Synthesis of mucous glycoproteins by rabbit tracheal cells in vitro. Modulation by substratum, retinoids and cyclic AMP

Vitamin A Deficiency Impairs Mucin Expression and Suppresses the Mucosal Immune Function of the Respiratory Tract in Chicks

The chicken immune system is immature at the time of hatching. The development of the respiratory immune system after hatching is vital to young chicks. The aim of this study was to investigate the effect of dietary vitamin A supplement levels on respiratory mucin and IgA production in chicks. In this study, 120 one-day-old broiler chicks were randomly divided into 4 groups consisting of three replicates of 10 broilers and subjected to dietary vitamin A supplement levels of 0, 1,500, 6,000, or 12,000 IU/kg for seven days. Compared with control birds, vitamin A supplementation significantly increased the mucin and IgA levels in the bronchoalveolar lavage fluid (BALF) as well as the IgA level in serum. In the lungs, vitamin A supplementation downregulated TNF-α and EGFR mRNA expression. The TGF-β and MUC5AC mRNA expression levels were upregulated by vitamin A supplementation at a dose of 6,000 IU/kg, and the IL-13 mRNA expression level was increased at the 12,000 IU/kg supplement level. Vitamin A deficiency (control) significantly decreased the mRNA expression levels of MUC2, IgA, EGFR, IL-13 and TGF-β in trachea tissue. Histological section analysis revealed that the number of goblet cells in the tracheal epithelium was less in the 0 and 12,000 IU/kg vitamin A supplement groups than in the other groups. In conclusion, vitamin A deficiency suppressed the immunity of the airway by decreasing the IgA and mucin concentrations in neonatal chicks. This study suggested that a suitable level of vitamin A is essential for the secretion of IgA and mucin in the respiratory tract by regulating the gene expression of cytokines and epithelial growth factors.

Transdifferentiation of outgrowth cells and cultured epithelial cells from swine trachea

The morphologic and functional properties of explant out-growth cells and epithelial cells isolated from swine trachea epithelium by proteolysis were examined. A mixed population of ciliated, serous, and basal cells, obtained from out-growths, from proteolysis of trachea epithelium, and from unattached explants in organ culture, all yielded cell cultures that werecomposed almost entirely of mucus-secreting cells. When the cells were grown in primary or secondary culture on a modified collagen matrix in supplemented HAM:DMEM (1:1) medium they expressed a mucus-secreting phenotype with numerous mucus granules at various stages of maturation and incorporated [3H]GlcN and 35SO4 into secreied mucin glycoproteins. Results obtained in these studies suggest that extensive transdifferentiation of ciliated and serous cells to mucus-secreting-cells occurs after the release and during subsequent attachment and culture. Ciliated cells containing mucus granules were seen in various stages of cilia resorption. Basal cells containing mucus granules were also frequently observed. The number of mucus-secreting cells and the synthesis of mucin glycoproteins increased dramatically with time of attachment and culture, whereas cell proliferation, population doubling time of 72 h, and incorporation of [3H]-thymidine into DNA increased much more slowly. The number of mucus-secreting cells correlated closely with the level of secretion of mucin glycoproteins. Taken collectively, these studies help to elucidate the transdifferentiation process, which dramatically increases the number of mucus-secreting cells after disruption and release of epithelial cells from swine tracheobronchial epithelium. A similar mechanism involving disruption of the extracellular matrix may be involved in the stimulation of hypersecretion of mucus and mucin glycoproteins by chemical and infections irritants.

Chronic effects of mechanical force on airways

Airways are embedded in the mechanically dynamic environment of the lung. In utero, this mechanical environment is defined largely by fluid secretion into the developing airway lumen. Clinical, whole lung, and cellular studies demonstrate pivotal roles for mechanical distention in airway morphogenesis and cellular behavior during lung development. In the adult lung, the mechanical environment is defined by a dynamic balance of surface, tissue, and muscle forces. Diseases of the airways modulate both the mechanical stresses to which the airways are exposed as well as the structure and mechanical behavior of the airways. For instance, in asthma, activation of airway smooth muscle abruptly changes the airway size and stress state within the airway wall; asthma also results in profound remodeling of the airway wall. Data now demonstrate that airway epithelial cells, smooth muscle cells, and fibroblasts respond to their mechanical environment. A prominent role has been identified for the epithelium in transducing mechanical stresses, and in both the fetal and mature airways, epithelial cells interact with mesenchymal cells to coordinate remodeling of tissue architecture in response to the mechanical environment.

Induction of Egr-1 expression by the retinoid AHPN in human lung carcinoma cells is dependent on activated ERK1/2

The novel retinoid 6-[3-(1-adamantyl)-4-hydroxyphenyl]-2-naphthalene carboxylic acid (AHPN/CD437) inhibits cell proliferation and is a very effective inducer of apoptosis in a variety of carcinoma cell lines. In order to obtain greater insight into the mechanism of AHPN-induced growth arrest and apoptosis, we began to examine AHPN-induced changes in gene expression by cDNA array screening using human lung carcinoma H460 cells. This analysis identified several AHPN-inducible genes, including the immediate-early genes Egr-1 and Nur77. AHPN was able to increase Egr-1 and Nur77 mRNA expression and protein in a variety of carcinoma cell lines. This induction appeared to be regulated at the transcriptional level and was specific for AHPN since an RAR- and an RXR-selective retinoid were inactive. These results suggest that the induction of Egr-1 and Nur77 by AHPN is independent of nuclear retinoid receptors and involves a novel mechanism. Overexpression of Bcl-2, which inhibits AHPN-induced apoptosis but not growth arrest in human T cell lymphoma Molt-4 cells, did not block the induction of immediate-early gene expression. Treatment of H460 cells with AHPN induced activation of the p38 MAP-kinase but not the ERK1/2 signaling pathway. However, inhibition of the ERK1/2 signaling pathway by PD98059 blocked the induction of Egr-1 and Nur77 mRNA while the p38 MAPK inhibitor PD169316 had little effect. Expression of a dominant-negative ERK1 completely abolished the increase in Egr-1 mRNA. Treatment with MAPK inhibitors or expression of dnERK1 reduced but did not block AHPN-induced apoptosis. Our results suggest that the induction of Egr-1 in H460 by AHPN requires active ERK1/2 and is independent of p38 activation. Egr-1, in cooperation with several other growth-suppressor proteins, is likely involved in AHPN-induced inhibition of cell growth and cell death.

