Hormone-refractory prostate cancer cells express functional follicle-stimulating hormone receptor (FSHR).

PURPOSE: Understanding growth regulation in hormone-refractory prostate cancer may provide avenues for novel treatment interventions. This study was conducted to characterize the expression of the receptor (FSHR) for follicle-stimulating hormone (FSH) in androgen-independent prostate cancer cell lines and in human malignant prostate tissues. MATERIALS AND METHODS: Western blotting, immunohistochemistry (IHC), and flow cytometric analysis were used to study the expression of FSHR. The effect of FSH on cell growth and clonogenicity was studied using proliferation and clonogenic assays. RESULTS: Immunohistochemistry revealed expression of FSH in PC3 and Du145 cells. FSHR was identified in PC3 and Du145 cells, as well as in human adenocarcinoma of the prostate. The specificity of the FSHR detected on prostate cancer tissues or cells by IHC and Western blotting was confirmed by preabsorbing the antibodies with the immunizing antigens. Stimulation of these hormone-refractory cells with FSH triggered a proliferative response in vitro, suggesting that the receptor is biologically active. CONCLUSION: Hormone-refractory prostate cancer cells express FSH and biologically active FSHR. Our results suggest that FSHR and its ligand may play a role in the regulation of the growth of hormone-refractory prostate cancers.

Extended survivability of prostate cancer cells in the absence of trophic factors: increased proliferation, evasion of apoptosis, and the role of apoptosis proteins.

This project was undertaken to study the survival properties of various prostate cells, including normal (NHP), BPH (benign prostate hyperplasia), primary carcinoma (PCA), and metastatic prostate cancer cells (LNCaP, PC3, and Du145), in the absence of trophic factors. Cell proliferation and cell death were quantitated by enumerating the number of live cells using MTS/PMS kit and of dead (apoptotic) cells using 4',6-diamidino-2-phenylindole dihydrochloride nuclear staining. These cells demonstrated an overall survivability in the order of BPH < NHP < LNCaP < PC3 < PCA < Du145. Upon growth factor deprivation, NHP/BPH cells rapidly underwent apoptosis, leading to a decreased number of live cells. PCA/PC3/Du145 cells, in contrast, demonstrated an initial phase of aggressive growth during which apoptosis rarely occurred, followed by a "plateau" phase in which cell loss by apoptosis was compensated by cell proliferation, followed by a later phase in which apoptosis exceeded the cell proliferation. LNCaP cells demonstrated survival characteristics between those of NHP/BPH and PCA/PC3/Du145 cells. We concluded that the increased survivability in prostate cancer cells results from enhanced cell proliferation as well as decreased apoptosis. The molecular mechanisms for evasion of apoptosis in prostate cancer cells were subsequently investigated. Quantitative Western blotting was used to examine the protein expression of P53 and P21WAF-1, Bcl-2 and Bcl-X(L) (anti-apoptotic proteins), and Bax, Bak, and Bad (proapoptotic proteins). The results revealed that, upon trophic factor withdrawal, NHP and BPH cells upregulated wild-type p53 and proapoptotic proteins Bax/Bad/Bak and down-regulated the expression of P21. Furthermore, NHP and BPH cells endogenously expressed little or no Bcl-2. In sharp contrast, prostate cancer cells expressed nonfunctional P53 and various amounts of Bcl-2 proteins. Upon deprivation, these cancer cells up-regulated P21 and Bcl-2 and/or BclX(L), lost response to withdrawal-induced up-regulation of Bax/Bad/Bak or decreased or even completely lost Bax expression and expressed some novel proteins such as P25 and P54/55 complex. These data together suggest that prostate cancer cells may use multiple molecular mechanisms to evade apoptosis, which, together with increased proliferation, contribute to extended survivability of prostate cancer cells in the absence trophic factors.

Growth of human nondiploid primary prostate tumor epithelial cells in vitro.

