Activation of the Orexin 1 Receptor is a Critical Component of CO2-Mediated Anxiety and Hypertension but not Bradycardia

Johnson, Philip L.; Samuels, Brian C; Fitz, Stephanie D.; Lightman, Stafford L.; Lowry, Christopher A.; Shekhar, Anantha

doi:10.1038/npp.2012.38

Cited by 93 publications

(98 citation statements)

References 61 publications

(81 reference statements)

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“…Consistent with this, chronic exposure to cigarette smoke tripled hypothalamic orexin A expression in a rodent model of COPD [67]. In addition, rat exposure to hypercapnic air increased c-Fos expression in orexin neurons, and promoted anxietylike behavior, which was prevented by systemic injection of SB334867 [68]. These data provide new insights to support the potential interest in OX1R antagonists for treating panic disorders.…”

Section: Reviewsupporting

confidence: 69%

Orexins and fear: implications for the treatment of anxiety disorders

Flores

Saravia

Maldonado

et al. 2015

Trends in Neurosciences

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An understanding of the neurobiological mechanisms involved in the regulation of fear is essential for the development of new treatments for anxiety disorders, such as phobias, panic, and post-traumatic stress disorders (PTSD). Orexins, also known as hypocretins, are neuropeptides located exclusively in hypothalamic neurons that have extensive projections throughout the central nervous system. Although this system was initially believed to be primarily involved in the regulation of feeding behavior, recent studies have shown that orexins also modulate neural circuits implicated in the expression and extinction of fear memories. Here, we discuss recent findings involving orexins in anxiety disorders and current clinical trials using orexin ligands that could be applied to identify new therapies for diseases characterized by pathological fear.

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Section: Reviewsupporting

confidence: 69%

Orexins and fear: implications for the treatment of anxiety disorders

Flores

Saravia

Maldonado

et al. 2015

Trends in Neurosciences

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“…Other neuronal populations involved in sleep-wake regulation have chemoreceptive capabilities. These include noradrenergic neurons of the locus coeruleus (Pineda and Aghajanian 1997), histaminergic neurons of the tuberomammillary nucleus (Johnson et al 2005), and orexinergic neurons in the lateral hypothalamus (Johnson et al 2010(Johnson et al , 2012Williams et al 2007). Another chemosensitive region, the retrotrapezoid nucleus, may be involved in sleep-wake regulation (Abbott et al 2013;Guyenet and Abbott 2013).…”

Section: Discussionmentioning

confidence: 99%

5-HT_2A receptor activation is necessary for CO₂-induced arousal

Buchanan

Smith

MacAskill

et al. 2015

Journal of Neurophysiology

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Buchanan GF, Smith HR, MacAskill A, Richerson GB. 5-HT 2A receptor activation is necessary for CO 2 -induced arousal. J Neurophysiol 114: 233-243, 2015. First published April 29, 2015 doi:10.1152/jn.00213.2015.-Hypercapnia-induced arousal from sleep is an important protective mechanism pertinent to a number of diseases. Most notably among these are the sudden infant death syndrome, obstructive sleep apnea and sudden unexpected death in epilepsy. Serotonin (5-HT) plays a significant role in hypercapniainduced arousal. The mechanism of 5-HT's role in this protective response is unknown. Here we sought to identify the specific 5-HT receptor subtype(s) involved in this response. Wild-type mice were pretreated with antagonists against 5-HT receptor subtypes, as well as antagonists against adrenergic, cholinergic, histaminergic, dopaminergic, and orexinergic receptors before challenge with inspired CO 2 or hypoxia. Antagonists of 5-HT 2A receptors dose-dependently blocked CO 2 -induced arousal. The 5-HT 2C receptor antagonist, RS-102221, and the 5-HT 1A receptor agonist, 8-OH-DPAT, attenuated but did not completely block CO 2 -induced arousal. Blockade of non-5-HT receptors did not affect CO 2 -induced arousal. None of these drugs had any effect on hypoxia-induced arousal. 5-HT 2 receptor agonists were given to mice in which 5-HT neurons had been genetically eliminated during embryonic life (Lmx1b f/f/p ) and which are known to lack CO 2 -induced arousal. Application of agonists to 5-HT 2A , but not 5-HT 2C , receptors, dose-dependently restored CO 2 -induced arousal in these mice. These data identify the 5-HT 2A receptor as an important mediator of CO 2 -induced arousal and suggest that, while 5-HT neurons can be independently activated to drive CO 2 -induced arousal, in the absence of 5-HT neurons and endogenous 5-HT, 5-HT receptor activation can act in a permissive fashion to facilitate CO 2 -induced arousal via another as yet unidentified chemosensor system.

