Effects of all-trans retinol and cigarette smoke condensate on hamster tracheal epithelium in organ culture. II. A histomorphological study

The effects of all-trans retinol and cigarette smoke condensate (CSC) on tissue morphology and cellular differentiation were investigated in vitamin A-deprived tracheal epithelium cultured in vitamin A-and serum-free hormone-supplemented medium. Physiological retinol concentrations prevented the development of hyperplasia and squamous metaplasia with or without keratinization, and induced differentiation to mucous cells. Squamous metaplastic foci with keratinization were observed during 12 days of culture with low retinol concentrations and with dimethylsulfoxide (DMSO) which was accompanied by an increased number of basal and indeterminate cells. CSC induced a dose-related hyperplasia and irregularly shaped foci of squamous metaplasia with atypical epithelial proliferation. In non-metaplastic epithelium, CSC exposure increased the number of ciliated cells. Hyperplasia and squamous metaplasia were inhibited if the tracheal rings were first treated with retinol followed by CSC exposure, or if the tracheas were simultaneously treated with retinol and CSC. CSC-exposure prior to retinol treatment induced similar histomorphological alterations as CSC alone.     

Histogenesis and morphogenesis of epidermoid metaplasia in hamster tracheal organ explant culture

The formation of epidermoid metaplasia was studied in hamster tracheal epithelium in long-term serum-free organ explant culture. Explants were cultured up to 5 weeks in CMRL 1066 with antibiotics and amphotericin B. At 3 weeks there were rare small foci of epidermoid metaplasia and they became larger and more numerous at 4 and 5 weeks. Three dimensional reconstructions from serial sections demonstrated that the small deep-seated foci were discrete and did not reach the epithelial surface, whereas the larger foci were expansive and involved the full thickness of the explant epithelium. Each small focus consisted of a few swollen electron-lucent basal cells attached to the basal lamina, covered by a layer of flattened electron-dense secretory cells which formed a tight-fitting cap over the basal cells. The altered secretory cells displayed moderately well-developed rough endoplasmic reticulum and tonofilament bundles. During the early stages of formation the deep-seated metaplastic foci were completely covered by a layer of normal appearing cuboidal to low-columnar secretory and ciliated cells. Expansion of the metaplastic foci occurred by addition of flattened, electron-dense secretory cells to the cap so that multiple layers of altered secretory cells covered a core of basal cells, analogous to the structure of an onion. The secretory cells became cornified and with time the foci broke through the columnar mucociliary surface layer. In well-advanced foci, the uppermost cornified squames (metaplastic secretory cells) exfoliated into the tracheal lumen. The study emphasizes similarities and differences between the morphogenesis and histogenesis of epidermoid metaplasia in vivo and in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)     

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

Summary 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. This research was supported by grant RO1-HL32308 from the National Heart, Lung and Blood Institute, Bethesda, MD.     

Effects of vitamin A-deprivation on hamster tracheal epithelium. A quantitative morphologic study

The effects of vitamin A-deprivation on the tracheal epithelium were studied in 35-day old hamsters that had been raised since birth on a vitamin A-deficient diet. Colchicine and 3HTdR were given 6 hours before death and the proliferative activities of basal cells and mucous cells were quantified separately by 3HTdR labeling indices and mitotic rates. Vitamin A-deprivation decreased replication of basal cells and mucous cells in tracheal epithelium which showed minimal morphologic change. The mitotic rates and labeling indices were reduced 3 to 4-fold in basal cells and 14-fold in mucous cells (analyzed as percent of total number of each cell type) compared with controls. Thus, replication of mucous cells was more inhibited by lack of vitamin A, than replication of basal cells. The disparate hypoplasia of basal cells and mucous cells in epithelium showing minimal change, resulted in a relative increase in the proportion of basal cells and a relative decrease in the proportion of mucous cells, which could be erroneously interpreted as "basal cell hyperplasia". Proportions of preciliated and ciliated cells were also decreased compared to controls. At foci of stratification and epidermoid metaplasia, cell replication rates were increased over controls and more than 70% of all mitotic activity was associated with "non-basal" cells. Genesis of these lesions was coincident with cell death and cell loss. The histogenesis of stratification and epidermoid metaplasia was characterized. Morphological evidence indicated that these lesions were closely related histogenetically and were composed, for the most part, of altered mucous cells which expressed dual phenotypes i.e. keratinization and mucus synthesis.     