Research into molecular and cellular defects underlying prostate cancer would be advanced by in vitro models of prostate tumor cells representing patient tumors. We have propagated, in serum-free medium, epithelial cell cultures derived from nondiploid prostate tumors and normal human prostate. The serial passage tumor cells exhibited nondiploid karyotype and transformed phenotypes of focus formation and anchorage-independent growth. In contrast, the normal prostate cells showed diploid karyotype and lacked transformed phenotypes. Both the tumor and normal cells were positive for prostate-specific antigen and cytokeratins 18 and 19 and negative for keratin 15. These results demonstrate that the nondiploid prostate tumors and normal prostate epithelial cell cultures retained their respective in vivo properties and should allow studies to elucidate molecular alterations involved in human prostate cancer.

Differential growth factor responses of epithelial cell cultures derived from normal human prostate, benign prostatic hyperplasia, and primary prostate carcinoma.

Because of a lack of information of the optimum nutritional requirements, epithelial cells derived from normal human prostate and prostate tumors have been difficult to propagate in vitro, which hinders research in prostate carcinogenesis. In an effort to establish optimum nutritional conditions and differences in growth characteristics of normal human prostate (NP), benign prostatic hyperplasia (BPH), and prostatic carcinoma (PCA), we have compared the effects of several growth factors on cell proliferation and elucidated growth properties of low passage epithelial cells derived from NP, BPH, and PCA of an African-American patient. Primary and low passage cultures were propagated in serum-free keratinocyte basal medium (KBM) supplemented with insulin (5 micrograms/ml), hydrocortisone (0.5 microgram/ml), epidermal growth factor (EGF, 10 ng/ml), bovine pituitary extract (BPE; 50 micrograms/ml), cholera toxin (10 ng/ml), and antibiotics. Almost all NP, BPH, and PCA cells were positive for cytokeratins and prostate-specific antigen (PSA). The NP, BPH, and PCA cells were essentially diploid and lacked mutations in c-K-ras and c-Ha-ras oncogenes, and p53 tumor suppressor gene. However, they exhibited progressively accelerating growth parameters. The population doubling times of NP, BPH and PCA were 51 hr, 37 hr, and 29 hr, respectively; their saturation densities were 2.9 x 10(4)/cm2, 3.3 x 10(4)/cm2, and 7.2 x 10(4)/cm2, respectively. The NP and BPH cells required all of the growth factors in the medium, as deletion of any one of the above factors strongly inhibited their growth. The PCA cells, however, were independent of EGF and hydrocortisone. PC-3, an established human prostate cancer cell line, was independent of the growth factors tested. Fetal bovine serum (FBS) inhibited the growth of NP, BPH and PCA cells. In contrast, FBS stimulated the growth of the PC-3 cells in a concentration-dependent manner. These results indicate that in the absence of any apparent karyotype alterations and mutations in c-K-ras, c-Ha-ras and p53 genes, epithelial cells derived from NP, BPH, and PCA exhibit significant differences in their growth properties and responses to growth factors. These variations may represent early changes involved in prostate cancer, while gene mutations and cytogenetic alterations occur in advanced and/or metastatic tumors.

Protein kinase C, interleukin-1 beta, and corticosteroids regulate shedding of the type I, 55 kDa TNF receptor from human airway epithelial cells.