Induction of the cytochrome P450 gene CYP26 during mucous cell differentiation of normal human tracheobronchial epithelial cells

In this study, the expression of CYP26 is examined in relation to retinoid-induced mucosecretory differentiation in human tracheobronchial epithelial (HTBE) cells and compared with that in human lung carcinoma cell lines. In HTBE cells, retinoic acid (RA) inhibits squamous differentiation and induces mucous cell differentiation as indicated by the suppression of transglutaminase I and increased expression of the mucin gene MUC2. The latter is accompanied by increased expression of CYP26 mRNA. RA is required but not sufficient to induce RARbeta, CYP26, and MUC2 mRNA because induction is only observed in confluent but not in logarithmic cultures, suggesting that additional factors are critical in their regulation. CYP26 mRNA can be induced by the RAR-selective retinoid 4-(5,6,7,8-tetrahydro-5,5,8,8-tetramethyl-2-anthracenyl)-benzoic acid (TTAB) but not by the RXR-selective retinoid SR11217 or the anti-activator-protein 1-selective retinoid SR11302. RARalpha-, beta-, and gamma-selective retinoids are able to induce CYP26; this induction is inhibited by the RARalpha-selective antagonist Ro41-5253. TTAB is able to induce CYP26 mRNA expression in only a few of the lung carcinoma cell lines tested. The lack of CYP26 induction in many carcinoma cell lines may relate to previously reported defects in the retinoid-signaling pathway. The induction of CYP26 correlated with increased metabolism of RA into 18-hydroxy-, 4-oxo-, and 4-hydroxy-RA. The latter metabolite was shown to be able to induce MUC2 and MUC5AC expression in HTBE cells. Our results demonstrate that in normal HTBE cells, CYP26 expression is closely associated with mucous cell differentiation and that many lung carcinoma cells exhibit increased RA metabolism and a defective regulation of CYP26.

Integration of growth factor, extracellular matrix, and retinoid signals during bronchial epithelial cell differentiation

Epithelial cell differentiation is regulated by specific combinations of growth factors, hormones, and extracellular matrix (ECM). How these divergent signals are integrated is largely unknown. We used primary cultures of normal human bronchial epithelial cells (NHBEs) to investigate mechanisms of signal integration. In defined, serum-free media, NHBEs undergo mucosecretory differentiation only when grown in the presence of retinoids and on the appropriate substratum (collagen gels). We identified the retinoic acid receptor beta (RARbeta) gene as an early marker of NHBE differentiation. In contrast to immortalized cell lines, in NHBEs strong retinoid-induced RARbeta transcription occurs only when cells are grown on collagen gels, and it requires new protein synthesis and a cis-acting element that maps outside the known RARbeta promoter elements. NHBEs grown on collagen gels exhibit reduced epidermal growth factor (EGF)-induced Raf, MEK, and mitogen-activated protein kinase (MAPK) activity. This correlates with a specific inability to achieve high levels of p66(SHC) tyrosyl phosphorylation and association of p66(SHC) with GRB2, despite high levels of EGF receptor (EGFR) autophosphorylation. Notably, inhibition of EGFR or MEK/MAPK activation replaces the ECM requirement for RARbeta induction. Our results strongly suggest that a key mechanism by which specific ECMs facilitate retinoid-induced mucosecretory differentiation of NHBEs is by restricting the level of EGFR-dependent MEK/MAPK activation evoked by autocrine and/or paracrine EGFR ligands.

Comparison between ELISA and gel-filtration assay for the quantitation of airway mucins

In this study, we developed immunoassay methods for the more convenient and effective detection of rat tracheal mucin and the results were compared with those of [3H]glucosamine based gel-filtration method. A monoclonal anti-rat tracheal mucin antibody, mAbRT03, which specifically recognizes rat tracheal mucins, was used throughout in this study. To induce mucin secretion, varying concentrations of ATP (0-2 mM) were applied to the primary rat tracheal surface epithelial (RTSE) cell culture which had been metabolically radiolabeled with [3H]glucosamine and the secretion of mucin was analyzed both by the immunoassay and the gel-filtration chromatography methods. For the immunoassay, the following two procedures were employed. 1) Simple ELISA; the culture spent media were directly coated onto the assay plate and the immunoreactivity with mAbRT03 was assessed from the standard curve generated with the purified rat mucin. 2) Inhibition ELISA; A known amount of the purified rat mucin was coated onto the assay plate and then ATP-stimulated culture spent media were added to inhibit the immunoreactivity with mAbRT03. The contents of mucin in the sample were calculated from the standard inhibition curve which was generated with the purified rat mucin. The assay results obtained from the immunoassays were identical with those from the gel-filtration methods. The present result indicates that ELISA can be substituted for the laborious, time-consuming gel-filtration assay in studying the regulation of airway mucin release from cultured airway epithelial cells.