Regeneration of hamster tracheal epithelium after mechanical injury. IV. Histochemical, immunocytochemical and ultrastructural studies

All stages of regeneration in hamster tracheal epithelium were studied following a denuding mechanical injury. At 1 h all the cells had sloughed from the wound site leaving a bare and sometimes disrupted basal lamina. Viable cells at the wound margins rapidly changed shape, flattened and migrated to cover the denuded lesion by 12 h. In addition, epithelial cells that remained viable demonstrated sublethal changes that included the rapid discharge of mucous granules from secretory cells, internalization of cilia by ciliated cells and evidence of heterophagy in both cell types. By 24 h a wave of epithelial cell divisions occurred, primarily by secretory cells. This produced a multilayered epidermoid metaplasia that was best developed at 48 h. The metaplastic epithelium was largely composed of cells with both secretory (mucous granules) and epidermoid (tonofilament bundles and numerous desmosomes) characteristics. The peroxidase-antiperoxidase (PAP) method demonstrated a few keratin-positive cells in the wound as early as 12 h post-wounding and keratin was demonstrated in more cells by 24 h. All cells in the metaplastic wound epithelium were keratin-positive by 48 h. Following 48 h some of the most superficial keratinized cells sloughed from the epithelium and the keratin content of the remaining cells began to decline. At 72 h pre-ciliated and pre-secretory cells were seen in the wound. Pre-ciliated cells were characterized by an abundant electron-lucent cytoplasm, large pale nucleus, filiform apical microvilli and evidence of ciliogenesis, similar to that seen during fetal development. Pre-ciliated cells often contained apical mucous granules, apparently carried over from the parent secretory cells. With the appearance of these columnar cells the normal mucociliary morphology was restored in small wounds by 120 h, but some persistent epidermoid metaplasia remained in the large wounds through 168 h post-wounding. These data provide further evidence for the important role of secretory cells in the histogenesis of epidermoid metaplasia and the regeneration of normal morphology following injury. The implications of these findings in understanding the histogenesis of other lesions in the tracheo-bronchial epithelium are discussed.     

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

Summary 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. This research was supported by grant RO1-HL32308 from the National Heart, Lung and Blood Institute, Bethesda, MD.     

Differentiation of tracheal epithelium during fetal lung maturation in the rhesus monkey Macaca mulatta

Of the eight categories of epithelial cells identified in pulmonary conducting airways, four are found in the trachea of adult primates: basal, mucous goblet, intermediate, and ciliated cells. While their ultrastructure is well characterized, little is understood about their origin or differentiation. This study describes the pattern of differentiation of the tracheal luminal epithelium in a species of nonhuman primate, the rhesus monkey, Macaca mulatta. Tracheas of 57 fetal and postnatal rhesus were fixed with glutaraldehyde/paraformaldehyde: ten at 29-54 days gestational age (GA), ten at 59-80 days GA (pseudoglandular stage), sixteen at 82-130 days GA (canalicular stage), ten at 141-168 days GA (saccular stage), eight at 1-134 days postnatal, and three adults (2 yr 11 months to 11 yr 11 months). Slices taken proximal to the carina were processed for electron microscopy by a selective embedding procedure. In the youngest fetuses, essentially one population of cells lined the tracheal epithelial surface. These cells were columnar in shape with a central nucleus, few organelles, and large amounts of cytoplasmic glycogen. At 46 days GA, ciliated cells were observed on the membranous side of the trachea. Some nonciliated cells had concentrations of organelles in the most apical portion of their cytoplasm. At 59 days GA, membrane-bound cored granules were intermixed with organelles in the apices of some glycogen-filled cells. They were observed first on the cartilaginous side. Between 59 and 100 days GA, a large number of cell forms which appeared to be transitional between ciliated, secretory, basal, and undifferentiated cells were present. These included ciliated cells with electron-lucent inclusions resembling mucous granules. Mucous secretory cells were more numerous and had more granules and less glycogen in older fetuses. By 105 days GA, few of the secretory cells had significant amounts of glycogen and the cytoplasm was condensed. Secretory granules were very abundant in some cells and minimal in others. The Golgi apparatus was prominent. In animals 120 days GA and older, small mucous granule cells and basal cells resembling these cells in adults were present. By 134 days postnatal age, the epithelium resembled that in adults. We conclude that most of the differentiation of tracheal epithelium in the rhesus monkey occurs prior to birth; the cells differentiate in the following sequences: ciliated, mucous goblet, small mucous granule, basal; and basal and small mucous granule cells do not play a role in ciliated and mucous cell formation in the fetus.     