Tumor necrosis factor (TNF) may contribute to the pathogenesis of inflammatory airway disorders via the regulation of inflammatory and cellular immune responses. Shed cell surface TNF receptors can act as soluble TNF binding proteins and modulate TNF biological activity. We report that normal human airway epithelial cells, as well as two human airway epithelial cell lines, shed soluble type I TNF receptors (sTNF-RI) in a concentration-dependent fashion following protein kinase C (PKC) activation by PMA. Interleukin (IL)-1beta also induced concentration-dependent sTNF-RI shedding from NCI-H292 cells, which could be inhibited by the PKC inhibitor calphostin C. Since corticosteroids are commonly utilized as antiinflammatory agents in airway disorders, the effect of dexamethasone on sTNF-RI release was assessed. Dexamethasone inhibited constitutive, as well as PMA- and IL-1beta-mediated sTNF-RI release from NCI-H292 cells in a concentration-dependent fashion. Furthermore, dexamethasone increased while PMA decreased total cellular 55 kDa TNF-RI protein as detected by immunoblotting. These changes in total cellular 55kDa TNF-RI protein did not appear to be mediated at the mRNA level, as assessed by ribonuclease protection assays. This suggests that sTNF-RI shedding represents a mechanism by which airway epithelial cells can actively participate in local cytokine networks and modulate TNF-mediated inflammation. Furthermore, since corticosteroids inhibit sTNF-RI release and are known to downregulate TNF synthesis, this may represent a mechanism by which equilibrium between TNF ligand and soluble binding protein is maintained in the airway microenvironment.

Growth and gene expression in diploid epithelial cell lines derived from normal human parotid gland.

Secretions of salivary glands are essential for the maintenance of oral health. Due to the lack of suitable in vitro models, studies to examine biochemical and molecular mechanisms of the cellular secretions have been difficult. Furthermore, adequate quantities of human epithelial cells could not be obtained, because normal diploid cells are believed to exhibit a limited lifespan of two to three passages (40-50 population doublings). This report describes for the first time the development of two diploid epithelial acinar cell lines, HPAM1 and HPAF1, derived from the normal human parotid gland. The cell lines are propagated in serum-free medium comprised of keratinocyte basal medium supplemented with insulin (5 micrograms/ml), hydrocortisone (0.5 micrograms/ml), epidermal growth factor (EGF, 10 ng/ml), bovine pituitary extract (25 micrograms/ml), and antibiotics. The HPAM1 cell line has been passaged more than 50 times (> 189 population doublings) and HPAF1 more than 40 times (> 185 population doublings). Both cell lines exhibit normal diploid karyotypes, lack transformed phenotypes and are non-tumorigenic in nude mice. Both cell lines produce tissue-specific proteins, i.e. alpha-amylase 1, basic proline-rich protein, and cystatins; and express the corresponding genes as determined by RT-PCR analyses. These results demonstrate that normal diploid human cells do not inherently exhibit limited life-span in vitro and can, under optimum conditions, be propagated indefinitely.

Differentiation of immortalized epithelial cells derived from cystic fibrosis airway submucosal glands.

Cystic fibrosis (CF) involves abnormalities in mucus production and secretion of the airway. Studies of the regulation of airway mucin production and secretion has been difficult due to the lack of in vitro models of the airway epithelial cells which express functional differentiation. Because the majority of the mucin in the airway is apparently produced by the submucosal glands, we have focused our attention on the development of cell culture models of human airway submucosal glands. This report describes the propagation of CF airway submucosal gland epithelial cells which continue to express mucin production. The CF bronchus was obtained from a 31-yr-old patient who received a double lung transplant. The glands were dissected out and primary cultures prepared by the explant/outgrowth procedure. The cells were immortalized by infection with Ad12-SV40 hybrid virus. The cultures are maintained in serum-free keratinocyte basal medium supplemented with insulin (5 micrograms/ml), hydrocortisone (0.5 microgram/ml), epidermal growth factor (10 ng/ml), bovine pituitary extract (25 micrograms/ml), and antibiotics. Cultures were passaged using 0.125% trypsin in Ca+2 and Mg(+2)-free Hanks', balanced salt solution. Polymerase chain reaction (PCR) analysis demonstrated that the cells were homozygous for the delta F508 mutation. Morphologic observations showed that the cells were epithelial and were interconnected by sparsely distributed desmosomes. Their cytoplasm contained secretory-type structures including abundant Golgi, rough endoplasmic reticulum, and secretory vesicles. Immunofluorescent studies determined that all cells were positive for cytokeratins, mucin glycoconjugates, and cystic fibrosis transmembrane conductance regulator. The cultures secreted substantial amounts of mucin glycoproteins and expressed the MUC-2 mucin gene.(ABSTRACT TRUNCATED AT 250 WORDS)

Differences in secretory profiles of epithelial cell cultures derived from human tracheal and bronchial mucosa and submucosal glands.