Inhibition of cell proliferation and induction of apoptosis by the retinoid AHPN in human lung carcinoma cells

In this study, we investigated the effect of the novel retinoid 6-[3-(1-adamantyl)-4-hydroxyphenyl]-2-naphthalene carboxylic acid (AHPN/CD437) on the growth of human lung carcinoma cell lines. AHPN inhibits the proliferation of all cell lines tested, irrespective of the lung tumor type, in a concentration- and time-dependent manner. A dramatic reduction in cell number was observed in adenocarcinoma H460 cells, and was shown to be related to an induction of apoptosis. Bromodeoxyuridine (BrdU) incorporation and flow-cytometric analyses indicated that treatment of H460 cells with AHPN induces cell-cycle arrest at the G1 phase. We therefore investigated the effect of AHPN on several regulatory proteins of the G1 phase of the cell-cycle. The cell-cycle arrest induced by AHPN was accompanied by an inhibition of the hyperphosphorylation of the retinoblastoma (Rb) protein, an indication of G1 arrest. Furthermore, two cyclin-dependent kinases, cdk2 and cdk4, which are normally involved in the phosphorylation of Rb, were shown to have decreased activity. In some cell lines, the decrease in cdk activity may be partly related to an increase in p21(WAF1/Cip1) (p21), an inhibitor of cyclin-dependent kinases. No changes were observed in the cyclin-dependent kinase inhibitor p27(Kip1). The observed increase in p53 in response to AHPN could at least to some extent be responsible for the increased levels of p21. The increase in p53 expression was found to be regulated at a post-transcriptional level. Our results suggest that the growth inhibition of certain lung carcinoma cell lines by AHPN is at least partly related to an increase in p21. However, in other cell lines, different mechanisms appear to be involved. The specificity with which AHPN and other retinoids induce growth arrest and p21 expression indicates that the action of AHPN is not mediated by RAR or RXR receptors, but involves a novel signaling pathway.

Epithelial-mesenchymal interactions in the alteration of gene expression and morphology following lung injury

Numerous studies using morphologic techniques have demonstrated the plasticity of pulmonary epithelial cells and the requirement for complex intercellular interactions for regeneration of normal epithelium following lung injury. Recent developments in the molecular characterization of genes expressed in the lung have generated additional tools for evaluation of lung cell phenotypes and interactions. This review discusses the relationship between molecular and morphologic changes in lung cells during injury and repair. Changes in epithelial morphology and their differentiated gene products may be mediated through alterations in expression of numerous factors acting through paracrine and autocrine mechanisms. Tumor necrosis factor alpha, transforming growth factor beta, and retinoic acid, whose roles in the regulation of epithelial cell differentiation have been well documented, will be discussed in the context of normal lung development and repair from injury.

Retinoic acid-regulated cellular differentiation and mucin gene expression in isolated rabbit tracheal-epithelial cells in culture

Rabbit tracheal epithelial cells were cultured in a serum-free and hormone-supplemented medium with and without retinoic acid. The cells showed time-dependent mucin gene expression when cultured in the medium with retinoic acid. In the absence of retinoic acid, however, mucin mRNA was barely detectable in the cells. When retinoic acid was added back to the medium, the mucin message was prominent again. Actinomycin D and cycloheximide did not inhibit mucin gene expression. The mucin message was slightly elevated by cAMP agonists. A mucin antisense oligomer inhibited the retinoic acid-induced mucin mRNA expression and secretion, thus offering an alternate approach in the management of mucus hypersecretion in upper airway respiratory diseases such as chronic bronchitis, asthma, and cystic fibrosis.

Evidence for impaired retinoic acid receptor-thyroid hormone receptor AF-2 cofactor activity in human lung cancer

Retinoic acid (RA) is required for normal airway epithelial cell growth and differentiation both in vivo and in vitro. One of the earliest events following the exposure of bronchial epithelial cells to RA is the strong induction of RA receptor beta (RAR beta) mRNA. Previous work established that many lung cancer cell lines and primary tumors display abnormal RAR beta mRNA expression, most often absence or weak expression of the RAR beta 2 isoform, even after RA treatment. Restoration of RAR beta 2 into RAR beta-negative lung cancer cell lines has been reported to inhibit tumorigenicity. Since RAR beta 2 inactivation may contribute to lung cancer, we have investigated the molecular mechanism of defective RAR beta 2 expression. Nuclear run-on assays and transient transfections with RAR beta 2 promoter constructs indicate the presence of trans-acting transcriptional defects in most lung cancer cell lines, which map to the RA response element (RARE). These defects cannot be complemented by RAR-retinoid X receptor cotransfection and can be separated into two types: (i) one affecting transcription from direct repeat RAREs, but not palindromic RAREs, and (ii) another affecting transcription from both types of RARE. Studies using chimeras between RAR alpha, TR alpha, and other transcription factors suggest the existence of novel RAR-thyroid hormone receptor AF-2-specific cofactors, which are necessary for high levels of transcription. Furthermore, these factors may be frequently inactivated in human lung cancer.

Retinoic acid modulation of mucin mRNA in rat tracheal explants: response to actinomycin D, cycloheximide, signal transduction effectors and antisense oligodeoxynucleotide

Factors affecting the retinoic acid modulated expression of mucin mRNA in rat tracheal cultures were studied. Actinomycin D had no effect on mucin mRNA in cultures grown with retinoic acid (RA+). The usual precipitous drop in mucin mRNA in cultures lacking retinoic acid (RA-) was prevented by actinomycin D. Cycloheximide also had no effect on mucin mRNA in RA+ cultures, but, like actinomycin D, it prevented the precipitous drop in mucin mRNA in RA- cultures. cAMP agonists had some marginal effects on the mucin mRNA, but none as dramatic as those noted by actinomycin D and cycloheximide in the RA- cultures. An antisense oligomer (18 bases) to rat mucin cDNA inhibited the mucin mRNA expression in RA+ cultures.