Effect of cigarette smoke condensate and vitamin A depletion on keratin expression patterns in cultured hamster tracheal epithelium. An immunohistomorphological study using monoclonal antibodies to keratins

Keratin expression in hamster tracheal epithelium was investigated during organ culture in serum-free, hormone-supplemented medium using monospecific monoclonal antibodies. Generally, tracheal basal cells expressed keratins detected by antibodies RCK102 and RCK103, while columnar epithelial cells were stained positively by RGE53, RCK103, RCK105 and HCK19. Metaplastic squamous cell foci reacted with antibodies RKSE60, RCK103 and HCK19. Early metaplastic alterations were more clearly RKSE60-positive than the mature lesions. In the vitamin A-depleted tracheas basal cells were clearly RCK102-positive. Superficial cells in the central part of areas of squamous metaplasia induced by cigarette smoke condensate expressed the basal cell keratins, and were negative for the columnar cell keratin 18 detected by the RGE53 antibody. This finding suggests that in cigarette smoke condensate-induced squamous metaplasia basal cells play an important role. The mucus-producing cells at the edges of metaplastic squamous cell foci expressed the keratins specific to columnar cells. Cigarette smoke condensate exposure accelerated epithelial keratinization compared to the vitamin A-depleted epithelium. It was concluded that not only small mucous granule cells, but also basal cells are involved in the development and maintenance of induced squamous metaplasia in tracheal epithelium. Furthermore, in vitro vitamin A-depleted epithelium did not coexpress vimentin in addition to the different keratins.     

Stability of the glandular morphogenesis produced by retinoids in the newborn hamster cheek pouch in vitro

Retinoids can induce alterations in differentiation and morphogenesis in the hamster cheek pouch. In order to determine the stability of these changes, explants of neonatal pouch were exposed to 6 micrograms/ml of either retinyl acetate (RAc: 1.8 x 10(-5) M) or all-trans retinoic acid (RA: 2.0 x 10(-5) M) for an initial 3 of 7 days, out of a total of 21 days in organ culture. Three days of RAc or RA caused a delay in the differentiation and keratinization of the epithelium at least up to day 7 of culture. Additionally, two out of ten explants exposed to RA showed small downgrowths of epithelium into the stroma at 7 or 14 days. Seven days of exposure to either retinoid led to inhibition of epithelial keratinization, and produced a mucous metaplasia which was still seen at the end of the 21-day culture period. Periodic acid-Schiff (PAS)-positive, diastase-resistant material was present in the metaplastic epithelium, in intercellular, and in some instances, intracellular locations. An excess of either RAc or RA, for 7 days, induced persistent glandlike downgrowths of epithelium, suggesting that a stable alteration in the developmental program of the epithelium may have occurred. Many of these downgrowths possessed a lumen which was lined by cuboidal epithelium and contained PAS-positive, diastase-resistant secretory material. RA appeared more potent than RAc in inhibiting keratinization, in producing a mucous metaplasia, and in initiating glandlike downgrowths. The persistence of glandular downgrowths suggests that retinoids, either directly or indirectly, act in a manner similar to that of an embryonic inductor.     

