Permissive effect of glutamine on the differentiation of fetal mouse small intestine in organ culture

The proximal third of the small intestine of 15-day-old mouse embryo can be cultured for 72 h at 37 degrees C. When Trowell-T8 medium is used, the integrity of the explants is maintained, but villi do not form and absorptive cells are poorly differentiated. However, when Leibovitz L-15 or RPMI-1640 medium is used, one can observe the formation of medium-sized villi, and absorptive cells in the explants are more differentiated. Since the chemical composition of T8 medium is quite different from that of the other two media, we decided to test the importance of two major differences, i.e., three amino acids and five vitamins, in order to find out which element(s) is necessary to permit the formation of intestinal villi. Subsequent testing demonstrated that the three amino acids are responsible for the effect on differentiation, and that glutamine is the only critical difference between T8 and the two other media. The results show that the addition of L-glutamine to T8 medium permits the formation of villi, the initiation of absorptive cell differentiation, an increase in DNA synthesis, and finally, an increase in the number of epithelial cells. These findings indicate that undifferentiated fetal mouse small intestine is able to express its phenotype in organ culture, even without any extrinsic regulatory influences, provided that L-glutamine is present at a sufficient level in the culture medium. The use of inhibitors indicated that L-glutamine may be essential as an energetic substrate and/or a precursor for glucosamine.     

The effect of epidermal growth factor (EGF) on the differentiation of the rough endoplasmic reticulum in fetal mouse small intestine in organ culture

The differentiation of the rough endoplasmic reticulum (RER) of mouse duodenal absorptive cells located at the tip of the villi at 17 days of gestation was compared to that of absorptive cells in duodenal explants of 15-day-old mouse fetuses cultured for 72 hr 1) with Trowell T8 medium (without insulin) alone or supplemented 2) with epidermal growth factor (EGF; 100 ng/ml) or 3) with 25% bovine amniotic fluid (BAF). Glucose-6-phosphatase activity (G6Pase) was localized cytochemically to ensure a better identification of the RER. The intersections of a double lattice falling over and outside the RER were counted and the percentage of intersections over the RER was estimated. With this method, the extent of the RER is not statistically different when the absorptive cells in utero are compared to those of explants cultured with EGF. However, the extent of the RER in the absorptive cells cultured with Trowell T8 medium alone or supplemented with BAF is 50% lower than in the former two groups. It is concluded that EGF promotes the maturation of duodenal absorptive cells in organ culture.     

Influences of dexamethasone on the maturation of fetal mouse intestinal mucosa in organ culture

The effects of glucocorticoids on the maturation of the fetal small intestinal mucosa have been studied using duodenal explants resected at 17 days of gestation and cultured in a serum-free medium in the presence or absence of dexamethasone (30-300 ng/ml). Dexamethasone (a) increases specifically alkaline phosphatase, maltase, trehalase and sucrase activities and (b) allows an accumulation of goblet cells along the villi at a faster rate than that occurring in utero. These results indicate that glucocorticoids influence directly the differentiation of absorptive cells and goblet cells in the small intestine during the fetal period.     

Trypanosoma cruzi: productive infection is not allowed by chorionic villous explant from normal human placenta in vitro

We hypothesize that a sustained infection of Trypanosoma cruzi into placental tissue might be diminished. Human placental chorionic villi and VERO cells as controls were co-cultured with T. cruzi. Parasites occupied 0.0137% at 3h, 0.0224% (24h), and 0.0572% (72 h) of the total chorionic villi area analyzed and some few placental samples were negative to parasite DNA, whereas 52% of VERO cells were infected at 3h and parasites occupied 0.57%, at 24h the parasite area was of 2.78% and at 72 h was of 3.32%. There were no live parasites in placenta-T. cruzi culture media at 72 h of co-culture. There were significantly increased dead parasites when T. cruzi was treated with unheated culture media coming from placental explants and fewer dead parasites when pre-heated culture media were employed. CONCLUSION: Low productive infection by T. cruzi into placental tissue associated with no viable parasites in the culture media partially due to placental thermo labile substances.     