The effect of neutrophil protenase enzymes on the release of mucus from feline and human airway cultures

Neutrophils may be central in the pathogenesis of several airway diseases. The effect of two neutrophil products upon mucus release from feline and human airways was examined in vitro. Neutrophil elastase (HNE) and cathepsin G (HCG) were equipotent in stimulating mucus release from feline trachea. A potential mechanism of the mucus release was studied by exposure to HNE and various inhibitors of serine proteases or eicosanoid metabolism. Coincubation with the serine protease inhibitor, chloromethylketone, completely blocked HNE-stimulated mucus release. The putative selective cyclooxygenase inhibitor, ibuprofen, did not alter HNE-stimulated mucus release. The phospholipase A2 inhibitor, bromophenacyl bromide, and various lipoxygenase inhibitors blocked HNE-stimulated mucus release by 30-40%. The effect of HNE upon mucus release from human upper and lower airways was also examined. HNE stimulated greater mucus release from human bronchi than from nasal mucosa. The cellular source of the mucus was investigated in feline trachea and human upper airway by quantitation of mucus using enzyme assays for a specific mucous cell marker (monoclonal antibody 7F-10). HNE stimulated the release of 7F-10 detectable mucus, and after coincubation with chloromethylketone this stimulation was blocked. These data demonstrate that neutrophil products may alter airway mucus secretion and that altered eicosanoid metabolism may partially mediate these effects. Additionally, the lower airways appear more responsive to HNE than upper airways.

Effect of retinoic acid on mucin gene expression in rat airways in vitro

Ultrastructural examination of rat tracheal explants at various times of culture in a serum-free and hormone-supplemented medium containing retinoic acid showed that the cytological characteristics of the epithelium were well preserved for at least 192 h. Hybridization analyses for mucin core protein mRNA in the explants were performed with a 30-base oligonucleotide probe, the design of which was based on the tandem repeat sequence of the rat intestine mucin core protein. The probe reacted with total RNA prepared from trachea, intestine and colon, but not with total RNA obtained from liver or alveolar region of the lung. Type-I keratin expression was observed in the explant grown at different periods of time in a medium with and without retinoic acid. The hybridization probe gave a prominent reaction with RNA preparations obtained from tracheal explants incubated for as long as 192 h in a medium containing retinoic acid. In the absence of retinoic acid, however, the mucin message was evident at the 24 h time point but thereafter decreased to barely detectable levels. When retinoic acid was added at 96 h to the latter cultures, the mucin mRNA was prominent again after additional incubation for 24 and 48 h. Northern-blot analyses of tracheal RNA showed a diffuse band at approx. 7.5 kb. Addition of a variety of chemical and pharmacological agents to explants cultured in the presence of retinoic acid had no dramatic induction or inhibitory effects on the mucin mRNA. Only the steroid prednisolone had a reproducible inhibitory effect.

Enhanced growth potential of cultured rabbit tracheal epithelial cells following exposure to N-methyl-N'-nitro-N-nitrosoguanidine

To establish a standardized model for the transformation of rabbit airway epithelial cells, we attempted to transform rabbit tracheal epithelial (RbTE) cells in culture with N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). RbTE cells, harvested by enzymatic digestion from male New Zealand white rabbits, were plated onto feeder layers of irradiated 3T3 cells. Control cells proliferated exponentially during the 2nd week of culture and reached the plateau phase by the 3rd week. Cells exposed to MNNG (0.1 microgram/ml) proliferated in a fashion similar to the control cells, except that there was some delay before proliferation began. The clonogenic activity of RbTE cells rapidly decreased in parallel with the increase in cell population equally in the control and MNNG groups. During the late plateau phase, cells exposed to MNNG regained clonogenic activity, and this compartment size expanded with time, whereas the clonogenic activity in control cultures remained below the detectable level. In RbTE cell cultures exposed three times to 0.1 microgram/ml MNNG, large, persistent and proliferating colonies emerged at a frequency of 1-3 x 10(-2) among the surviving clones, whereas all the control cultures eventually became senescent. The MNNG-induced alteration in the growth potential of RbTE cells, i.e., the extended lifespan, and the maintenance and even expansion of clonogenic activity, was similar to that of transformed rat tracheal epithelial cells. However, no immortal cell line could be established from these growth-altered RbTE cells. We therefore concluded that the growth-altered RbTE cells were partially transformed.

Quantitative ultrastructural analysis of the relationship between cell growth, shape change, and mucosecretory differentiation in cultured hamster tracheal epithelial cells exposed to retinoic acid

Hamster tracheal epithelial cells in extended (32 degrees C) primary culture with and without supplemental retinoic acid (RA) were studied during the proliferative (5 days) and differentiation phases (11 days) by correlative transmission electron microscopy (EM) and light microscopic (LM) autoradiography to quantify the relationship between cell proliferation, shape change, and mucin granule expression. In retinyl acetate-containing control medium, cell numerical density was higher and [3H]thymidine labeling index (LI) lower at day 11 compared with day 5. The addition of 10(-7) M RA to the medium caused an increase in cell numerical density at both times. LI was increased by RA at 5 days and decreased at 11 days. Measurements of cell shape in ultrathin sections adjacent to LM autoradiographs made in the vertical plane demonstrated an RA-induced change from flat to cuboidal at 5 days and a more columnar phenotype at 11 days. Cells containing mucin granules were of two main types based on their ultrastructure. One type, seen at 5 and 11 days, contained diminutive mucin granules and had an LI of 50% at 11 days. Its LI and frequency (26%) were unaltered by RA. The other type, less frequent (15%) and present only at 11 days, was more columnar and contained mucous granules similar to those found in vivo. RA doubled the frequency of this cell type but did not affect its LI (11%). Cells of this type with more than five mucin granules in EM profile did not incorporate thymidine. The data indicate that RA accelerates and enhances cell shape change toward a more cuboidal phenotype.(ABSTRACT TRUNCATED AT 250 WORDS)