Vitamin A deprivation in hamsters. Correlations between tracheal epithelial morphology and serum/tissue levels of vitamin A

The effects of vitamin A deprivation on the tracheal epithelium of young hamsters were investigated. Colchicine was administered 6 h prior to death to induce metaphase arrest, thus making it possible to quantify the mitotic rates of basal cells and secretory (mucous) cells in the epithelium. Blood samples were taken from all hamsters, and liver samples from some, in order to measure serum and tissue levels of vitamin A. Age-matched controls were compared with the following groups of hamsters maintained on a vitamin A deficient diet: pre weight plateau animals (those gaining weight), weight plateau-early weight loss animals (those maintaining approximately the same weight for 3 or 4 days, followed in some cases by a loss of weight for 3 or 4 days), and prolonged weight loss animals (those showing a loss of weight for 5 or more days). Four week old hamsters in a pre weight plateau had undetectable amounts of vitamin A in their livers and declining levels in their serum, whereas 4 1/2 week old hamsters still gaining weight had barely detectable levels of vitamin A in their serum. Nevertheless, the tracheal epithelium of these animals was not different from controls in appearance, proportions of different cell types, mitotic rates of secretory and basal cells, or in the number of cells per millimeter of basement membrane (cell density). Vitamin A was undetectable in the serum and livers of hamsters in the weight plateau-early weight loss stage. At this time the tracheal epithelium showed minimal morphological change, with small focal areas of epidermoid metaplasia in some animals. The tracheas of animals in early weight loss were smaller than tracheas in the control group, and there was a trend towards an increase in the number of epithelial cells per millimeter basement membrane. Cell types in the minimally changed epithelium appeared nearly normal, but there was an increase in the proportion of basal cells, and an absence (or near absence) of division in both basal and secretory cells. Tracheal rings from hamsters in the prolonged weight loss stage were lined by a cornifying metaplastic epidermoid epithelium. Our findings demonstrate that barely detectable levels of vitamin A in the serum are sufficient to maintain normal growth and differentiation of hamster tracheal epithelium (late pre weight plateau stage). When vitamin A serum levels fall below detectable limits the animals enter the weight plateau-early weight loss stage. This stage is accompanied by an inhibition of tracheal epithelial cell growth, although nearly normal cellular differentiation is maintained.(ABSTRACT TRUNCATED AT 400 WORDS)     

Vitamin A deficiency and inflammation: the pivotal role of secretory cells in the development of atrophic, hyperplastic and metaplastic change in the tracheal epithelium in vivo.

We showed previously that the proliferation of hamster airway secretory cells decreases during vitamin A deficiency (VAD) but later increases when submucosal inflammation develops (Virchows Arch [B] 59:231-242, 1990). This observation has important biological implications since two morphological extremes (atrophy and quiescence versus hyperplasia and hyperproliferation) are reported in the literature for VAD tracheal epithelium in vivo. In the present study, histological slides of tracheal rings from 35-day-old control and VAD hamsters (Virchows Arch [B] 45:197-219, 1984) were reviewed again. Rings from VAD hamsters were selected based on the absence or presence of a florid submucosal inflammation. Quantitative analyses were made on the cartilaginous part of rings from the anterior third of the trachea. When inflammation was absent, a mucociliary pseudostratified epithelium was, for the most part, maintained. The mitotic rate (MR, 6 h colchicine blockade) of secretory cells was markedly reduced (29-fold) but that of basal cells was not changed significantly. Moreover, cell density was not changed by VAD but ciliated cells and secretory cells were decreased and basal cells were increased, proportionally. We call this "minimal morphological change." Thinning (atrophy) of the minimally changed epithelium was associated with focal cell sloughing. Small scattered foci of epidermoid metaplasia (multiple layers of highly keratinized cells which were extremely flat, so that the epithelium was thin and attenuated) were also seen. We call this "atrophic epidermoid metaplasia." When inflammation was present, hyperplastic changes (stratification and epidermoid metaplasia) predominated and cells were in mitosis at all epithelial levels (low, middle, superficial) except in the most superficial (terminally differentiated) squames. The tracheal epithelium was thickened and hypercellular. The cells were piled up at the stratified lesions, and epithelial height, cell density and epithelial MR were significantly increased compared with the non-inflamed VAD epithelium. The effects of VAD and inflammation on cell proliferation were analyzed further by studying 7 h bromodeoxyuridine (BrdU) labelling patterns of cells in VAD tracheal epithelium, with and without submucosal inflammation. In addition, inflammation was induced in "minimally changed epithelium" by mild mechanical injury. The BrdU labelling patterns confirmed that DNA synthesis by secretory cells is reduced markedly by VAD. However, this suppression is overidden by the influx of inflammatory cells (the nature of the stimulus is unknown). The results indicate that the morphological contrasts (atrophy and hyperplasia) seen in the trachea during VAD in vivo are related to extremes in proliferation rates of tracheal secretory cells, regulated by VAD alone (minimal replication) and by inflammation (maximal replication).     