The respiratory tract contains macromolecules produced by various epithelia including tracheal and bronchial mucosa and submucosal glands. The objectives of this study were to elucidate and compare the growth and secretory profiles of epithelial cell cultures derived from the human tracheal (TC) and bronchial mucosa (BC) and submucosal glands (GC). Most experiments were done on third to fourth passage cultures. Secretory glycoconjugates were characterized by a combination of gel filtration and anion-exchange chromatography after enzymic digestion with hyaluronidase of [3H]glucosamine and [35S]sulphate incorporated glycoconjugates secreted into the culture medium. Intracellular mucin-like glycoproteins were characterized by immunohistochemical staining with a human monoclonal respiratory mucin antibody. Results showed that the three cell types exhibited variable growth rates and secretory profiles. Doubling times of GC, BC and TC were 53, 75 and 80 h respectively. Immunocytochemical staining with the mucin antibody demonstrated positive reaction in GC and BC; TC showed no significant reaction. Mucin-like glycoproteins were detected in the spent media of GC and BC whereas TC, under the same conditions, did not produce any detectable amount of the glycoconjugates. Further, the mucin-like materials produced by GC and BC differed in their relative glycosylation and sulphation levels. The production of mucin was independent of substrate and vitamin A as the cultures were propagated on the plastic surfaces and the culture medium lacked vitamin A.

Secretion of alpha-amylase in human parotid gland epithelial cell culture.

The secretions of the salivary gland system are essential for the maintenance of oral health. The nature of cell-specific secretions of the various glands and their regulation is not completely understood. The objective of this study was to establish epithelial cell cultures from the human parotid gland that exhibit the tissue-specific function of alpha-amylase secretion. A specimen of normal human parotid gland was obtained at surgery and used to obtain primary cultures by the explant/outgrowth procedure. The cultures were maintained in keratinocyte basal medium, supplemented with insulin (5 micrograms/ml), EGF (10 ng/ml), hydrocortisone (0.5 micrograms/ml), bovine pituitary extract (25 micrograms/ml), and antibiotics. The cultures were passaged using 0.125% trypsin to dissociate the cells. Phase contrast and ultrastructural observations showed that the cells were polygonal and exhibited desmosomes. Their cytoplasm contained tonofilament bundles and abundant rough endoplasmic reticulum and Golgi complexes. Immunofluorescence studies showed that all cells were positive for cytokeratins. Immunoblot analysis revealed keratins with molecular weights of 58, 56, 52, 50, 48, 46, and 40 KD, which are characteristic of secretory epithelia. The cells have been passaged 35 times so far, undergoing a cumulative 120-140 population doublings. The serially passaged epithelial cell cultures produced and secreted alpha-amylase, a major component of parotid gland acinar cell secretion. The beta-adrenergic agonist, isoproterenol (ISP), stimulated alpha-amylase secretion, which was accompanied by increased intracellular concentrations of cAMP. ISP-induced stimulation of amylase and cAMP was blocked by the beta-adrenergic antagonist, propranolol. Further, dibutyryl cAMP also enhanced the secretion of amylase. Thus we have established a long-term epithelial cell culture model of human parotid gland epithelial cells that exhibits differentiated function and retains the intact beta-adrenergic receptor system.

Retinoic acid and calcium regulation of p53, transforming growth factor-beta 1, and transforming growth factor-alpha gene expression and growth in adenovirus 12-SV40-transformed human tracheal gland epithelial cells.