Biochemical characterization of mucous glycoproteins secreted by in vitro chinchilla middle ear epithelial cells

A method for middle ear epithelial (CMEE) cell culture with active mucus secretory function has been successfully developed, using the chinchilla as an animal model. CMEE cells were dissociated by protease digestion from the middle ear mucosa. The CMEE cells grown in primary culture incorporated [3H]glucosamine into a glycoconjugate after its release into medium. This substance was characterized biochemically as mucin, although the production of mucin by the cells required growth on a substratum of collagen gel. These cultures provide an excellent model for studying factors that regulate synthesis and secretion of glycoproteins in CMEE cells.

Regulation of type I and type II transglutaminase in normal human bronchial epithelial and lung carcinoma cells

In cultured, undifferentiated normal human bronchial epithelial (HBE) cells, transglutaminase activity was localized predominantly in the cytosolic fraction of cell lysates. Upon squamous differentiation, this cytosolic activity declined and was replaced by a 40-fold increase in the activity of particulate (membrane-associated) transglutaminase. Immunoblot analysis demonstrated that the cytosolic transglutaminase was Type II (tissue) transglutaminase and that squamous differentiation shifted gene expression to the Type I (epidermal) transglutaminase. Retinoic acid, an inhibitor of squamous cell differentiation, suppressed the increase in Type I transglutaminase. The decrease in Type II transglutaminase activity was unaffected by retinoic acid. Transforming growth factor-beta 1 (TGF-beta 1) enhanced Type II transglutaminase activity about 10-fold in the undifferentiated cells but did not increase Type I transglutaminase or cholesterol sulfate, two early markers of squamous differentiation. TGF-beta 2 was equivalent to TGF-beta 1 in inducing Type II transglutaminase and in inhibiting the growth of HBE cells. The differentiation-related and TGF-beta-induced changes in transglutaminase activity were reflected in the level of transglutaminase Type I and Type II protein and mRNA. Expression of transglutaminases in lung carcinoma cell lines was variable. No correlation was observed between the expression of Type I transglutaminase and the classification of the cells as squamous cell carcinoma. Several lung carcinoma cell lines exhibited high levels of Type II transglutaminase activity that were increased several-fold by TGF-beta 1 treatment. Retinoic acid was ineffective in altering transglutaminase expression in most cell lines but induced Type II transglutaminase in a time- and dose-dependent manner in NCI-HUT-460 cells.(ABSTRACT TRUNCATED AT 250 WORDS)

In vitro effects of drugs on production of mucins in rabbit tracheal epithelial cells expressing mucin gene: a model system for studying upper airway respiratory diseases

Rabbit tracheal epithelial cells, cultured on collagen-coated dishes in serum-free and hormone-supplemented medium, were found to incorporate [3H]glucosamine into high-molecular-weight components that were secreted in the medium. The chemical analysis of the secreted products resulted in a profile that resembled that of mucous glycoproteins (mucins). When examined by dot blot analysis, the total RNA isolated from these cells hybridized to an antisense 30-mer oligonucleotide corresponding to a rat intestine mucin peptide sequence, indicating that mucin gene was expressed in these cell lines. Lung and liver tissues of rabbit did not express this gene. Transmission electron microscopy exhibited secretory granules in these cells. The incorporation of [3H]glucosamine into mucins was inhibited by three aryl-N-acetyl-galactosaminides and a chemical carcinogen, N-nitroso-N-ethyl urea, whereas 5-azacytidine enhanced the proliferation of cells as well as the radiolabeling of mucins. Parasympathetic agent (pilocarpine), cholinergic antagonist (atropine), and beta-adrenergic agonist (isoproterenol) alone have little effect on the secretion of mucins. The cholinergic agonist, methacholine, was found to increase the production of mucins and addition of atropine to the medium before methacholine blocked this stimulation. Histamine was found to stimulate mucin production in these cells.

Evidence for secretion of high molecular weight mucins by canine tracheal epithelial cells in primary culture: effects of select secretagogues in mucin secretion

The purpose of this investigation was to provide evidence for the secretion of high molecular weight mucins, CTM-A and CTM-B, in primary culture of canine tracheal epithelial (CTE) cells. The cells were isolated from tracheas of mongrel dogs by pronase treatment. Primary cultures of the epithelial cells were established using ICN collagen inserts in Dulbecco's modified Eagle's/F12 medium supplemented with growth factors and could be maintained for up to 23 days. The evidence for the mucin secretion in culture medium and their localization in the cells was established by a) positive immunocytochemical staining using specific antibodies developed against purified native as well as deglycosylated CTM-A and CTM-B; b) incorporation of labeled amino acids, followed by electrophoresis and autoradiography detection of glycoconjugates purified from the culture medium; c) comparison of the amino acid compositions of mucin purified from canine tracheal pouch secretions and that purified from the culture medium; and d) Western blot analyses using specific polyclonal antibodies directed against deglycosylated CTM-A and CTM-B. Immunoaffinity purified secreted labeled glycoconjugates were resistant to hyaluronidase treatment. The effects of cyclic AMP (1 x 10(-5) M), dibutyryl cyclic AMP (1 x 10(-5) M), 8-bromocyclic AMP (1 x 10(-5) M), and prostaglandin E1 (1 x 10(-6) M) on mucin secretion by CTE cells were also investigated. Secretion of mucins by CTE cells in culture was considerably more enhanced by 8-bromocyclic AMP than that observed for other secretagogues used in this study.