Primary cell culture from gill explants of rainbow trout

Primary cultures of gill cells were initiated from gill filament explants of rainbow trout, Oncorhynchus mykiss . The explants were cultured in Leibovitz l -15 medium with 5, 10 or 20% foetal calf serum (FCS) and l -glutamine. The attachment efficiency was serum-dependent though increased FCS concentration did not stimulate further outgrowth of cells. The explants produced cell outgrowth 24 h after attachment as a sheet of cells which exhibited characteristics of gill pavement epithelial cells as indicated by surface microridges revealed by scanning electron micrographs. There was high proliferation for the first 14 days then a stable plateau for 30 days followed by a decline phase from 45 days. Following removal of cells, the explants produced further cell outgrowth which was especially active at the proliferation phase (14 days). Removal of these cells caused the explants to produce a further proliferation of cells reaching confluence in 10–14 days. After the third cell removal cell outgrowth from explants showed migratory activity but did not develop to resemble gill epithelial cells. The use of gill explants to establish primary cultures of fish gill cells has advantages which include longevity of the culture and successive proliferations from explants which could provide a useful tool for the investigation of long-term processes in cellular biology and reduce the number of culture preparations.     

Morphological studies of the goldfish hindgut mucosa in organ culture

Summary The morphology of the absorptive cells of the goldfish hindgut mucosa, and their capability for horseradish peroxidase (HRP) uptake, were investigated by electron microscopy after a 24-h organ culture. The columnar appearance and the fine structure of the absorptive cells were well preserved for 24 h at room temperature and 37° C with 5% CO₂ in air, in all the media used in this study. Mitoses were frequently observed in the epithelium at the bottom of cultured mucosal folds, and re-epithelization was also observed in many explants.Some structural changes were, however, noted in the cultured absorptive cells, as compared with the non-cultured absorptive cells; the deep invaginations of the surface membrane between the microvilli decreased in number; supranuclear giant vacuoles were reduced in size or almost disappeared; the distributional pattern of mitochondria in the absorptive cells was altered.The HRP uptake experiments showed that the absorptive cells cultured for 24 h could still take up HRP by endocytosis and transport it, indicating that the absorptive cells maintained their capability of macromolecule uptake and transport after 24 h of culture. In addition, HRP experiments, in which reaction product was detected within numerous cytoplasmic tubules (CT), various vacuoles and CT-vacuole complexes, suggested a close relationship between CT and vacuolar system in the apical cytoplasm during endocytotic events in the absorptive cells.     

Stand by me: Fibroblasts regulation of the intestinal epithelium during development and homeostasis

The epithelium of the small intestine is composed of a single layer of cells that line two functionally distinct compartments, the villi that project into the lumen of the gut and the crypts that descend into the underlying connective tissue. Stem cells are located in crypts, where they divide and give rise to transit-amplifying cells that differentiate into secretory and absorptive epithelial cells. Most differentiated cells travel upwards from the crypt towards the villus tip, where they shed into the lumen. While some of these cell behaviors are an intrinsic property of the epithelium, it is becoming evident that tight coordination between the epithelium and the underlying fibroblasts plays a critical role in tissue morphogenesis, stem-cell niche maintenance and regionalized gene expression along the crypt-villus axis. Here, we will review the current literature describing the interaction between epithelium and fibroblasts during crypt-villus axis development and intestinal epithelium renewal during homeostasis.     

Developmental changes in the inner surface structure of the bovine large intestine

The developmental pattern of the bovine fetal large intestine was studied with particular reference to the appearance and decline of the intestinal villi during the fetal period. In the bovine large intestine, the first rudimentary villus and goblet cells were seen in the rectum in a fetus estimated to be 3 months old. By 5-6 months, the goblet cells, absorptive cells in the intestinal crypts, and vacuolated cells in the villi were present along all segments of the large intestine. By 8-9 months, the villi have disappeared from the colon and rectum, epithelial cells no longer contain vacuoles, and absorptive and goblet cell populations are emerging from the crypts. These histological results suggest that development in the bovine large intestine follows a recto-cecal gradient and the most distinct turning point during the fetal period is the first disappearance of fetal villi in the rectum of fetuses estimated to be 7 months old. After this stage, the mucous membrane of the colon and rectum matured rapidly before birth. In contrast, the cecum may seem to require further development in perinatal life.     

Expression and role of E- and P-cadherin adhesion molecules in embryonic histogenesis. I. Lung epithelial morphogenesis