Vitamin A and calcium are important regulators of growth and differentiation of epithelial cells and are intimately involved in preneoplastic and neoplastic transformation. It has been proposed that their effects are mediated by autocrine/paracrine positive and negative regulators of growth. The objectives of this investigation were to examine the effects of all-trans retinoic acid (RA) and Ca2+ on cell proliferation, anchorage-independent growth (AIG), and on the expression of transforming growth factor-alpha (TGF-alpha), transforming growth factor-beta 1 (TGF-beta 1), and p53 tumor suppressor genes in human tracheal gland epithelial (HTGE) cells immortalized by adenovirus 12-simian virus 40 (Ad12-SV40) hybrid. Cells exhibiting the transformed phenotype, AIG, were maintained in serum-free culture conditions. Calcium effects were examined at 0.15, 0.50, 1.0, and 2.0 mM concentrations. The effects of RA were determined with 10(-9), 10(-7), and 10(-6) M concentrations. Gene expression was examined by Northern and Western analyses. Ca2+ had no significant effect on cell proliferation, but it enhanced the expression of TGF-beta 1 gene and slightly inhibited p53 expression. Ca2+ had no effect on TGF-alpha. RA inhibited both cell proliferation and AIG growth, which was accompanied by enhanced expression of p53. RA had no significant effect on the expression of TGF-alpha and TGF-beta 1 genes. These results demonstrate that RA regulates growth of HTGE cells mainly by upregulating the p53 gene; Ca2+, which enhances TGF-beta 1 expression, had no effect on growth.

Cell renewal and gene expression in the trachea of hamster at different ages.

The tracheal mucosa of the Syrian golden hamster has been extensively employed as a model system for respiratory tract cell renewal, injury, and carcinogenesis. However, baseline cell kinetic data are not available for normal juvenile and adolescent animals in which the mucosa and cartilage are rapidly enlarging. The objective of this research was to elucidate alterations in cell kinetics, epithelial morphology, and gene expression in the trachea of hamsters at different ages. Cell kinetics were examined by 3H-thymidine labeling indices, morphology by light and electron microscopic examination, and gene expression by slot blot analysis. Results showed that mucosal epithelium of the young and adolescent hamster undergoes cyclic necrosis and cell shedding, exposing portions of the elastic basal lamina. Epithelial shedding was associated with hyperplasia and squamous metaplasia. Additionally, the labeling indices of mucosal epithelial cells and chondroblasts also exhibited variable patterns which were associated with a cyclic pattern of expression of c-fos and c-erbB2 proto-oncogenes and epidermal growth factor receptor.

Successful in vitro growth of human respiratory epithelium on a tracheal prosthesis.

Reconstruction of tracheal defects may be necessary following trauma or oncologic surgery. Defects up to 8 cm can often be repaired using end-to-end anastomosis. Use of a tracheal prosthesis for larger defects has been complicated by recurrent stenosis and infection. Recent animal studies, utilizing a Dacron polyurethane prosthesis suggest that problems with anastomotic stenosis and infection can be controlled. Problems with a central stenosis within the prosthesis persist when used for defects greater than 6 cm. Establishment of a confluent lining of respiratory epithelium is believed to be necessary for successful prosthetic tracheal reconstruction. Using cell culture techniques, we report the first successful seeding and growth of human respiratory epithelium onto a Dacron polyurethane tracheal prosthesis.

Cell-specific alterations in glycoconjugates in the development of squamous metaplasia induced by benzo[a]pyrene in hamster tracheal explants.

