Analysis of human nasal mucous glycoproteins

Abstract

Human nasal turbinates were cultured in the presence of 3H-glucosamine, which is incorporated into nasal mucous glycoproteins. Nasal mucous glycoprotein was then characterized biochemically, and the effects of various neurohormones and immunologic stimulation on mucous glycoprotein release were analyzed. Fractionation of nasal mucous glycoprotein by gel filtration chromatography revealed a molecular size range of 2 to 200 X 10(5) (as judged by protein markers) but displayed a single, acidic charge, as reflected both in a narrow elution pattern from DEAE-cellulose and a sharp isoelectric focusing point of 2.6. Highly enriched nasal mucous glycoprotein preparations consisted of 80 per cent carbohydrate and 20 per cent protein (by weight) and included enzymatically cleavable carbohydrate side chains with molecular weights of 1,600 to 1,800. Thus, nasal mucous glycoproteins are a family of molecules that express uniform acidic charge characteristics and a wide range of molecular sizes. Cholinergic stimulation of atropine-inhibitable muscarinic receptors increased nasal mucous glycoprotein release in a dose-related manner, as did alpha-adrenergic stimulation. However, beta-adrenergic stimulation did not affect mucous glycoprotein release. Immunologic stimulation of nasal mast cells by either reversed anaphylaxis or antigen challenge after passive sensitization caused both histamine release and increased mucous glycoprotein release. Thus, nasal turbinates provide an accessible source of tissue for the analysis of nasal mucus secretion and mast cell degranulation and may provide a model for the study of pharmacologic approaches to the universally experienced discomfort of rhinorrhea.