Selective Loss of Catecholaminergic Wake–Active Neurons in a Murine Sleep Apnea Model

Zhu, Yan; Fenik, Polina; Zhan, Guanxia; Mazza, Emílio; Kelz, Max B.; Aston‐Jones, Gary; Veasey, Sigrid C.

doi:10.1523/jneurosci.0857-07.2007

Cited by 165 publications

(126 citation statements)

References 68 publications

(81 reference statements)

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“…We found that NE cell counts in these cell groups were similar to those in untreated rats (16,19) and did not differ between CIH-and sham-exposed rats of the present study. This is consistent with qualitative observations in mice suggesting that only the locus coeruleus, but not other brainstem NE cell groups, is susceptible to CIH-induced damage (39). The absence of changes in relevant cell numbers in our CIH rats further supports our interpretation that CIH elicited sprouting of NE terminals.…”

Section: Increased Ne and 5-ht Terminal Density In The XII Nucleus Afsupporting

confidence: 92%

“…It has been reported that, in mice, prolonged exposure to CIH elicits cellular changes characteristic of neuronal damage in NE neurons of the locus coeruleus (39). If this effect also occurred in our CIH-exposed rats and involved those brainstem NE neurons that have axonal projections to the XII nucleus, a decrease, rather than an increase, of NE terminals would be expected.…”

Section: Increased Ne and 5-ht Terminal Density In The XII Nucleus Afmentioning

confidence: 50%

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Chronic Intermittent Hypoxia Alters Density of Aminergic Terminals and Receptors in the Hypoglossal Motor Nucleus

Rukhadze

Fenik

Benincasa

et al. 2010

Am J Respir Crit Care Med

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Rationale: Patients with obstructive sleep apnea (OSA) adapt to the anatomical vulnerability of their upper airway by generating increased activity in upper airway-dilating muscles during wakefulness. Norepinephrine (NE) and serotonin (5-HT) mediate, through a 1 -adrenergic and 5-HT 2A receptors, a wake-related excitatory drive to upper airway motoneurons. In patients with OSA, this drive is necessary to maintain their upper airway open. We tested whether chronic intermittent hypoxia (CIH), a major pathogenic factor of OSA, affects aminergic innervation of XII motoneurons that innervate tongue-protruding muscles in a manner that could alter their airway-dilatory action. Objectives: To determine the impact of CIH on neurochemical markers of NE and 5-HT innervation of the XII nucleus. Methods: NE and 5-HT terminal varicosities and a 1 -adrenergic and 5-HT 2A receptors were immunohistochemically visualized and quantified in the XII nucleus in adult rats exposed to CIH or room air exchanges for 10 h/d for 34 to 40 days. Measurements and Main Results: CIH-exposed rats had approximately 40% higher density of NE terminals and approximately 20% higher density of 5-HT terminals in the ventromedial quadrant of the XII nucleus, the region that controls tongue protruder muscles, than sham-treated rats. XII motoneurons expressing a 1 -adrenoceptors were also approximately 10% more numerous in CIH rats, whereas 5-HT 2A receptor density tended to be lower in CIH rats. Conclusions: CIH-elicited increase of NE and 5-HT terminal density and increased expression of a 1 -adrenoceptors in the XII nucleus may lead to augmentation of endogenous aminergic excitatory drives to XII motoneurons, thereby contributing to the increased upper airway motor tone in patients with OSA.Keywords: chronic-intermittent hypoxia; hypoglossal motoneurons; obstructive sleep apnea; norepinephrine; serotonin Obstructive sleep apnea (OSA) is characterized by recurrent nocturnal episodes of upper airway narrowing or collapse, which lead to reduced ventilation or apnea, blood oxygen (O 2 ) desaturations, and sleep fragmentation (1, 2). Subjects with OSA adapt to the anatomical vulnerability of their upper airway by generating a higher level of activity in their upper airway-dilating muscles during wakefulness than healthy subjects (3-5). This allows them to maintain airway patency, but the mechanisms underlying this adaptation are unknown.Hypoglossal (XII) motoneurons innervate the genioglossus and other muscles of the tongue whose active contraction is important for the maintenance of upper airway patency in patients with OSA (2, 6). Sleep-related decrements of lingual muscle activity facilitate the occurrence of sleep-related upper airway obstructions (6-8). Data from healthy animals show that endogenous excitation mediated by norepinephrine (NE) and serotonin (5-HT) is an important contributor to the maintenance of upper airway muscle tone during wakefulness (9-13). This drive is derived from pontomedullary NE and 5-HT cells (14-16) that have state-depende...

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Section: Increased Ne and 5-ht Terminal Density In The XII Nucleus Afsupporting

confidence: 92%

Section: Increased Ne and 5-ht Terminal Density In The XII Nucleus Afmentioning

confidence: 50%

Chronic Intermittent Hypoxia Alters Density of Aminergic Terminals and Receptors in the Hypoglossal Motor Nucleus

