The roles of mediators, irritants and allergens in causing mucin secretion from the trachea.

Two species, the cat and the goose, have been investigated to determine whether a variety of pharmacological mediators, irritants and allergens change the rate at which mucins (mucus glycoproteins) are secreted into the trachea. Mucins were labelled by the administration of radioactive precursors which the mucous cells took up and incorporated into glycoproteins. These were periodically washed out of a segment of trachea with physiological saline solution. Changes in the amount of mucin secreted were estimated from measurements of the amount of bound radioactivity in tracheal washings. Histamine increased mucin secretion but the effects were stronger and more consistent in the goose than in the cat. A variety of prostaglandins increased the secretion in both species. 5-Hydroxytryptamine failed to stimulate mucin output in the cat. Ammonia and cigarette smoke both increased mucin secretion in the cat and preliminary results suggest that this was by a combination of local and reflex mechanisms. O-Chlorobenzilidine malononitrile increased secretion from the goose trachea entirely by a local mechanism. Preliminary experiments in which sensitized cats were challenged by various routes have equivocal results on whether anaphylaxis increases airway mucin secretion. It is concluded that irritants cause mucin secretion both by reflexes and local mechanisms. The mechanisms for the latter may well include release of pharmacological mediators.

[1]  L. Reid,et al.  Bronchial secretion from normal human airways after inhalation of prostaglandin F2alpha, acetylcholine, histamine, and citric acid. , 1977, Thorax.

[2]  P. W. Kent,et al.  A Physiological, Biochemical and Histological Study of Goose Tracheal Mucin and its Secretion , 1977 .

[3]  R. Phipps,et al.  The effects of irritation at various levels of the airway upon tracheal mucus secretion in the cat. , 1976, The Journal of physiology.

[4]  P. W. Kent,et al.  The composition of tracheal mucus and the nervous control of its secretion in the cat , 1975, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[5]  P. Whiteman The quantitative determination of glycosaminoglycans in urine with Alcian Blue 8GX. , 1973, The Biochemical journal.

[6]  J. Sturgess,et al.  An organ culture study of the effect of drugs on the secretory activity of the human bronchial submucosal gland. , 1972, Clinical science.

[7]  W. Kendrick,et al.  Histochemistry of mucosubstances in the canine and human respiratory tract. , 1971, Laboratory investigation; a journal of technical methods and pathology.

[8]  J. Vane,et al.  Inhibition of prostaglandin synthesis as a mechanism of action for aspirin-like drugs. , 1971, Nature: New biology.

[9]  L. Reid,et al.  Ultrastructure of cells in the human bronchial submucosal glands. , 1970, Journal of anatomy.

[10]  D. Lamb,et al.  Histochemical and autoradiographic investigation of the serous cells of the human bronchial glands , 1970, The Journal of pathology.

[11]  J. Widdicombe,et al.  Activity of lung irritant receptors in pulmonary micro‐embolism, anaphylaxis and drug‐induced bronchoconstrictions , 1969, The Journal of physiology.

[12]  D. Lamb,et al.  Histochemical types of acidic glycoprotein produced by mucous cells of the tracheobronchial glands in man , 1969, The Journal of pathology.

[13]  A. Fishman,et al.  An Official Journal of the American Heart Association 1971 NO . 4 Histamine and Interstitial Pulmonary Edema in the Dog , 2005 .