Squamous metaplasia of tracheal mucosa, putative preneoplastic lesions, involves replacement of normal mucociliary epithelium with epidermoid lesions. Alterations in cell differentiation and neoplasia accompany changes in glycoconjugates at the plasma membrane. Lectins which bind to specific cell surface glycoconjugates are used to elucidate such alterations. We have used peanut agglutinin (PNA) and concanavalin A (Con A) as specific molecular probes to elucidate cell specific alterations in the development and progression of squamous metaplasia in the hamster tracheal explants induced by benzo[a]pyrene (BP), a component of cigarette smoke. The tracheal explants were cultured in serum-free chemically defined medium and treated with BP (7.5 micrograms/ml) for up to 15 days. At this time, 80-90% of the carcinogen treated explants exhibited epidermoid lesions at various stages of development. The untreated control explants maintained normal pseudostratified epithelium. In these explants, PNA and Con A exhibited moderate reaction in the cytoplasm of luminal mucociliary cells; the basal cells showed no reaction. In early metaplastic lesions PNA and Con A stained only the cytoplasm of luminal cells; the metaplastic cells along the basal lamina were negative. In well-developed lesions, in which the luminal mucociliary layer was still intact overlying the lesions, the metaplastic epithelium remained unreactive with the lectins. In highly advanced lesions exhibiting cornification, and in which the mucociliary layer was sloughed, the metaplastic lesions showed strong reaction with both the lectins. The reaction was limited mainly to the plasma membrane of the metaplastic cells. These results show that induction and progression of the BP induced lesions accompany dynamic cell specific alterations in glycoconjugates. The epidermoid lesions acquire glycoconjugates rich in beta-D-galactose and D-mannose. These results are also consistent with the basal cell origin of the metaplastic lesions.

Alterations in sugar residues in squamous metaplasia in hamster tracheal explants induced by benzo(a)pyrene and its reversal by retinoic acid.

We have demonstrated that squamous metaplasia induced by benzo(a)pyrene (BP) in the hamster tracheal explants accompany distinct alterations in carbohydrate moieties in the epithelial mucosa. Most prominent alterations were the preferential binding of peanut agglutinin (PNA) and wheat germ agglutinin (WGA) in the basal cell layer in metaplastic lesions. In this study we examined if reversal of BP-induced lesions by all-trans retinoic acid (RA) results in the acquisition of normal carbohydrate composition by the tissue. Four lectins, PNA, WGA, Dolichos biflorus agglutinin, and Concanavalin A, in their horseradish peroxidase conjugates were used. In control explants the intercellular plasma membrane of basal and mucous cells exhibited no significant reaction with any of the lectins tested. In the metaplastic lesions induced by BP, PNA and WGA intensely stained the plasma membrane and intercellular spaces of basal and intermediate cell layers; the granular layer cells did not bind PNA whereas they were stained moderately with WGA. RA, which reversed the metaplasia, also conferred the tissue with lectin binding patterns similar to that of control explants. These results thus show that the reversal of metaplasia is accompanied by acquisition of the tissue's original carbohydrate composition.

Differences in lectin binding in squamous metaplasia induced by benzo(a)pyrene and vitamin A deficiency in hamster tracheal explants.

Epidermoid metaplasia in the hamster trachea can be produced by treatment with benzo(a)pyrene (BP) or vitamin A deficiency. To elucidate distinguishing features of the two types of lesions, lectin binding to tissue sections of tracheal explants exhibiting metaplastic lesions was assessed. In squamous metaplasia induced by vitamin A deficiency, Dolichos biflorus agglutinin (DBA), wheat germ agglutinin (WGA), and peanut agglutinin (PNA) showed faint (+) to moderate (++) binding in both basal and suprabasal cells; Concanavalin A (Con A) showed moderate binding (++) to suprabasal cells and no binding in basal cells. In the BP-induced lesions, PNA and WGA bound intensely ( +, , respectively) in basal cells and faintly (+) to moderately (++) in suprabasal cells. The staining seemed to be predominant at the periphery of the cells. Further, the intensity of PNA and WGA staining increased significantly after the neuraminidase treatment. DBA and Con A showed faint (+) to moderate (++) binding in the BP-induced metaplasia. The results show that in BP-induced metaplasia, cells in the basal region show preferential binding of PNA and WGA.

Hamster airway at parturition: ultrastructure of the full-term fetal trachea and effects of parturition.