Biosynthesis of respiratory-tract mucins. A comparison of canine epithelial goblet-cell and submucosal-gland secretions

1. A modified canine tracheal organ culture system was used to investigate differences between mucous secretions of epithelial goblet cells and the submucosal glands. 2. Denuded explants were prepared by removing goblet, ciliated and basal cells from the surface epithelium leaving an intact basement membrane and viable submucosa. 3. Denuded explants actively incorporated radioactive precursors into secreted macromolecules when cultured in medium 199 containing label. 4. Chromatography on Bio-Gel A-150m and electrophoresis on 1% agarose gels indicated that epithelial goblet cell secretions were relatively more sulphated than submucosal glandular secretions. 5. The glandular structures were shown to respond to a parasympathomimetic agent.     

Restoration of mucociliary tracheal epithelium following deprivation of vitamin A. A quantitative morphologic study

In order to learn more about the respective roles played by basal cells and mucous cells in the maintenance of tracheal mucociliary epithelium, cell kinetics and epithelial cell morphology were characterized over a 7-day period, during which dietary vitamin A was restored to previously deprived hamsters. Hamsters were reared from birth to 35 days of age on vitamin A-replete or deficient diets. Deprived hamsters were made replete by 5 mg vitamin A-acetate orally, plus a vitamin A-replete diet. Colchicine and 3HTdR were given 6 h before death. The numbers of basal cells, mucous cells, preciliated cells and ciliated cells, and mitotic rates (MR) and labeling indices (LI) of basal cells and mucous cells, were quantified in glycol methacrylate sections stained with PAS-lead hematoxylin. Vitamin A-deprivation decreased replication of basal cells and mucous cells in tracheal epithelium which showed minimal morphological change. The proportion of basal cells was increased and proportions of mucous, preciliated and ciliated cells were decreased. Following restoration of vitamin A to the diet, the basal cell MR remained below control level throughout the experimental period, but the mucous cell MR started to rise on day 2-replete, and on day 3-replete and thereafter the mucous cell MR was within the control range. Basal cell and mucous cell LI's showed similar trends. Preciliated cells were reduced or absent in vitamin A-deprived epithelium. Their number had risen by day 3-replete and thereafter they were generated within the control range. These cells matured into ciliated cells. By day 4-replete, the proportion of basal cells had decreased markedly and the proportions of mucous cells, and preciliated plus ciliated cells had increased, so that at this time cellular proportions were within or near control values. This trend continued so that by day 7-replete, a nearly normal mucociliary epithelium was restored. The results show that vitamin A-levels modulate replication rates of basal cells and mucous cells and indicate that mitotic division of mucous cells is a prerequisite for the genesis of preciliated cells and new mucous cells and for restoration of the mucociliary epithelium following deprivation of vitamin A in the diet.     

