The role of adenosine in the early respiratory and cardiovascular changes evoked by chronic hypoxia in the rat

Walsh, Martin P.; Marshall, Janice M.

doi:10.1113/jphysiol.2006.108779

Cited by 14 publications

(13 citation statements)

References 48 publications

(120 reference statements)

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“…Exogenously applied adenosine increased CSN chemosensory discharges in the cat in vivo (24, 25) and in vitro (38), as well as in the rat (43). Adenosine and its analogs have been shown to stimulate ventilation in a dose-dependent manner in several species, including humans and rats (26,37,40,45,46), with the stimulatory effect reaching up to nearly 60% of the maximal asphyxic ventilation; this stimulation is abolished by CSN section and mediated by A 2 receptors (26; see 8). The physiological meaning of these pharmacological findings on CSN and ventilation became obvious when it was demonstrated that mild hypoxia augments adenosine release in an in vitro preparation of rat CB (2).…”

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confidence: 99%

Hypoxic intensity: a determinant for the contribution of ATP and adenosine to the genesis of carotid body chemosensory activity

Conde

Monteiro

Rigual

et al. 2012

Journal of Applied Physiology

118

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Conde SV, Monteiro EC, Rigual R, Obeso A, Gonzalez C. Hypoxic intensity: a determinant for the contribution of ATP and adenosine to the genesis of carotid body chemosensory activity. J Appl Physiol 112: 2002-2010, 2012. First published April 12, 2012 doi:10.1152/japplphysiol.01617.2011.-Excitatory effects of adenosine and ATP on carotid body (CB) chemoreception have been previously described. Our hypothesis is that both ATP and adenosine are the key neurotransmitters responsible for the hypoxic chemotransmission in the CB sensory synapse, their relative contribution depending on the intensity of hypoxic challenge. To test this hypothesis we measured carotid sinus nerve (CSN) activity in response to moderate and intense hypoxic stimuli (7 and 0% O 2) in the absence and in the presence of adenosine and ATP receptor antagonists. Additionally, we quantified the release of adenosine and ATP in normoxia (21% O 2) and in response to hypoxias of different intensities (10, 5, and 2% O 2) to study the release pathways. We found that ZM241385, an A 2 antagonist, decreased the CSN discharges evoked by 0 and 7% O 2 by 30.8 and 72.5%, respectively. Suramin, a P 2X antagonist, decreased the CSN discharges evoked by 0 and 7% O 2 by 64.3 and 17.1%, respectively. Simultaneous application of both antagonists strongly inhibited CSN discharges elicited by both hypoxic intensities. ATP release by CB increased in parallel to hypoxia intensity while adenosine release increased preferably in response to mild hypoxia. We have also found that the lower the O 2 levels are, the higher is the percentage of adenosine produced from extracellular catabolism of ATP. Our results demonstrate that ATP and adenosine are key neurotransmitters involved in hypoxic CB chemotransduction, with a more relevant contribution of adenosine during mild hypoxia, while vesicular ATP release constitutes the preferential origin of extracellular adenosine in high-intensity hypoxia.adenosine; hypoxia; carotid body CAROTID BODIES (CB) are major peripheral chemoreceptor organs that release neurotransmitters in response to hypoxia, generating action potentials at the carotid sinus nerve (CSN) that are integrated in the brain stem to induce a hyperventilatory compensatory response (17). Among the neurotransmitters released in the CB are adenosine and ATP (1-3). One of the first studies on the effects of ATP on CSN activity was carried out by McQueen and Ribeiro (24) where they showed in vivo in the cat CB that ATP increased CSN activity in a dosedependent manner. Additional experiments led them to conclude that the excitatory action of ATP was due to the adenosine formed by its extracellular degradation. More recently, Zhang and co-workers (47) showed that the coapplication of blockers of nicotinic and P2X receptors, hexamethonium and suramin, respectively, in cocultures of glomus cells and "juxtaposed" petrosal ganglions completely abolished the hypoxiaevoked excitatory postsynaptic responses. They concluded that ATP and ACh, acting as cotransmitters, supported the s...

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confidence: 99%

Hypoxic intensity: a determinant for the contribution of ATP and adenosine to the genesis of carotid body chemosensory activity

Conde

Monteiro

Rigual

et al. 2012

Journal of Applied Physiology

118

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“…Adenosine receptor antagonists differently affected the response of the respiratory system to acute and chronic hypoxia and hypercapnia [13,14].…”

Section: Resultsmentioning

confidence: 99%

“…Adenosine, a product of degradation of macroergic compounds formed during brain hypoxia, acts as a tonic neuromodulator of respiration and may produce various effects depending on the site of its action and type of adenosine receptors to be activated [6,13]. The purinergic system considerably modulates respiration in not only fetuses and newborns [4], but also adults [7].…”