Limited studies have described the ultrastructure of trachea of late fetal and neonatal hamsters but the effects of parturition and the onset of breathing on structure have not been discussed. This study describes morphological features of ante- and post-partum tracheal mucosa and submucosa and contrasts these features in fetal and neonatal hamster siblings. Significant differences between these siblings are noted in tracheal cells interfacing the lumen. Such cells of the fetal animals usually possessed cytoplasm of medium electron density with cisternal rough endoplasmic reticulum (RER). Surface membranes of these cells possessed numerous microvilli. In contrast, corresponding cells of post-natal animals often had lucent cytoplasm with mostly tubular or vesicular RER. Surface membranes of these cells possessed microplicae (microridges). This study also considers characteristics of fetal and neonatal tracheal development including: lomasome-like structures in secretory cells; dichotomous forms of oligocilia in mucosal and submucosal cells; intramembranous particles of hemidesmosomes; particles and mitochondria associated with desmosomes; and affiliations of ciliary basal bodies with the cytoskeleton, cell membrane, and with endoplasmic reticulum.

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.

Effects of vitamin A deficiency on cell proliferation and morphology of trachea of the hamster.

Regulation by vitamin A of cell proliferation and differentiation of epithelial tissues is well-established. Deficiency of vitamin A in experimental animals leads to the development of hyperplasia and squamous metaplasia. The objective of the present study was to examine, for young hamsters, the effects of variable levels of the vitamin in the liver and trachea, on cell proliferation and morphology of tracheal epithelium and on body weights. Newly born litters were maintained on vitamin A-supplemented and vitamin A-deficient diets, and various parameters were examined at different ages. Retinol and retinyl palmitate levels were determined by high performance liquid chromatography. For animals on the supplemented diet, concentrations of liver retinyl palmitate and retinol increased progressively with age, reaching highest levels of approximately 84 and 1.9 micrograms g liver, respectively, at 28 d. In contrast, in animals on the vitamin A-deficient diet, the retinyl palmitate and retinol levels decreased progressively, reaching the lowest levels of approximately 0.32 and 0.09 micrograms/g, respectively. No significant reduction in retinol was observed in the trachea of animals maintained on the deficient diet for at least 20 d: their tracheas were depleted of retinol at 28 d. No vitamin A-associated differences were, however, observed in the labelling indices, growth fraction or in the morphology of the tracheal epithelium. Both the control and vitamin A-deficient animals gained weight progressively until 36 d of age, although the weight of animals in the latter group remained below those in the former group. These results show that mild-to-severe deficiency of vitamin A had no effects on cell proliferation or tracheal morphology of the hamster. The hyperplasia and squamous metaplasia in the trachea occurs only at an extreme vitamin A-deficiency when the tissue levels of the vitamin are depleted.

Regulation by calcium of proliferation and morphology of normal human tracheobronchial epithelial cell cultures.

Human tracheobronchial epithelial cells have been serially passaged in serum-free medium. This serum-free model was employed to investigate the effects of different concentrations of Ca2+ (0.1, 1.0 and 2.0 mM) on multiplication and morphology of the cells. The responses were analysed in terms of growth kinetics, histochemical and ultrastructural alterations. Culturing of the cells in high Ca2+ (1.0-2.0 mM) medium stimulated cell multiplication characterized by increased colony forming efficiency, greater number of cells per colony and cell population doublings per day. Additionally, the high Ca2+ concentrations induced proliferation in cultures grown to confluency in low Ca2+ (0.1 mM) medium. Cells propagated in low Ca2+ medium consisted of relatively heterogeneous cell populations, with most cells staining positive with periodic acid-Schiff (PAS) reagent. Ultrastructurally the cells exhibited secretory vesicles and microvilli on their surfaces, small desmosomes and intercellular interdigitation between cells and numerous large secretory vesicles in the cytoplasm. The cells grown in high Ca2+ medium acquired characteristics of a highly proliferative phenotype. The cultures consisted of closely packed, relatively homogeneous cells that did not stain with PAS reagent. Their characteristic features were: absence of surface secretory vesicles, reductions of microvilli and intercellular interdigitations, and increases in size and number of desmosomal junctions. The results show that low Ca2+ in the culture medium inhibits cell multiplication and favors the secretory cell phenotype, while high Ca2+ levels stimulate cell multiplication and inhibit the secretory cell phenotype.