Literature DB >> 19632358

Opioid mu-receptors in medullary raphe region affect the hypoxic ventilation in anesthetized rats.

Zhenxiong Zhang1, Fadi Xu, Cancan Zhang, Xiaomin Liang.   

Abstract

Opioids can attenuate the peripheral chemoreceptor-mediated hypoxic ventilatory response (HVR) by acting on central mu-type opioid receptors. Since the medullary raphe region (MRR) expresses abundant mu-receptors and participates in modulating HVR, we tested the role of mu-receptors within the caudal, medial, and rostral MRR (cMRR, mMRR, and rMRR) in modulating the HVR. We recorded cardiorespiratory activities and their responses to isocapnic hypoxia in anesthetized rats before and after local microinjection of DAMGO into the MRR, and intravenous administration of DAMGO (100 microg/kg) alone or coupled with a previous local injection of CTAP. Microinjecting DAMGO into the cMRR or mMRR but not the rMRR significantly attenuated the HVR. However, systemic DAMGO-induced HVR attenuation was not significantly affected by pretreating the cMRR and mMRR with CTAP. Our data suggest that cMRR and mMRR mu-receptors are capable of depressing the HVR, while their contribution to the attenuated HVR by systemic DAMGO is limited.

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Year:  2009        PMID: 19632358      PMCID: PMC3438222          DOI: 10.1016/j.resp.2009.07.015

Source DB:  PubMed          Journal:  Respir Physiol Neurobiol        ISSN: 1569-9048            Impact factor:   1.931


  44 in total

1.  Effects of intrathecal morphine on the ventilatory response to hypoxia.

Authors:  P L Bailey; J K Lu; N L Pace; J A Orr; J L White; E A Hamber; M H Slawson; D J Crouch; D E Rollins
Journal:  N Engl J Med       Date:  2000-10-26       Impact factor: 91.245

2.  Activation of opioid mu receptors in caudal medullary raphe region inhibits the ventilatory response to hypercapnia in anesthetized rats.

Authors:  Zhenxiong Zhang; Fadi Xu; Cancan Zhang; Xiaomin Liang
Journal:  Anesthesiology       Date:  2007-08       Impact factor: 7.892

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Journal:  Respir Physiol Neurobiol       Date:  2005-12-09       Impact factor: 1.931

5.  Activation of opioid μ-receptors in the commissural subdivision of the nucleus tractus solitarius abolishes the ventilatory response to hypoxia in anesthetized rats.

Authors:  Zhenxiong Zhang; Jianguo Zhuang; Cancan Zhang; Fadi Xu
Journal:  Anesthesiology       Date:  2011-08       Impact factor: 7.892

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10.  5-HT1A, but not 5-HT2 and 5-HT7, receptors in the nucleus raphe magnus modulate hypoxia-induced hyperpnoea.

Authors:  T B Nucci; L G S Branco; L H Gargaglioni
Journal:  Acta Physiol (Oxf)       Date:  2008-03-20       Impact factor: 6.311
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  14 in total

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Journal:  J Physiol       Date:  2014-03-15       Impact factor: 5.182

2.  A Subregion of the Parabrachial Nucleus Partially Mediates Respiratory Rate Depression from Intravenous Remifentanil in Young and Adult Rabbits.

Authors:  Justin R Miller; Edward J Zuperku; Eckehard A E Stuth; Anjishnu Banerjee; Francis A Hopp; Astrid G Stucke
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3.  Morphine has latent deleterious effects on the ventilatory responses to a hypoxic challenge.

Authors:  Walter J May; Ryan B Gruber; Joseph F Discala; Veljko Puskovic; Fraser Henderson; Lisa A Palmer; Stephen J Lewis
Journal:  Open J Mol Integr Physiol       Date:  2013-11

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5.  Low-dose morphine elicits ventilatory excitant and depressant responses in conscious rats: Role of peripheral μ-opioid receptors.

Authors:  Fraser Henderson; Walter J May; Ryan B Gruber; Alex P Young; Lisa A Palmer; Benjamin Gaston; Stephen J Lewis
Journal:  Open J Mol Integr Physiol       Date:  2013-08-01

6.  S-Nitroso-L-Cysteine Stereoselectively Blunts the Deleterious Effects of Fentanyl on Breathing While Augmenting Antinociception in Freely-Moving Rats.

Authors:  Paulina M Getsy; Santhosh M Baby; Ryan B Gruber; Benjamin Gaston; Tristan H J Lewis; Alan Grossfield; James M Seckler; Yee-Hsee Hsieh; James N Bates; Stephen J Lewis
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7.  Co-activation of μ- and δ-opioid receptors elicits tolerance to morphine-induced ventilatory depression via generation of peroxynitrite.

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8.  L-Cysteine ethyl ester reverses the deleterious effects of morphine on, arterial blood-gas chemistry in tracheotomized rats.

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9.  Bilateral carotid sinus nerve transection exacerbates morphine-induced respiratory depression.

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10.  Acute morphine blocks spinal respiratory motor plasticity via long-latency mechanisms that require toll-like receptor 4 signalling.

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