Neurotrophin and GDNF family ligand receptor expression in vagal sensory nerve subtypes innervating the adult guinea pig respiratory tract

Lieu, TinaMarie; Kollárik, Marián; Myers, Allen C.; Undem, Bradley J.

doi:10.1152/ajplung.00449.2010

Cited by 54 publications

(68 citation statements)

References 59 publications

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“…HRP was used as a tracing marker to observe the retrograde neuronal labeling [31]. Evidence in our study for the afferent component from the primary sensory ganglia (cervical DRG) to SCG has been provided by combining retrograde tracing with labeling immunofluorescence.…”

Section: Discussionmentioning

confidence: 99%

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Sensory–sympathetic coupling in superior cervical ganglia after myocardial ischemic injury facilitates sympathoexcitatory action via P2X7 receptor

Peng

et al. 2013

Purinergic Signalling

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P2X receptors participate in cardiovascular regulation and disease. After myocardial ischemic injury, sensorysympathetic coupling between rat cervical DRG nerves and superior cervical ganglia (SCG) facilitated sympathoexcitatory action via P2X 7 receptor. The results showed that after myocardial ischemic injury, the systolic blood pressure, heart rate, serum cardiac enzymes, IL-6, and TNF-α were increased, while the levels of P2X 7 mRNA and protein in SCG were also upregulated. However, these alterations diminished after treatment of myocardial ischemic (MI) rats with the P2X 7 antagonist oxATP. After siRNA P2X 7 in MI rats, the systolic blood pressure, heart rate, serum cardiac enzymes, the expression levels of the satellite glial cell (SGC) or P2X 7 were significantly lower than those in MI group. The phosphorylation of ERK 1/2 in SCG participated in the molecular mechanism of the sympathoexcitatory action induced by the myocardial ischemic injury. Retrograde tracing test revealed the sprouting of CGRP or SP sensory nerves (the markers of sensory afferent fibers) from DRG to SCG neurons. The upregulated P2X 7 receptor promoted the activation of SGCs in SCG, resulting in the formation of sensory-sympathetic coupling which facilitated the sympathoexcitatory action. P2X 7 antagonist oxATP could inhibit the activation of SGCs and interrupt the formation of sensory-sympathetic coupling in SCG after the myocardial ischemic injury. Our findings may benefit the treatment of coronary heart disease and other cardiovascular diseases.

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Section: Discussionmentioning

confidence: 99%

“…Retrograde tracing of HRP [31] in the cardiac afferent endings was used to observe the retrograde neuronal labeling from the cardiac afferent endings to SCG. The rats were anesthetized with 10 % chloral hydrate (0.3 ml/100 g).…”

Section: Immunohistochemistry and Double-label Immunofluorescencementioning

confidence: 99%

Sensory–sympathetic coupling in superior cervical ganglia after myocardial ischemic injury facilitates sympathoexcitatory action via P2X7 receptor

Peng

et al. 2013

Purinergic Signalling

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“…Finally, the effects of inflammation (321,332), infection (124), pollutants (252), and other stimuli on airway nerves are being explored, again with the intent of suppressing excessive bronchoconstriction, as well as cough reflexes. Here, an emerging theme is again neurotrophins such as NGF, BDNF, and glial-derived neurotrophic factor that serve to influence airway reactivity (175,176,200) as well as enhance immunity and reactivity in the airway following bacterial infections (38), exposure to house dust mite (and important aspect of allergic asthma) (346), allergen challenge (176), or ozone (322). Furthermore, it may be relevant to consider whether novel mechanisms such as TAS2R and OGR1 are present and functional in neural pathways involved in airway tone.…”

Section: Neural Controlmentioning

confidence: 99%

Airway smooth muscle in airway reactivity and remodeling: what have we learned?

Prakash

2013

American Journal of Physiology-Lung Cellular and Molecular Phys

179

154

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Prakash YS. Airway smooth muscle in airway reactivity and remodeling: what have we learned? Am J Physiol Lung Cell Mol Physiol 305: L912-L933, 2013. First published October 18, 2013 doi:10.1152/ajplung.00259.2013.-It is now established that airway smooth muscle (ASM) has roles in determining airway structure and function, well beyond that as the major contractile element. Indeed, changes in ASM function are central to the manifestation of allergic, inflammatory, and fibrotic airway diseases in both children and adults, as well as to airway responses to local and environmental exposures. Emerging evidence points to novel signaling mechanisms within ASM cells of different species that serve to control diverse features, including 1) [Ca 2ϩ ]i contractility and relaxation, 2) cell proliferation and apoptosis, 3) production and modulation of extracellular components, and 4) release of pro-vs. anti-inflammatory mediators and factors that regulate immunity as well as the function of other airway cell types, such as epithelium, fibroblasts, and nerves. These diverse effects of ASM "activity" result in modulation of bronchoconstriction vs. bronchodilation relevant to airway hyperresponsiveness, airway thickening, and fibrosis that influence compliance. This perspective highlights recent discoveries that reveal the central role of ASM in this regard and helps set the stage for future research toward understanding the pathways regulating ASM and, in turn, the influence of ASM on airway structure and function. Such exploration is key to development of novel therapeutic strategies that influence the pathophysiology of diseases such as asthma, chronic obstructive pulmonary disease, and pulmonary fibrosis.

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“…In adult mice, NTN was detected at a moderate level in the lung alveoli and in the thymus (18). Jugular trachea and lung transient receptor potential vanilloid type 1-positive neurons expressed GFRa-2 and RET at the mRNA level in guinea pig (19). Moreover, tracheal sections have revealed a positive staining for other neurotrophic factors like GDNF in the OVA-induced asthma model (20).…”

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confidence: 99%

Neurturin Influences Inflammatory Responses and Airway Remodeling in Different Mouse Asthma Models

Mauffray

Domingues

Hentges

et al. 2015

The Journal of Immunology

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Neurturin (NTN) was previously described for its neuronal activities, but recently, we have shown that this factor is also involved in asthma physiopathology. However, the underlying mechanisms of NTN are unclear. The aim of this study was to investigate NTN involvement in acute bronchial Th2 responses, to analyze its interaction with airway structural cells, and to study its implication in remodeling during acute and chronic bronchial inflammation in C57BL/6 mice. We analyzed the features of allergic airway inflammation in wild-type and NTN−/− mice after sensitization with two different allergens, OVA and house dust mite. We showed that NTN−/− dendritic cells and T cells had a stronger tendency to activate the Th2 pathway in vitro than similar wild-type cells. Furthermore, NTN−/− mice had significantly increased markers of airway remodeling like collagen deposition. NTN−/− lung tissues showed higher levels of neutrophils, cytokine-induced neutrophil chemoattractant, matrix metalloproteinase 9, TNF-α, and IL-6. Finally, NTN had the capacity to decrease IL-6 and TNF-α production by immune and epithelial cells, showing a direct anti-inflammatory activity on these cells. Our findings support the hypothesis that NTN could modulate the allergic inflammation in different mouse asthma models.

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Neurotrophin and GDNF family ligand receptor expression in vagal sensory nerve subtypes innervating the adult guinea pig respiratory tract

Cited by 54 publications

References 59 publications

Sensory–sympathetic coupling in superior cervical ganglia after myocardial ischemic injury facilitates sympathoexcitatory action via P2X7 receptor

Sensory–sympathetic coupling in superior cervical ganglia after myocardial ischemic injury facilitates sympathoexcitatory action via P2X7 receptor

Airway smooth muscle in airway reactivity and remodeling: what have we learned?

Neurturin Influences Inflammatory Responses and Airway Remodeling in Different Mouse Asthma Models

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