The GABA<sub>A</sub> agonist muscimol attenuates induced airway constriction in guinea pigs in vivo

Gleason, N. R.; Gallos, George; Zhang, Yi; Emala, Charles W.

doi:10.1152/japplphysiol.91314.2008

Cited by 24 publications

(23 citation statements)

References 16 publications

(18 reference statements)

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“…Although we and others have characterized GABA effects on smooth muscle relaxation as well as GABA receptor expression in human airway (4,7,15,23), we are the first to investigate the source of GABA in the airway as illustrated in the present study. Three possible sources of GABA include airway epithelium, airway smooth muscle itself, and airway nerves.…”

Section: Discussionmentioning

confidence: 94%

Airway epithelium is a predominant source of endogenous airway GABA and contributes to relaxation of airway smooth muscle tone

Gallos

Townsend

Yim

et al. 2013

American Journal of Physiology-Lung Cellular and Molecular Phys

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Chronic obstructive pulmonary disease and asthma are characterized by hyperreactive airway responses that predispose patients to episodes of acute airway constriction. Recent studies suggest a complex paradigm of GABAergic signaling in airways that involves GABA-mediated relaxation of airway smooth muscle. However, the cellular source of airway GABA and mechanisms regulating its release remain unknown. We questioned whether epithelium is a major source of GABA in the airway and whether the absence of epithelium-derived GABA contributes to greater airway smooth muscle force. Messenger RNA encoding glutamic acid decarboxylase (GAD) 65/67 was quantitatively measured in human airway epithelium and smooth muscle. HPLC quantified GABA levels in guinea pig tracheal ring segments under basal or stimulated conditions with or without epithelium. The role of endogenous GABA in the maintenance of an acetylcholine contraction in human airway and guinea pig airway smooth muscle was assessed in organ baths. A 37.5-fold greater amount of mRNA encoding GAD 67 was detected in human epithelium vs. airway smooth muscle cells. HPLC confirmed that guinea pig airways with intact epithelium have a higher constitutive elution of GABA under basal or KCl-depolarized conditions compared with epithelium-denuded airway rings. Inhibition of GABA transporters significantly suppressed KCl-mediated release of GABA from epithelium-intact airways, but tetrodotoxin was without effect. The presence of intact epithelium had a significant GABAergic-mediated prorelaxant effect on the maintenance of contractile tone. Airway epithelium is a predominant cellular source of endogenous GABA in the airway and contributes significant prorelaxant GABA effects on airway smooth muscle force.

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Section: Discussionmentioning

confidence: 94%

Airway epithelium is a predominant source of endogenous airway GABA and contributes to relaxation of airway smooth muscle tone

Gallos

Townsend

Yim

et al. 2013

American Journal of Physiology-Lung Cellular and Molecular Phys

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“…GABA uptake can be decreased with cell membrane depolarization, similar to GAT in the CNS (25). These findings are of particular interest in the ASM, because depolarizing stimuli favor contraction of ASM, and we have previously shown that activation of GABA A channels can contribute to hyperpolarization and the subsequent relaxation of ASM (11,14,19). We further demonstrate that GATs in cultured human airway epithelial cells release 3 H-GABA under ionically favorable conditions, and that this release is significantly increased by cell membrane depolarization.…”

mentioning

confidence: 76%

“…The emerging evidence of a role for both GABA A channels and GABA B receptors in ASM (8,10,14,19) and epithelium (7,9) led us to question the mechanism(s) by which synthesized GABA could be released from airway cells, and whether cells other than epithelial cells (i.e., smooth muscle) could be a source of GABA in the airway. Specifically, we questioned whether ASM also expresses GAD, and whether airway epithelium and smooth muscle cells functionally express the vesicular GAT (VGAT) or any of the four known GATs.…”

Section: Clinical Relevancementioning

confidence: 99%

Functional Expression of γ–Amino Butyric Acid Transporter 2 in Human and Guinea Pig Airway Epithelium and Smooth Muscle