Rukhadze

Fenik

Benincasa

et al. 2010

Am J Respir Crit Care Med

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“…Long-term intermittent hypoxia (LTIH) across the sleep-predominant period of a circadian period is an established model of sleep apnea oxygenation (Gozal et al, 2001;Decker et al, 2003;Veasey et al, 2004a,b;Kheirandish et al, 2005;Zhan et al, 2005;Polotsky et al, 2006). An automated nitrogen/oxygen gas delivery system (Oxycycler model A84XOV; Biospherix, Redfield, NY) was used to deliver hypoxia/reoxygenation, using our previously described protocol (Veasey et al, 2004a,b;Zhu et al, 2007). Briefly, this system produces reductions in ambient oxygen level from 21 to 10% for 5 s every 90 s for LTIH and from 21 to 20% for 5 s every 90 s for sham LTIH, resulting in fluctuations in oxyhemoglobin saturation from 94 -98% to 76 -84% in LTIH and 96 -98 to 96 -97% in sham LTIH (Veasey et al, 2004).…”

Section: Methodsmentioning

confidence: 99%

“…Exposure to hypoxia/reoxygenation events in rodents, modeling oxygenation patterns in severe sleep apnea, results in neural injury in select groups of neurons including pyramidal, Purkinje, catecholaminergic wake neurons, and upper airway dilator motoneurons (Gozal et al, 2001;Decker et al, 2003Decker et al, , 2005Veasey et al, 2004a;Kheirandish et al, 2005;Zhan et al, 2005a,b;Zhu et al, 2007). Long-term exposure to hypoxia/reoxygenation impairs hypoglossal whole-nerve responsiveness to both glutamatergic and serotonergic excitation of hypoglossal motoneurons (Veasey et al, 2004b).…”

Section: Introductionmentioning

confidence: 99%

Eif-2a Protects Brainstem Motoneurons in a Murine Model of Sleep Apnea

Zhu¹,

Fenik²,

Zhan³

et al. 2008

J. Neurosci.

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“…(21) Além disso, foi observado que a hipóxia crônica recorrente induz a lesão irreversível e funcionalmente significativa em grupos neuronais ativos na vigília. (22) A morbidade neurocognitiva na apneia do sono obstrutiva tem sido estudada em roedores submetidos a hipóxia intermitente e/ou a alteração do padrão de sono. Foi demonstrado que os eventos hipóxicos recorrentes prejudicam a memória de trabalho espacial e o aprendizado.…”

Section: Estudos Em Animaisunclassified

Alterações cognitivas na SAOS

Bruin

Bagnato

2010

J. bras. pneumol.

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ResumoAlterações da cognição e do desempenho estão bem estabelecidas em pacientes com SAOS, causando um impacto significativo sobre a qualidade de vida e o risco de acidentes nesses indivíduos. Tais alterações são mais profundas nos quadros mais graves de SAOS, o que explica a aparente discrepância na frequência e gravidade desse prejuízo entre estudos com pacientes de clínicas de sono e estudos de base populacional. Vários aspectos podem estar comprometidos, incluindo o processamento cognitivo, a atenção sustentada, as funções executivas e a memória. Entretanto, os mecanismos causais desses déficits não estão inteiramente elucidados, e existem controvérsias, particularmente em relação à contribuição relativa da hipóxia intermitente e da interrupção do sono presentes na SAOS. O impacto da sonolência diurna sobre o desempenho desses pacientes nos diversos testes cognitivos também ainda deve ser determinado, assim como o possível efeito de comorbidades frequentes, incluindo o diabete melito, a hipertensão arterial sistêmica, a doença cardiovascular e a obesidade. Existem evidências convincentes de que o tratamento com CPAP produz uma significativa melhora do desempenho e da cognição, sobretudo nos portadores de SAOS moderada e grave, embora sejam necessários mais estudos acerca do seu impacto a longo prazo.Descritores: Apneia do sono tipo obstrutiva; Cognição; Função executiva; Memória; Pressão positiva contínua nas vias aéreas. AbstractCognitive and performance impairment is well established in patients with obstructive sleep apnea syndrome (OSAS), having a significant impact on the quality of life and the risk of accidents in these individuals. The severity of the impairment correlates with that of the OSAS, which explains the apparent discrepancy between studies using patients from sleep clinics and population-based studies in terms of the reported frequency and severity of such impairment. Cognitive processing, sustained attention, executive functioning, and memory have all been reported to be impaired in OSAS. However, the causal mechanisms of these deficits have not been entirely clarified, and the relative contribution of intermittent hypoxia and sleep disruption in OSAS is particularly controversial. The potential effect of daytime sleepiness on the performance of these patients on various cognitive tests has yet to be determined, as does that of common comorbidities, such as diabetes, systemic arterial hypertension, cardiovascular disease, and obesity. There is compelling evidence that CPAP treatment can improve performance and cognition, particularly in mild to moderate cases, although further studies on the long-term impact of this type of treatment are still needed.Keywords: Sleep apnea, obstructive; Cognition; Executive function; Memory; Continuous positive airway pressure. IntroduçãoAs alterações cognitivas na SAOS podem ser múltiplas e variadas, incluindo déficit do processamento cognitivo, de memória, de atenção e das funções executivas.(1,2) Os acidentes de trânsito e de trabalho, importantes marc...

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Selective Loss of Catecholaminergic Wake–Active Neurons in a Murine Sleep Apnea Model

Cited by 165 publications

References 68 publications

Chronic Intermittent Hypoxia Alters Density of Aminergic Terminals and Receptors in the Hypoglossal Motor Nucleus

Chronic Intermittent Hypoxia Alters Density of Aminergic Terminals and Receptors in the Hypoglossal Motor Nucleus

Eif-2a Protects Brainstem Motoneurons in a Murine Model of Sleep Apnea

Alterações cognitivas na SAOS

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