Mucin-type glycoproteins

Considerable advances have been made in recent years in our understanding of the biochemistry of mucin-type glycoproteins. This class of compounds is characterized mainly by a high level of O-linked oligosaccharides. Initially, the glycoproteins were solely known as the major constituents of mucus. Recent studies have shown that mucins from the gastrointestinal tract, lungs, salivary glands, sweat glands, breast, and tumor cells are structurally related to high-molecular-weight glycoproteins, which are produced by epithelial cells as membrane proteins. During mucin synthesis, an orchestrated sequence of events results in giant molecules of Mr 4 to 6 x 10(6), which are stored in mucous granules until secretion. Once secreted, mucin forms a barrier, not only to protect the delicate epithelial cells against the extracellular environment, but also to select substances for binding and uptake by these epithelia. This review is designed to critically examine relations between structure and function of the different compounds categorized as mucin glycoproteins.

Critical variables controlling cell proliferation in primary cultures of rat tracheal epithelial cells

The purpose of our experiments was to examine variables affecting early events in the establishment of rat tracheal epithelial (RTE) cultures as well as factors regulating long-term RTE cell growth. The experiments showed that when RTE cells were seeded into complete serum-free medium between 13 and 30% of the seeded cells attached. Of the seeded cells, only approximately 2% entered into DNA synthesis and underwent repeated cell divisions to form colonies containing greater than 20 cells. Coating the dishes with extracellular matrix components had little effect on cell attachment or colony forming efficiency (CFE). However, coating the dishes with fetal bovine serum markedly increased CFE. The media components bovine serum albumin and bovine pituitary extract were shown to be important in promoting cell attachment as well as CFE. Cholera toxin on the other hand had no effect on cell attachment but significantly increased CFE. These and other studies showed that cell attachment and cell proliferation are independently regulated. Studies on long-term culture growth indicated that the number of progeny produced per colony forming unit (CFU) is inversely proportional to the number of CFUs seeded. Inasmuch as the cultures did not become confluent under any of the culture conditions tested and media obtained from high density cultures were shown to be growth inhibitory, these findings suggest that a diffusible growth restraining factor is being produced by the cultures limiting clonal expansion. Experiments showing growth inhibitory effects of media conditioned by high cell density cultures support this interpretation. The putative factor reaches critical concentrations earlier in cultures seeded with high numbers of CFU than in cultures seeded with low numbers of CFU. Because the cultures are known to produce transforming growth factor-beta, this growth regulator probably plays a role in controlling RTE cell proliferation. However, it is likely than other events, such as depletion of growth factors from the media, also are significant in regulating the growth of the cultures.

Expression of nuclear retinoic acid receptors in normal tracheobronchial cells and in lung carcinoma cells

Retinoids are important regulators of the growth and differentiation of tracheobronchial epithelial cells. To determine the mechanism of action of retinoids in these cells, we began to examine the expression of nuclear retinoic acid receptors (RARs) in normal human and rabbit tracheobronchial epithelial (HBE and RbTE, respectively) cells and in several lung carcinoma cell lines. A specific nuclear RAR-binding activity with a molecular weight of 50,000 was identified in these cells. A correlation was found between the binding of several retinoids to this RAR and their ability to inhibit transglutaminase Type I activity. Normal HBE and RbTE cells contained two RAR alpha mRNA transcripts, 2.6 and 3.5 kb in size, and one 3.1 kb RAR gamma transcript. RAR beta transcripts were undetectable in HBE cells. RAR expression was unchanged during squamous differentiation. Treatment of HBE and RbTE cells with 100 nM retinoic acid increased RAR beta mRNA expression but did not change the levels of RAR alpha and RAR gamma. In contrast, retinoic acid suppressed in these cells the level of involucrin, transglutaminase Type I, and SQ37 mRNA. In comparison with normal HBE cells, certain lung carcinoma cell lines appear to have an altered expression of RAR beta and RAR gamma. Human bronchial fibroblasts (HBF) expressed RAR alpha and RAR gamma transcripts of the same size as HBE cells. HBF cells contain low levels of a 2.9- and 3.3-kb RAR beta mRNA. Treatment of HBF cells with retinoic acid increased the level of RAR beta mRNA in a time-dependent manner; the maximal induction was about 15-fold. On the basis of these findings we hypothesize that RARs are involved in the suppression of squamous differentiation in tracheobronchial epithelial cells and that lung fibroblasts are target cells for retinoids.

Rat sublingual gland as a model to study glandular mucous cell secretion

To study the regulation of mucous cell secretion, we have developed an in vitro cell model consisting of enzymatically dispersed mucous acinar structures (cell aggregates) from rat sublingual glands. Histological and ultrastructural evidence demonstrates that the cell aggregates are highly enriched in mucous cells, retain the morphological and ultrastructural features observed in intact glands, and undergo transition to an extensive secretory state when stimulated by 10 microM carbachol. The secretory responsiveness of the cell aggregates was verified in pharmacological studies. Carbachol stimulated secretion in a dose-dependent manner with high affinity (concentration causing half-maximal response = 0.3 microM) and was completely inhibited by atropine. Secretion was also stimulated by vasoactive intestinal peptide and substance P but not by alpha- or beta-adrenergic agonists. Biochemical characterization of secretion during nonstimulated and carbachol-stimulated conditions (after preincubation in [3H]glucosamine) demonstrated that, in response to carbachol, cell aggregates synthesized and secreted mucins which were similar to mucin glycoproteins isolated from whole glands. Collectively, our results establish that the rat sublingual cell aggregate model is a viable and pharmacologically responsive cell system to study the regulation of mucous cell secretion.