[Ciliogenesis in the mucous cells of the quail oviduct. II. Hormonal control]

The hormonal control of ciliogenesis and transformation of mucous cells was studied in the oviduct (magnum) of ovariectomized quails. Estradiol benzoate induces ciliogenesis with doses varying from 10 mug/day to 100 mug/day after 6 days of treatment. With 100 mug/day, differentiation of some mucous cells is also induced as well as the formation of transitory "mixed cells" which are in the process of ciliogenesis and contain mucous granules. Associated with progesterone (1 mg/day), estradiol benzoate (10 mug/day) induces the differentiation of mucous cells and ciliated cells. The luminal epithelium of quails injected with this mixture is similar to the luminal epithelium observed in the oviduct of laying quails. With the same dose of progesterone (1 mg/day) and 20 mug/day of estradiol benzoate for 6 days, ciliogenesis is completely inhibited. All epithelial cells are secretory cells. Transformation of 50% of the mucous cells into ciliated cells is obtained by following the previous estradiol-progesterone treatment with the injection of estradiol benzoate (20 mug/day) for 3 days. Divisions of mucous cells were also observed. It is also possible to induce ciliogenesis in some mucous cells by withdrawing both hormones for 3 days. In this case, no cell divisions were observed.     

DNA synthesis and Bcl-2 expression during development of mucous cell metaplasia in airway epithelium of rats exposed to LPS

Exposure of pulmonary airways to environmental toxins and allergens may cause proliferation of airway epithelial cells and mucous cell metaplasia (MCM); however, it is unclear to what extent proliferating cells differentiate into mucus-storing cells and contribute to MCM. Our previous studies demonstrated that Bcl-2, an inhibitor of apoptosis with cell cycle regulatory functions, is expressed in metaplastic mucous cells. The purpose of the present study was to investigate the number of metaplastic mucous cells that are derived from proliferating epithelial cells and whether Bcl-2 has a role in cell cycle entry in these cells. Rats were intratracheally instilled with 100 microg of LPS from Pseudomonas aeruginosa in 500 microl of saline, and proliferating airway cells were labeled with bromodeoxyuridine (BrdU) by implanting a subcutaneous osmotic pump 24 h before instillation. The volume of stored mucosubstance and the number of mucous cells were increased 10- and 3-fold, respectively, from 24-48 h after instillation. The number of total epithelial cells per millimeter of basal lamina increased, and the number of serous cells per millimeter of basal lamina decreased during this time. Approximately 50% of Alcian blue-periodic acid Schiff-stained mucous cells were labeled with BrdU at 48 h after instillation, suggesting that one-half of the secretory cells were derived from proliferating cells. Furthermore, 50% of the Bcl-2-positive mucous cells were BrdU negative and therefore derived from nonproliferating, preexisting cells. Our findings demonstrate that preexisting and proliferating cells differentiate into mucous cells and compose LPS-induced metaplasia and that Bcl-2 does not have cell cycle regulatory function in these cells.     

A biphasic chamber system for maintaining polarity of differentiation of culture respiratory tract epithelial cells

Summary A simple, disposable, biphasic cultivation chamber has been developed for respiratory tract epithelial cells. This chamber, the Whicutt chamber, contains a movable, transparent, permeable gelatin membrane that can be employed either submerged in the culture medium, thereby feeding the cells by the traditional immersion method, or raised to the surface of the culture medium, to bring the apical surfaces of the cells into contact with air and provide nutrients only from below (basal feeding). The effects of biphasic cultivation on the growth and differentiation of respiratory tract epithelial cells from different sources have been studied in Whitcutt chambers. Primary hamster tracheal epithelial (HTE) cells grown to confluence with basal feeding developed a ciliated columnar morphology, with differentiated features (cilia and mucous granules) located in the apical region of the epithelial layer. These cells secreted mucinlike molecules from the apical surface (i.e. the surface in contact with air). Although the apical localization of differentiation features was greater, mucous cell differentiation achieved by basal feeding was quantitatively not greater than that achieved by continuous immersion feeding. Similarly, basal feeding did not alter the degree of epithelial cell differentiation in cultures derived from rat, rabbit, and monkey tracheas or from human bronchial and nasal tissues. In contrast, the differentiation of guinea pig tracheal epithelial cells in culture was significantly influenced by the feeding method employed. When fed basally, guinea pig tracheal epithelial cell cultures expressed various mucociliary functions with resemblance to mucociliary layers in vivo, whereas constantly immersed cultures seemed stratified and squamous. These results suggest that, at least for guinea pigs, the combination of feeding methods provided by the Whitcutt chamber can be used to achieve differentiated cultures of tracheal epithelial cells with a polarity of differentiation that is similar to that observed in intact airways in vivo. Editor's statement Supported in part by grants from NCI (CA42097) and American Cancer Society (BC-465) to R. W., and grants from The Council for Tobacco Research-USA, and Cystic Fibrosis Foundation to K.B.A.     

