U Werner1, T Kissel. 1. Department of Pharmaceutics and Biopharmacy, University of Marburg, Germany.
Abstract
PURPOSE: To evaluate different in-vitro cell culture models for their suitability to study drug transport through cell monolayers. METHODS: Bovine turbinate cells (BT; ATCC CRL 1390), human nasal septum tumor cells (RPMI, 2650; ATCC CCL 30), and primary cell cultures of human nasal epithelium were characterized morphologically and histochemically by their lectin binding properties. The development of tight junctions in culture was monitored by actin staining and transepithelial electrical resistance measurements. RESULTS: The binding pattern of thin-sections of excised human nasal respiratory epithelium was characterized using a pannel of fluorescently-labelled lectins. Mucus in goblet cells was stained by PNA, WGA and SBA, demonstrating the presence of terminal N-acetylglucosamine, N-acetylgalactosamine and galactose residues respectively in the mucus of human nasal cells. Ciliated cells revealed binding sites for N-acetylglucosamine, stained by WGA, whereas Con A, characteristic for mannose moieties, labelled the apical cytoplasm of epithelial cells. Binding sites for DBA were not present in this tissue. Comparing three different cell culture models: BT, RPMI 2650, and human nasal cells in primary culture using three lectins (PNA, WGA, Con A) as well as intracellular actin staining and transepithelial electrical resistance measurements we found, that only human nasal epithelial cells in primary culture showed differentiated epithelial cells, ciliated nasal cells and mucus producing goblet cells, which developed confluent cell monolayers with tight junctions. CONCLUSIONS: Of the in-vitro cell culture models studied, only human nasal cells in primary culture appears to be suitable for drug transport studies.
PURPOSE: To evaluate different in-vitro cell culture models for their suitability to study drug transport through cell monolayers. METHODS:Bovine turbinate cells (BT; ATCC CRL 1390), human nasal septum tumor cells (RPMI, 2650; ATCC CCL 30), and primary cell cultures of human nasal epithelium were characterized morphologically and histochemically by their lectin binding properties. The development of tight junctions in culture was monitored by actin staining and transepithelial electrical resistance measurements. RESULTS: The binding pattern of thin-sections of excised human nasal respiratory epithelium was characterized using a pannel of fluorescently-labelled lectins. Mucus in goblet cells was stained by PNA, WGA and SBA, demonstrating the presence of terminal N-acetylglucosamine, N-acetylgalactosamine and galactose residues respectively in the mucus of human nasal cells. Ciliated cells revealed binding sites for N-acetylglucosamine, stained by WGA, whereas Con A, characteristic for mannose moieties, labelled the apical cytoplasm of epithelial cells. Binding sites for DBA were not present in this tissue. Comparing three different cell culture models: BT, RPMI 2650, and human nasal cells in primary culture using three lectins (PNA, WGA, Con A) as well as intracellular actin staining and transepithelial electrical resistance measurements we found, that only human nasal epithelial cells in primary culture showed differentiated epithelial cells, ciliated nasal cells and mucus producing goblet cells, which developed confluent cell monolayers with tight junctions. CONCLUSIONS: Of the in-vitro cell culture models studied, only human nasal cells in primary culture appears to be suitable for drug transport studies.
Authors: Levente Kürti; Szilvia Veszelka; Alexandra Bocsik; Béla Ozsvári; László G Puskás; Agnes Kittel; Piroska Szabó-Révész; Mária A Deli Journal: Cytotechnology Date: 2012-09-02 Impact factor: 2.058
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Authors: Jerome Deval; Jin Hong; Guangyi Wang; Josh Taylor; Lucas K Smith; Amy Fung; Sarah K Stevens; Hong Liu; Zhinan Jin; Natalia Dyatkina; Marija Prhavc; Antitsa D Stoycheva; Vladimir Serebryany; Jyanwei Liu; David B Smith; Yuen Tam; Qingling Zhang; Martin L Moore; Rachel Fearns; Sushmita M Chanda; Lawrence M Blatt; Julian A Symons; Leo Beigelman Journal: PLoS Pathog Date: 2015-06-22 Impact factor: 6.823