Characterization of epithelial cell cultures derived from human tracheal glands

Cultures of normal human tracheal gland epithelial cells that exhibit functional differentiation have been propagated in serum-free medium supplemented with insulin (5 micrograms/ml), epidermal growth factor (10 ng/ml), hydrocortisone (0.5 micrograms/ml), and bovine pituitary extract (25 micrograms/ml). The cells retain many characteristics of epithelial cells including microvilli on cell surfaces, desmosomes between cells, and tonofilaments in the cytoplasm. In addition, they exhibit keratin-positive titers and react positively with Peanut agglutinin, which is specific for the disaccharide beta-D-galactose-(1----3)N-acetyl D-galactosamine, a major component of mucin glycoprotein. The cells also exhibit normal Cl- channel activity which was enhanced by the cAMP agonist Forskolin. The major component of the cellular secretion was hyaluronic acid; approximately 10% of the void volume material was resistant to hyaluronidase and may contain material similar to mucin glycoprotein. Some of the cell cultures have been maintained in serum-free conditions for 6 to 7 passages. This model will be important to study regulation of ion-channel activities and mucous glycoprotein secretion and to compare such regulations with the tracheal mucosal epithelial cells already established.

Induction and characterization of secretory differentiation in human fetal bronchial epithelial cell line (HFBE) cultured on collagen gel in growth hormone and vitamin A-supplemented medium

A type of secretory differentiation was induced and characterized in a human fetal bronchial epithelial cell line (HFBE), which was grown on a collagen substratum in a basal differentiative medium (BDM) containing growth hormones and with supplementation of various concentrations of vitamin A (VA). HFBE cells grown on a collagen gel in BDM with or without VA assumed a spindle shape with thick cytoplasm arranged in strands running parallel to each other. Under a phase-contrast microscope, cells cultured in the absence of VA possessed a small number of bright inclusion bodies, which proved to be positive to PAS and almost negative to alcian-blue (AB) staining. Electron microscopy revealed well-developed rough endoplasmic reticulum (rER), enlarged Golgi apparatus and a small number of high-density granules resembling serous or Clara cell granules. HFBE cells treated with VA at levels higher than 6 mu/ml showed a remarkable increase of the secretory granules and contained amorphous material in the rER. Addition of a low concentration of VA (6 ng/ml) only stimulated the growth of HFBE cells. In contrast, higher concentrations of VA significantly inhibited the growth and 3H-thymidine incorporation into DNA in a dose-dependent manner. HFBE cells cultured on collagen gel with VA secreted products with 2 different molecular weights into the medium. A high molecular weight-product, consisting of void volume fractions from a Bio-gel A 15-m column, was identified as hyaluronic acid based on the results obtained from the DEAE-ion exchange chromatography and specific enzymatic digestion. A low molecular weight-product fractionated on the A 15-m was tentatively identified as mainly neutral glycoproteins containing N-linked glycans. While the secretion of hyaluronic acid was inhibited by VA in a dose-dependent manner, the secretion of the neural glycoproteins was most enhanced by VA in the range from the physiological concentration of 600 ng/ml to 6 micrograms/ml. These biochemical data on the secretory products, together with the morphological findings, demonstrate that the HFBE cell line serves as a new model for investigating the cellular differentiation of human lung epithelium.

Mucin-like glycoproteins secreted from cultured hamster tracheal surface epithelial cells: their hydrophobic nature and amino acid composition

Confluent cultures of primary hamster tracheal surface epithelial cells synthesize and secrete high molecular weight mucin-like glycoproteins (HMW MLGP). Secreted HMW MLGP are highly associated with various lipids, indicating that they are extremely hydrophobic. These HMW MLGP are also associated with varying amounts of "small" glycoproteins via hydrophobic interactions and they can be dissociated by heat and detergent treatments. HMW MLGP free of these "small" glycoconjugates have a buoyant density of 1.5 g/ml and can enter 4% but not 7.5% gels during SDS-polyacrylamide gel electrophoresis. Amino acid composition analysis of HMW MLGP free of these "small" glycoproteins shows that they are relatively rich in serine, threonine, and proline, but the total content of these amino acids seems somewhat lower than that of in vivo airway mucins.

Positive and negative regulation of proliferation and differentiation in tracheobronchial epithelial cells

The lung (in particular the bronchial epithelium) is a major site for tumor formation in humans. Environmental factors in conjunction with genetic factors are important determinants in this disease. The acquisition of defects in the control of proliferation and differentiation appears to constitute crucial steps in the transition of a normal to a neoplastic cell. Several factors have been identified that control positively or negatively the proliferation and differentiation of tracheobronchial epithelial cells. These factors include EGF/TGF alpha, TGF beta, insulin/IGFI, KGF, certain cytokines, retinoids, and activators of protein kinase C. Studies with neoplastic cells have identified several protooncogenes and tumor suppressor genes whose gene products are involved in the regulation of cell growth of normal tracheobronchial epithelial cells, and when mutated, lost, or activated, bring about a neoplastic phenotype. Future studies on the precise function of these genes will help to elucidate the mechanisms by which proliferation and differentiation in normal tracheobronchial epithelial cells are regulated and help to understand the molecular changes involved in diseases such as cancer.