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confidence: 99%

Effects of Euphylline on Breathing Pattern and Chemosensitivity of the Respiratory System after Activation of GABAb-Receptors

2010

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We studied changes in breathing pattern in nembutal-anaesthetized mongrel rats after administration of euphylline against the background of preliminary treatment with lithium hydroxybutyrate. Two types of external respiration responses to euphylline were observed; they depended on the initial blood pressure in systemic circulation and on its drop after euphylline administration. Thus, the reaction of the respiratory system to adenosine receptors blockade against the background of hydroxybutyrate pretreatment was associated with not only the effect of euphylline, but also the state of brain hemodynamics. The effects of euphylline on chemosensitive contour of the respiratory system regulation were also investigated. It was found that euphylline did not abolish desensitization of respiratory system to hypercapnia, but smoothed the response to hypoxia under conditions of GABA(b)-receptor activation.

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“…Interestingly, a nonspecific Ado receptor antagonist [8-(psulfophenyl)theophylline hydrate] was shown to blunt the increase in respiratory frequency elicited by acute hypoxia in CHox rats (56). Walsh et al (56) concluded that the increased HVR in CHox rats was due to activation of A 2 receptors by endogenous Ado released in the CB.…”

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confidence: 97%

“…Walsh et al (56) concluded that the increased HVR in CHox rats was due to activation of A 2 receptors by endogenous Ado released in the CB. Moreover, Ado A 2a and A 2b receptors are expressed in CB type I cells (10,17), and Ado signaling contributes to chemoexcitation via presynaptic and postsynaptic mechanisms involving A 2 receptors (9).…”

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confidence: 98%

Enhanced adenosine A_2b receptor signaling facilitates stimulus-induced catecholamine secretion in chronically hypoxic carotid body type I cells

Livermore

Nurse

2013

American Journal of Physiology-Cell Physiology

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Chronic hypoxia (CHox) augments chemoafferent activity in sensory fibers innervating carotid body (CB) chemoreceptor type I cells; however, the underlying mechanisms are poorly understood. We tested the hypothesis that enhanced paracrine signaling via adenosine (Ado) A2b receptors is involved. Dissociated rat CB cultures were exposed for 24 h to normoxia (Nox, 21% O2) or CHox (2% O2) or treated with the hypoxia mimetic deferoxamine mesylate (DFX), and catecholamine secretion from type I cells was monitored by amperometry. Catecholamine secretion was more robust in CHox and DFX type I cells than Nox controls after acute exposure to acid hypercapnia (10% CO2, pH 7.1) and high K(+) (75 mM). Exogenous Ado increased catecholamine secretion in a dose-dependent manner, and the EC50 was shifted to the right from ∼21 μM Ado in Nox cells to ∼78 μM in CHox cells. Ado-evoked secretion in Nox and CHox cells was markedly inhibited by MRS-1754, an A2b receptor blocker, but was unaffected by SCH-58261, an A2a receptor blocker. Similarly, MRS-1754, but not SCH-58261, partially inhibited high-K(+)-evoked catecholamine secretion, suggesting a contribution from paracrine activation of A2b receptors by endogenous Ado. CB chemostimuli, acid hypercapnia, and hypoxia elicited a MRS-1754-sensitive rise in intracellular Ca(2+) that was more robust in CHox and DFX than Nox cells. Taken together, these data suggest that paracrine Ado A2b receptor signaling contributes to stimulus-evoked catecholamine secretion in Nox and CHox CB chemoreceptors; however, the effects of Ado are more robust after CHox.

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The role of adenosine in the early respiratory and cardiovascular changes evoked by chronic hypoxia in the rat

Cited by 14 publications

References 48 publications

Hypoxic intensity: a determinant for the contribution of ATP and adenosine to the genesis of carotid body chemosensory activity

Hypoxic intensity: a determinant for the contribution of ATP and adenosine to the genesis of carotid body chemosensory activity

Effects of Euphylline on Breathing Pattern and Chemosensitivity of the Respiratory System after Activation of GABAb-Receptors

Enhanced adenosine A_2b receptor signaling facilitates stimulus-induced catecholamine secretion in chronically hypoxic carotid body type I cells

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The role of adenosine in the early respiratory and cardiovascular changes evoked by chronic hypoxia in the rat

Cited by 14 publications

References 48 publications

Hypoxic intensity: a determinant for the contribution of ATP and adenosine to the genesis of carotid body chemosensory activity

Hypoxic intensity: a determinant for the contribution of ATP and adenosine to the genesis of carotid body chemosensory activity

Effects of Euphylline on Breathing Pattern and Chemosensitivity of the Respiratory System after Activation of GABAb-Receptors

Enhanced adenosine A2b receptor signaling facilitates stimulus-induced catecholamine secretion in chronically hypoxic carotid body type I cells

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Enhanced adenosine A_2b receptor signaling facilitates stimulus-induced catecholamine secretion in chronically hypoxic carotid body type I cells