Transient receptor potential vanniloid-1 (TRPV-1) mediates the cough response induced by the pepper extract capsaicin and is expressed in sensory nerves that innervate the airway wall. We determined the expression of TRPV-1 in the airways of patients with chronic persistent cough of diverse causes and with an enhanced capsaicin cough response. We obtained airway mucosal biopsies by fiberoptic bronchoscopy in 29 patients with chronic cough and 16 healthy volunteers without a cough. Immunostaining for nerve profiles with anti-protein gene product (PGP)-9.5 antibody showed no increase in nerve profiles in the airway epithelium of patients with chronic cough; however, with an anti-TRPV-1 antibody, there was a fivefold increase of TRPV-1 staining nerve profiles (p < 0.001). There was a significant correlation between capsaicin tussive response and the number of TRPV-1-positive nerves within the patients with cough. Our findings indicate that TRPV-1 receptors may contribute to an enhanced cough reflex and the cough response in chronic persistent cough of diverse causes.
Studies showed that the metabolic unlike the neuroendocrine effects of ghrelin could be abrogated by co-administered unacylated ghrelin. The aim was to investigate the interaction between ghrelin and desacyl ghrelin administered intraperitoneally on food intake and neuronal activity (c-Fos) in the arcuate nucleus in non-fasted rats. Ghrelin (13 μg/kg) significantly increased food intake within the first 30 min post injection. Desacyl ghrelin at 64 and 127 μg/kg injected simultaneously with ghrelin abolished the stimulatory effect of ghrelin on food intake. Desacyl ghrelin alone at both doses did not alter food intake. Both doses of desacyl ghrelin injected separately in the light phase had no effects on food intake when rats were fasted for 12 h. Ghrelin and desacyl ghrelin (64 μg/kg) injected alone increased the number of Fos positive neurons in the arcuate nucleus compared to vehicle. The effect on neuronal activity induced by ghrelin was significantly reduced when injected simultaneously with desacyl ghrelin. Double labeling revealed that nesfatin-1 immunoreactive neurons in the arcuate nucleus are activated by simultaneous injection of ghrelin and desacyl ghrelin. These results suggest that desacyl ghrelin suppresses ghrelin-induced food intake by curbing ghrelininduced increased neuronal activity in the arcuate nucleus and recruiting nesfatin-1 immunopositive neurons.
We developed an isolated tracheally perfused (35-37 degrees C) nerve-lung preparation for the study of bronchopulmonary afferent nerve activity in the mouse. Extracellular recordings were made from the vagal sensory neurons located in the jugular-nodose ganglia complex (JNC) with identified receptive fields in the lungs. Analysis of the vagal compound action potential revealed that the mouse vagal C-fibre conduction velocities range from 0.3 to 1.5 m s(-1). A total of 83 bronchopulmonary C-fibres were studied. The sensitivity of the bronchopulmonary C-fibres to the vanilloid receptor 1 (VR1) agonist capsaicin was dependent on conduction velocity. Thus C-fibres with conduction velocities between 0.3 and 0.7 m s(-1) responded to capsaicin (1 microM) while C-fibres with conduction velocities between 0.7 and 1.5 m s(-1) were capsaicin insensitive. Similarly, bradykinin (1 microM) excited only those C-fibres with conduction velocities < 0.7 m s(-1). The response to bradykinin was not mimicked by the B1 receptor agonist [des-Arg9]bradykinin (1 microM) and was abolished by the bradykinin B2 receptor antagonist HOE 140 (1 microM). Adenosine 5'-triphosphate (ATP, 30 microM) activated the C-fibres irrespective of the conduction velocities. This response was mimicked by the selective P2X agonist alpha,beta-methylene-adenosine 5'-triphosphate (30 microM). Consistent with the electrophysiology, morphological analysis revealed that only approximately 40% of the lung-specific small diameter (< 20 microm) JNC neurons consistent with the C-fibre cell bodies display VR1 immunoreactivity. This study describes a convenient in vitro method for the study of mouse bronchopulmonary C-fibres. The results indicate that C-fibres in the mouse lungs are not homogeneous, but can be subclassified into capsaicin-sensitive and capsaicin-insensitive phenotypes.
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