Characterization of guinea pig tracheal epithelial cells maintained in biphasic organotypic culture: cellular composition and biochemical analysis of released glycoconjugates

An air-liquid interface (biphasic) primary culture system in which guinea pig tracheal epithelial cells maintain morphologic characteristics of differentiated epithelium has been developed in this laboratory. In this report, we compared quantitatively cell populations of 8-day cultures to those of epithelial mucosa in intact trachea. In addition, high molecular weight glycoconjugates released by the cultured cells were isolated and characterized. Quantitative morphometric analysis revealed similar volume densities of ciliated, secretory, basal, and "other" cells in cultures and in intact tracheal surface epithelium, although the cultures tended to have smaller cells and contained fewer basal cells. High molecular weight glycoconjugates released apically by cell cultures and excluded from Sepharose CL-4B columns contained approximately 5% hyaluronic acid but undetectable amounts of other proteoglycans, such as chondroitin sulfate, heparan sulfate, and dermatan sulfate. The hyaluronidase-resistant glycoconjugates exhibited a peak buoyant density at 1.49 g/ml on cesium chloride density gradient centrifugation and were shown to contain mucin-type carbohydrate to peptide linkages (i.e., GalNAc to ser/thr) and an amino acid composition typical of respiratory mucins. The results indicate that this organotypic cell culture system mimics quite closely morphology of mucosal epithelium in intact airways and that the cells release high molecular weight glycoconjugates with biochemical properties of mucin-type glycoproteins. Thus, this in vitro system appears well-suited for studies of mucin secretion and other functions of respiratory epithelial cells.

Secretory differentiation of human fetal bronchial epithelial cells in culture. A study by histochemistry and electron microscopy

Human fetal bronchial epithelial (HFBE) cells at 6-8 passages were cultivated on a collagen gel for 10 days. A basal differentiative medium (BDM), consisting of RPMI 1640 supplemented with hormones and growth factors, was employed. Histochemistry, scanning electron microscopy and transmission electron microscopy revealed that HFBE cells developed secretory granules when cultivated on collagen gel in BDM. They were electron-dense and stained positive for PAS but negative for alcian blue. On additional treatment with 8 micrograms/ml vitamin A (VA), the number of secretory granules was increased. Moreover, the HFBE cells lost their surface microvilli, and dilation of rough endoplasmic reticulum was more marked than in culture without VA.

Secretions from primary hamster tracheal surface epithelial cells in culture: mucin-like glycoproteins, proteoglycans, and lipids

Surface epithelial cells dissociated from hamster tracheas and grown on a thick collagen gel in the presence of 5% fetal bovine serum become highly enriched with secretory cells at confluence. In the present communication, we have analyzed secretory products from this primary hamster tracheal surface epithelial (HTSE) cell culture. The secreted glycoconjugates included high-molecular-weight mucin-like glycoproteins (HMW MLGP) and proteoglycans that comprised 22% and 5% of the total [3H]glycoconjugates secreted when [3H]glucosamine was added as a metabolic precursor. Among the proteoglycans were hyaluronic acids (53%), heparan sulfate proteoglycans (29%), and chrondroitin sulfate proteoglycans (18%). Chondroitin sulfates were mostly 4-sulfated. On the other hand, the secreted lipids included cholesterol, phospholipids, and glycolipids, and most of them were associated with HMW MLGP.

Differentiated properties of rabbit tracheal epithelial cells in primary culture

The purpose of this study was to establish whether rabbit tracheal epithelial cells, grown in primary cell culture, retain neurohormonal receptor and mediator activity. Epithelial cells were isolated by enzymatic treatment and cultured on a collagen matrix. The culture medium consisted of a 1:1 mixture of Dulbecco's modified Eagle medium and Ham's F12 supplemented with 5% fetal calf serum, epidermal growth factor, insulin, transferrin, fibronectin, hydrocortisone, and trace elements. Cultures had a population doubling time of 48 h. Mucus-containing cells and cilia were not observed after 7 days of incubation. Positive immunofluorescent staining with monoclonal antibodies to keratins established the epithelial nature of the cell cultures. Primary cell cultures responded to beta-adrenergic agonists with a dose- and time-dependent increase in intracellular adenosine 3',5'-cyclic monophosphate (cAMP) levels. Propranolol, a beta-adrenergic antagonist, blocked the effects of the beta-adrenergic agonist. Adrenergic agonists also mediated a dose-dependent increase in the generation and release of prostaglandin E2 (PGE2). PGE2 caused an increase in cAMP levels. The results demonstrate that primary cultures of rabbit tracheal epithelial cells retain hormonal responses of the isolated epithelium and tracheal mucosa-submucosa.

Metabolism of all-trans-retinol and all-trans-retinoic acid in rabbit tracheal epithelial cells in culture

As reported previously squamous cell differentiation of rabbit tracheal epithelial (RTE) cells in culture is a multi-step process. This program of differentiation is inhibited by retinoic acid and retinol; retinoic acid is about 100 times more effective than retinol. To examine the metabolism of these agents in this in vitro model system, RTE cells were grown in the presence of all-trans-[3H]retinol or all-trans-[3H]retinoic acid and their metabolites analyzed by high-pressure liquid chromatography. RTE cells converted most of the retinol to retinyl esters, predominantly retinyl palmitate. A small fraction was metabolized to polar compounds, one of which coeluted with retinoic acid. After methylation this compound eluted as 13-cis-methyl retinoate and as all-trans-methyl retinoate. Conversion to 13-cis-retinol was also observed. All-trans-retinoic acid was rapidly taken up by RTE cells and converted to more polar (peak 1) and less polar (peak 3) metabolites. A proportion of all-trans-[3H]retinoic acid was metabolized to 13-cis-[3H]retinoic acid. These metabolic reactions appeared to be constitutive and were not induced by pretreatment with retinoic acid. The peak 1 metabolites were rapidly secreted into the medium whereas the peak 3 metabolites were retained by the cells and were not detected in the medium. Alkaline hydrolysis of the metabolites in peak 3 yielded retinoic acid, indicating the formation of retinoyl derivatives. Our results establish that RTE cells can convert all-trans-retinol to 13-cis-retinol and retinoic acid. RTE can metabolize all-trans-retinoic acid to 13-cis-retinoic acid and to an unidentified ester of retinoic acid.