Zaidi¹,

Gallos²,

Yim³

et al. 2011

Am J Respir Cell Mol Biol

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“…However, it has been a longstanding belief that any GABAergic contribution to airway tone was largely mediated by neurally mediated mechanisms (2,17,26). Our laboratory has demonstrated that airway smooth muscle GABA A receptor activation can both potentiate ␤-adrenoceptor agonist-mediated airway smooth muscle relaxation (in vitro) (7) as well as attenuate cholinergic-mediated airway resistance (in vivo) (8).…”

mentioning

confidence: 99%

Targeting the restricted α-subunit repertoire of airway smooth muscle GABA_A receptors augments airway smooth muscle relaxation

Gallos

Yim

Chang

et al. 2012

American Journal of Physiology-Lung Cellular and Molecular Phys

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The prevalence of asthma has taken on pandemic proportions. Since this disease predisposes patients to severe acute airway constriction, novel mechanisms capable of promoting airway smooth muscle relaxation would be clinically valuable. We have recently demonstrated that activation of endogenous airway smooth muscle GABAA receptors potentiates ␤-adrenoceptor-mediated relaxation, and molecular analysis of airway smooth muscle reveals that the ␣-subunit component of these GABAA receptors is limited to the ␣4-and ␣5-subunits. We questioned whether ligands with selective affinity for these GABAA receptors could promote relaxation of airway smooth muscle. RT-PCR analysis of GABAA receptor subunits was performed on RNA isolated by laser capture microdissection from human and guinea pig airway smooth muscle. Membrane potential and chloride-mediated current were measured in response to GABAA subunit-selective agonists in cultured human airway smooth muscle cells. Functional relaxation of precontracted guinea pig tracheal rings was assessed in the absence and presence of the ␣4-subunit-selective GABAA receptor agonists: gaboxadol, taurine, and a novel 8-methoxy imidazobenzodiazepine (CM-D-45). Only messenger RNA encoding the ␣4-and ␣5-GABAA receptor subunits was identified in RNA isolated by laser capture dissection from guinea pig and human airway smooth muscle tissues. Activation of airway smooth muscle GABAA receptors with agonists selective for these subunits resulted in appropriate membrane potential changes and chloride currents and promoted relaxation of airway smooth muscle. In conclusion, selective subunit targeting of endogenous airway smooth muscle-specific GABAA receptors may represent a novel therapeutic option for patients in severe bronchospasm.

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The GABA_A agonist muscimol attenuates induced airway constriction in guinea pigs in vivo

Cited by 24 publications

References 16 publications

Airway epithelium is a predominant source of endogenous airway GABA and contributes to relaxation of airway smooth muscle tone

Airway epithelium is a predominant source of endogenous airway GABA and contributes to relaxation of airway smooth muscle tone

Functional Expression of γ–Amino Butyric Acid Transporter 2 in Human and Guinea Pig Airway Epithelium and Smooth Muscle

Targeting the restricted α-subunit repertoire of airway smooth muscle GABA_A receptors augments airway smooth muscle relaxation

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The GABAA agonist muscimol attenuates induced airway constriction in guinea pigs in vivo

Cited by 24 publications

References 16 publications

Airway epithelium is a predominant source of endogenous airway GABA and contributes to relaxation of airway smooth muscle tone

Airway epithelium is a predominant source of endogenous airway GABA and contributes to relaxation of airway smooth muscle tone

Functional Expression of γ–Amino Butyric Acid Transporter 2 in Human and Guinea Pig Airway Epithelium and Smooth Muscle

Targeting the restricted α-subunit repertoire of airway smooth muscle GABAA receptors augments airway smooth muscle relaxation

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The GABA_A agonist muscimol attenuates induced airway constriction in guinea pigs in vivo

Targeting the restricted α-subunit repertoire of airway smooth muscle GABA_A receptors augments airway smooth muscle relaxation