Han‐Pin Kuo scite author profile

SUMMARY1. We studied the effect of capsaicin and sensory neuropeptides on tracheal goblet cell secretion in anaesthetized guinea-pigs using a semi-quantitative morphometric technique whereby the magnitude of discharge of stained intracellular mucus, expressed as a mucus score (MS), was related inversely to discharge.2. Capsaicin (I.v.) induced goblet cell secretion: a decrease of 50% in MS below control (indicative of increased secretion) was maximal at 3-3 x 10-1 mol/kg.3. Capsaicin-induced secretion was unaffected either by prior vagus nerve section or by pre-treatment with atropine, propranolol and phentolamine which suggests that local axon reflexes with release of sensory neuropeptides are involved in the response.4. Intravenous substance P (SP), neurokinin A (NKA), neurokinin B (NKB), and calcitonin gene-related peptide (CGRP) produced dose-related increases in goblet cell secretion, with SP the most potent. Doses (mol/kg) causing a 50% decrease in MS from control were 3-5 x 0-12 for SP; 72 x 10"1 for NKA; 1-6 x 10-9 for NKB; and 1-2 x 10-8 for CGRP. The maximal increase in goblet cell secretion was 75% of control and occurred with SP at 10-10 mol/kg. 5. SP-induced mucus discharge was not inhibited by atropine or the histamine receptor antagonists mepyramine or cimetadine. 6. We conclude that in guinea-pig trachea, goblet cell secretion is under the control of capsaicin-sensitive sensory nerves and release of neuropeptides from these nerves may induce mucus discharge via tachykinin receptors of the NK-1 subtype (indicated by an order of potency of SP > NKA > NKB).

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Hypodense alveolar macrophages in patients with diabetes mellitus and active pulmonary tuberculosis

Wang

Lin

et al. 1999

Tubercle and Lung Disease

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Neural control of goblet cell secretion in guinea pig airways

Tokuyama¹,

Kuo

Rohde

et al. 1990

American Journal of Physiology-Lung Cellular and Molecular Phys

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We studied the neural control of goblet cell secretion in the lower airways of anesthetized guinea pigs using a semiquantitative morphometric technique. The magnitude of discharge of intracellular mucus was determined in histological sections of the trachea and main bronchi stained for mucus glycoproteins. Bilateral electrical stimulation of the cervical vagus nerves induced goblet cell secretion. The magnitude of the effect was dependent on the frequency, voltage, and pulse width of the stimulus, and the duration of stimulation. At 10 Hz, 5 V, and 5 ms for 3 min, there was a 62% decrease in the amount of intracellular mucus below that with sham stimulation. The secretion was blocked either by atropine or by pretreatment with capsaicin but was not significantly inhibited by idazoxan, an alpha-adrenoceptor antagonist. The magnitude of goblet cell discharge in animals pretreated with propranolol was intermediate between that in controls and that with nerve stimulation, although not significant to either. These results demonstrate that goblet cell secretion is under neural control in guinea pig airways and suggest that cholinergic, nonadrenergic-noncholinergic, and possibly adrenergic neural pathways, may contribute to the secretion.

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Han‐Pin Kuo

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Capsaicin and sensory neuropeptide stimulation of goblet cell secretion in guinea‐pig trachea.

Hypodense alveolar macrophages in patients with diabetes mellitus and active pulmonary tuberculosis

Neural control of goblet cell secretion in guinea pig airways

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