinergic neurons of Sprague–Dawley rats engaged in spontaneous wheel running. Next, using transgenic Orexin‐Cre rats for optogenetic manipulation of orexinergic neurons, we found that optogenetic excitation of orexinergic neurons caused sympathoexcitation on a subsecond timescale under anaesthesia. In freely moving conscious rats, this excitatory stimulation rapidly elicited exploration‐like behaviours, predominantly locomotor activity, along with pressor and tachycardiac responses. Meanwhile, optogenetic inhibition of orexinergic neurons during spontaneous wheel running immediately suppressed locomotor activities and blood pressure elevation without affecting basal cardiovascular homeostasis. Taken together, these findings demonstrate the essential role of the orexinergic nervous system in the central circuitry that transmits central command signals for locomotor exercise. This study not only offers insights into the brain circuit mechanisms precisely regulating autonomic cardiovascular systems during voluntary exercise but also likely contributes to our understanding of brain mechanisms underlying abnormal cardiovascular adjustments to exercise in pathological conditions, such as hypertension. The hypothalamic orexinergic nervous system plays various roles in the long‐term regulation of autonomic and endocrine functions, as well as motivated behaviours. We present a novel, rapid role of the orexinergic nervous system, revealing its significance as a crucial substrate in the brain circuit mechanisms that coordinate somatomotor and autonomic cardiovascular controls for locomotor exercise. Our data demonstrate that orexinergic neurons relay volitional motor signals, playing a necessary and sufficient role in the autonomic cardiovascular regulation required for locomotor exercise in rats. The findings contribute to our understanding of how the brain precisely regulates autonomic cardiovascular systems during voluntary exercise, providing insights into the central neural mechanisms that enhance physical performance moment‐by‐moment during exercise. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00223751
Database :
Academic Search Index
Journal :
Journal of Physiology
Publication Type :
Academic Journal
Accession number :
175540216
Full Text :
https://doi.org/10.1113/jp285791