Effects of retinoic acid on the growth and morphology of hamster tracheal epithelial cells in primary culture

Hamster tracheal epithelial cells were grown in primary culture on a collagen gel substrate in hormone-supplemented serum-free Ham's F12 medium with 10(-8) M retinoic acid (RA+), or without retinoic acid (RA-). On days 1 and 2, the colonies were composed of large (secretory) cells and lesser numbers of small (basal) cells; ciliated cells were rare. At these times, cell number, thymidine incorporation, and total labelling indices (small and large cells, combined) were similar in RA+ and RA- cultures, but the large cells became flat in RA- medium on day 2. On days 3-5, thymidine incorporation and total labelling indices were less in RA- than RA+ cultures, and on days 4-6, cell numbers were decreased in RA- cultures. On day 3, the large cells of the RA- colonies had flattened further and clusters of small basal cells had formed. On day 4, the RA+ colonies were composed of densely-packed cuboidal secretory cells, small basal cells were inconspicuous; the total labelling index was about 27%. The RA- colonies were composed of large flat secretory cells and numerous small basal cells which were clustered in groups; the total labelling index was about 7%. Since large and small cells could be discriminated by size in RA- colonies, a labelling index was generated based on cell size. On days 2, 3 and 4, the labelling index of the small basal cells in the RA- colonies was 44%, 43% and 24% respectively, whereas the labelling index of the large secretory cells fell rapidly over the same period (56%, 14% and 2%). On days 5 and 6, the cuboidal secretory cells in the RA+ cultures had differentiated further and the cells were stratified focally. Some new ciliated cells had formed on day 6. In RA- cultures, mucous granules were not observed in the large flat cells and ciliated cells were not seen. The total labelling indices were 11% and 0.35% in RA+ cultures, and 0.5% and 0.25% in RA- cultures on days 5 and 6, respectively. The study shows that the target cell for vitamin A in the hamster tracheal epithelium is the secretory (mucous) cell. When retinoic acid was deficient, the secretory cells flattened and their capacity to divide was greatly diminished. Since the basal cells continued to replicate when the secretory cells did not, the population density of the basal cells increased disproportionally, which could be interpreted erroneously as a "basal cell hyperplasia".(ABSTRACT TRUNCATED AT 400 WORDS)     

Effects of vitamin A-deficiency and inflammation on the conducting airway epithelium of Syrian golden hamsters