The role of Ca2+-dependent cell-cell adhesion molecules, E- and P-cadherins, in the histogenesis of mouse embryonic lung was studied. All epithelial cells of the lung express both E- and P-cadherin at the early developmental stage. P-cadherin, however, gradually disappears during development, initially from the main bronchi and eventually from all epithelial cells. When a monoclonal antibody to E-cadherin (ECCD-1) was added to monolayer cultures of lung epithelial cells, it induced a partial disruption of their cell-cell adhesion, while a monoclonal antibody to P-cadherin (PCD-1) showed a subtle effect. A mixture of the two antibodies, however, displayed a synergistic effect. We then tested the effect of the antibodies on the morphogenesis of lung primordia using an organ culture system. In control media, the explants formed typical bronchial trees. In the presence of ECCD-1, the explants grew up at the same rate as in the control, but their morphogenesis was affected. The control explants formed round epithelial lobules with an open luminal space at the tips of the bronchial trees, whereas the lobules of explants incubated with ECCD-1 tended to be flat and devoid of the luminal space. PCD-1 showed a similar but very small effect. A mixture of the two antibodies, however, showed a stronger effect: the branching of epithelia was partially suppressed and the arrangement of epithelial cells was distorted in many places. These results suggest that E- and P-cadherin have a synergistic role in the organization of epithelial cells in lung morphogenesis.     

Repulsive axon guidance molecule Sema3A inhibits branching morphogenesis of fetal mouse lung

Semaphorin III/collapsin-1 (Sema3A) guides a specific subset of neuronal growth cones as a repulsive molecule. In this study, we have investigated a possible role of non-neuronal Sema3A in lung morphogenesis. Expression of mRNAs of Sema3A and neuropilin-1 (NP-1), a Sema3A receptor, was detected in fetal and adult lungs. Sema3A-immunoreactive cells were found in airway and alveolar epithelial cells of the fetal and adult lungs. Immunoreactivity for NP-1 was seen in fetal and adult alveolar epithelial cells as well as endothelial cells. Immunoreactivity of collapsin response mediator protein CRMP (CRMP-2), an intracellular protein mediating Sema3A signaling, was localized in alveolar epithelial cells, nerve tissue and airway neuroendocrine cells. The expression of CRMP-2 increased during the fetal, neonate and adult periods, and this pattern paralleled that of NP-1. In a two-day culture of lung explants from fetal mouse lung (E11.5), with exogenous Sema3A at a dose comparable to that which induces growth cone collapse of dorsal root ganglia neurons, the number of terminal buds was reduced in a dose-dependent manner when compared with control or untreated lung explants. This decrease was not accompanied with any alteration of the bromodeoxyuridine-positive DNA-synthesizing fraction. A soluble NP-1 lacking the transmembrane and intracellular region, neutralized the inhibitory effect of Sema3A. The fetal lung explants from neuropilin-1 homozygous null mice grew normally in vitro regardless of Sema3A treatment. These results provide evidence that Sema3A inhibits branching morphogenesis in lung bud organ cultures via NP-1 as a receptor or a component of a possible multimeric Sema3A receptor complex.     

Optimisation of media for the culture of normal human epithelial cells from oesophageal mucosa

A technique has been developed which allows growth and histology/cytochemistry of primary oesophageal mucosal explant cultures to be monitored over four weeks. The paper describes experiments designed to optimise media and culture conditions. The results suggest that optimal growth can be obtained in media containing RPMI 1640, and 10% horse or newborn calf serum. McCoy's 5A medium or Dulbecco's modified MEM could be substituted for RPMI but Iscove's serum-free medium or Ham's nutrient mixture inhibited growth or promoted fibroblast contamination. The essential additive appeared to be insulin while selenium was highly toxic to the cells. Hydrocortisone or EGF improved growth slightly under some conditions. Neither transferrin nor cholera toxin had any beneficial effect. None of the cell culture flask coating agents improved attachment or growth.     

In vitro explant culture of mantle epithelium of freshwater pearl mussel

The in vitro culture of nacre secreting pallial mantle explants of freshwater pearl producing mussel, Lamellidens marginalis (Lamarck) included depuration of pearl mussels with different physical and chemical agents to eradicate various commensals, removal of pallial mantle ribbon, aseptic preparation of explants from the ribbon and transfer of those explants into tissue culture petri dishes. Special synthetic tissue culture media enriched with additives viz., inactivated calf fetal serum and antibiotics were poured into plates with explants. The culture plates were incubated at 30 degrees C in a CO2 incubator at 5%, CO2. The cultures could be maintained for 42-45 days without any contamination. After 12 hr epithelial like cells began to migrate out and formed a complete cell sheet surrounding the explant within 12-15 days. The epithelial cells in the culture indicated functional viability as subsequently after 38-40 days of culture, typical aragonitic 'nacre' crystals of CaCO3 could be observed throughout the culture plates.     

Growth of cultured cells from patients with Fanconi anemia.