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“…In any experiment, it is pertinent to question whether a change in Rinx reflects the effects of a particular challenge on peripheral or central respiratory homeostatic mechanisms, altered behavioral/locomotor patterns, or effects on the level of arousal/anxiety, knowing for example that hypoxic (Roth et al, 2002; Kumar and Goyal, 2008a,b; Ninot, 2011) and hypercapnic (Battaglia and Ogliari, 2005; Johnson et al, 2012; Battaglia et al, 2014) challenges are anxiogenic stimuli in humans and mice. As mentioned above, our studies show that the marked increase in disordered breathing events (e.g., apneas, sighs) during the post-hypoxic phase are not obviously related to behavioral activity at specific times during this period but it is certainly possible that anxiety elicited during the hypoxic and/or hypercapnic challenges are intimately involved in the expression of breathing pattern upon return to room-air in C57BL6 mice, whereas this may not be the case for Swiss-Webster or B6AF1 mice which show little disordered breathing during the post-hypoxia phase.…”

Section: Discussionmentioning

confidence: 99%

Enhanced non-eupneic breathing following hypoxic, hypercapnic or hypoxic–hypercapnic gas challenges in conscious mice

Getsy¹,

Davis²,

Coffee³

et al. 2014

Respiratory Physiology & Neurobiology

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C57BL6 mice display non-eupneic breathing and spontaneous apneas during wakefulness and sleep as well as markedly disordered breathing following cessation of a hypoxic challenge. We examined whether (1) C57BL6 mice display marked non-eupneic breathing following hypercapnic or hypoxic-hypercapnic challenges, and (2) compared the post-hypoxia changes in non-eupneic breathing of C57BL6 mice to those of B6AF1 (57BL6 dam × A/J sire) and Swiss-Webster mice, which display different ventilatory responses than C57BL6 mice. C57BL6 mice displayed marked increases in respiratory frequency and non-eupneic breathing upon return to room-air after hypoxic (10% O2, 90% N2), hypercapnic (5% CO2, 21% O2, 74% N2) and hypoxic-hypercapnic (10% O2, 5% CO2, 85% N2) challenges. B6AF1 mice displayed less tachypnea and reduced non-eupneic breathing post-hypoxia, whereas Swiss-Webster mice displayed robust tachypnea with minimal increases in non-eupneic breathing post-hypoxia. These studies demonstrate that non-eupneic breathing increases after physiologically-relevant hypoxic-hypercapnic challenge in C57BL6 mice and suggest that further studies with these and B6AF1 and Swiss-Webster mice will help define the genetics of non-eupneic breathing.

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Activation of the Orexin 1 Receptor is a Critical Component of CO2-Mediated Anxiety and Hypertension but not Bradycardia

Cited by 93 publications

References 61 publications

Orexins and fear: implications for the treatment of anxiety disorders

Orexins and fear: implications for the treatment of anxiety disorders

5-HT_2A receptor activation is necessary for CO₂-induced arousal

Enhanced non-eupneic breathing following hypoxic, hypercapnic or hypoxic–hypercapnic gas challenges in conscious mice

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Activation of the Orexin 1 Receptor is a Critical Component of CO2-Mediated Anxiety and Hypertension but not Bradycardia

Cited by 93 publications

References 61 publications

Orexins and fear: implications for the treatment of anxiety disorders

Orexins and fear: implications for the treatment of anxiety disorders

5-HT2A receptor activation is necessary for CO2-induced arousal

Enhanced non-eupneic breathing following hypoxic, hypercapnic or hypoxic–hypercapnic gas challenges in conscious mice

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5-HT_2A receptor activation is necessary for CO₂-induced arousal