The effects of vitamin A-deficiency and inflammation were studied in the conducting airways of Syrian golden hamsters. An important goal of the study was to characterize epithelial changes that occur early in vitamin A-deficiency, that might precede yet predispose to infection, and precipitate inflammatory changes in the lungs. Age-matched vitamin A-replete control and vitamin A-deprived hamsters were killed at 33 days of age (preweight-plateau); at 41 days of age (weight plateau-early weight loss); and at 48–55 days of age (prolonged weight plateau followed by weight loss). A tablet containing bromodeoxyuridine (BrdU) was implanted subcutaneously into each hamster 7 h before it was killed. No changes were seen in the conducting airway epithelium of vitamin A-deprived hamsters in the preweight plateau. However, labelling of secretory cells for BrdU was reduced 6–7 fold in the epithelium lining the lobar bronchus (p< 0.0002) and the bronchioles (p< 0.0001), and the proportions of ciliated cells were decreased (p<0.0001) at both airway levels in vitamin A-deficient hamsters in the weight plateau-early weight loss stage. Changes in cellular morphology were minimal in the intrapulmonary airway epithelium at this time but a few small focal patches of epidermoid metaplasia were seen in the tracheal epithelium. Small foci of inflammation were closely associated with the airways in the weight plateau, and the inflammation became more widespread when the deficiency was prolonged. The results suggest that the defense of the lungs to infection was impaired initially in the vitamin A-deficient hamsters by a widespread reduction in the numbers of ciliated cells throughout the epithelium of the conducting airways (trachea, bronchi, bronchioles). At the foci of inflammation, labelling of epithelial secretory cells for BrdU was greatly increased at all airway levels. A highly stratified cornifying epidermoid metaplasia developed in the tracheal epithelium, and goblet cell metaplasia developed in the cranial portion of the lobar bronchus, in association with submucosal inflammation. Goblet cell metaplasia appeared to be the only abnormality that wasnot reversed when vitamin A was restored to the diet. This is contribution no. 2911 from the Pathobiology Laboratory     

IFN-gamma, but not Fas, mediates reduction of allergen-induced mucous cell metaplasia by inducing apoptosis

Inflammatory responses induced by allergen exposure cause mucous cell metaplasia (MCM) by differentiation of existing and proliferating epithelial cells into mucus-storing cells. Airway epithelia have various mechanisms that resolve these changes to form normal airway epithelia. In this report, we first investigated the state of mucous cell metaplasia and the mechanisms by which MCM is reduced despite continued exposures to allergen. After 5 days of allergen exposure, extensive MCM had developed but was reduced when allergen challenge was continued for 15 days. During this exposure period, IL-13 levels decreased and IFN-gamma levels increased in the bronchoalveolar lavage fluid. In contrast, IL-13 levels decreased but IFN-gamma was not detected at any time point during the resolution of MCM following cessation of allergen exposure. Instillation of IFN-gamma but not anti-Fas caused accelerated resolution of MCM and MCM was not resolved in Stat1-deficient mice exposed to allergen for 15 days, confirming that IFN-gamma is crucial for reducing MCM during prolonged exposures to allergen. IFN-gamma but not anti-Fas induced apoptotic cell death in proliferating normal human bronchial epithelial cells and in human bronchial epithelial cells from subjects with asthma. The apoptotic effect of IFN-gamma was caspase dependent and was inhibited by IL-13, indicating that the Th2 milieu in asthmatics may maintain MCM by preventing cell death in metaplastic mucous cells. These studies could be useful in the understanding of deficiencies leading to chronicity in airway changes and designing novel therapies to reverse MCM and airway obstruction in asthmatics.     

The dose-effect of benz(a)pyrene in organ cultures of embryonic mouse lungs resistant and predisposed to pulmonary blastomogenesis

A direct effect of benz(a)pyrene (BP) was studied on organ cultures from embryonic lungs of C57Bl and A mice. The toxic effect of 3, 6, 12 micrograms/ml BP was observed in alveolar epithelium and mesenchymal cells after 7 days of cultivation. After 14-21 days diffuse and focal hyperplasia of the epithelium was discovered in 35.5, 20.0 and 36.1% of treated cultures (explants) from embryonic lungs of C57Bl mice and in 45.5, 56.3 and 53.2% of treated explants from embryonic lungs of A mice. Squamous epithelial metaplasia was observed in 3.0, 2.2 and 4.2% of treated explants from C57Bl mice and in 2.4, 10.4 and 23.4% of treated explants from A mice. Total papillary adenomatous growth of the epithelium was discovered in 10.0, 18.3 and 36.1% of treated explants from embryonic lungs of A mice only. Thus, a direct effect of BP on organ cultures from embryonic lungs of C57B1 and A mice depended on BP doses and the mouse line.