Fibroblast cultures derived from skin biopsies of patients with Fanconi anemia had doubling times (mean of five lines: 30.3 +/- 0.2 hours) significantly longer than randomly selected normal controls (mean of nine lines: 22.9 +/- 0.4 hours). Control cultures grew more slowly in the enriched media RPMI 1640 and McCoy's 5A than in MEM; while a culture from a patient with Fanconi anemia grew more slowly only in McCoy's 5A. Differences in growth characteristics between Fanconi anemia and normal cell cultures may be useful in analyzing the metabolic error determined by the Fanconi anemia gene.     

Growth of Chinese hamster ovary (CHO) cells in the presence of MMC in low-serum medium.

Chinese hamster ovary (CHO-WBLT) cells growing in McCoy's 5a with 10% fetal bovine serum (FBS) were adapted to 0.5% FBS in CHO-1 Complete Media System, a serum-free medium from Ventrex. Cells in these two media were exposed to 10(-7) M and 10(-8) M mitomycin C (MMC) for 24 h. Comparison of cell growth over 10 days showed that cells in 0.5% serum proliferate, though at a slower rate than cells in 10% serum. Treatment with MMC revealed that at 10(-7) M, MMC is cytotoxic to cells to both the media; at 10(-8) M, MMC is non-cytotoxic to cells in both media.     

Differentiation and maturation of cultured fetal rat jejunum.

To determine whether differentiation and maturation of mammalian intestinal mucosa require influences available only in vivo or whether they can occur in vitro, fetal rat jejunum was cultured in chemically defined medium using organ culture methodology. Segments of jejunum from 18-day fetal rats were cultured in modified Liebowitz L-15 medium in room air at 37°C. Segments harvested after 24, 48, and 72 hr of culture were examined by light and electron microscopy. Uncultured jejunum from 18-day fetuses had either no or very few rudimentary villi and was lined largely by undifferentiated stratified epithelium. Goblet cells were not seen. In contrast, villi were present in the majority of 24-hr cultures, and simple columnar rather than stratified epithelium predominated. After 48 and 72 hr, villi were present in over 90% of cultured jejunal segments and stratified epithelium had disappeared. Goblet cells were seen in jejunal segments cultured 48 hr or longer in 47 of 74 fetuses. Electron microscopy further documented progressive differentiation of the epithelium during culture. Microvilli increased in number and height, a terminal web developed in the apical cytoplasm and the number of apical vesicles, mitochondria and formed elements of endoplasmic reticulum increased in absorptive cells. Jejunal lactase and alkaline phosphatase activity increased nine- and sevenfold, respectively, during 72 hr of culture, while the activity of the mitochondrial enzyme, ornithine carbamoyl transferase, increased fourfold. These observations indicate that jejunum from 18-day fetal rats can be cultured in vitro for at least 72 hr in chemically defined medium and that, during culture, maturation of the jejunal mucosa takes place with the appearance of villi, conversion of stratified to columnar epithelium and differentiation of individual epithelial cells.     

Optimization of fetal lung organ culture for surfractant biosynthesis

Summary Lung organ culture has been a widely used system for studying differentiation and maturation of alveolar epithelium through various culture conditions. The purpose of this work was to carefully characterize in vitro lung biochemical diffeentiation through isolation of surfactant fraction from tissue and to search for optimal culture conditions. Fetal rat lung was explanted on the 18th gestational day for studying glycogen storage, and on the 20th gestational day for studying surfactant accretion, and cultivated for 48 h. Morphologic differentiation was studies byelectron microscopy tissue explanted on the 17th or 18th gestational days and cultivated for various times. Glycogen storage was greater on fluid medium, although less than occurring in vivo. Cellular integrity and surfactant accumulation were maximal on a semisolid medium containing 0.5% agar. Use of O₂-CO₂ instead of air-CO₂ for gassing the explants slighlty decreased phospholipid accumulation. Among media used in previous lung culture studies, Waymouth MB 752/1 was the only one to allow net glycogen accumulation in vitro. The most favorable media for surfactant phospholipid accretion were Waymouth MB 752/1, Eagle’s minimum essential and its Dulbeccco’s modification, CMRL 1066, and NCTC 109. They allowed a 12- to 14-fold increase of surfactant fraction phospholipids in vitro, which is similar to the increase occurring in vivo during the same peiod. Ham’s F10 and F12 media allowed a six fold increase. RPMI 1640 and medium 199 (M199) allowed only a three fold increase. Phospholipid concentration in nonsurfactant fraction only doubled during culture, and differences between various media were much less marked. DNA concentration changed little during culture. Morphologic differentiation of epithelial cells was advanced as compared with in vivo timing in a medium allowing maximal surfactant accretion (Waymouth MB 752/1) but not in a medium allowing low surfactant increase (RPMI 1640). The possible role of compositional differences between media is discussed.     

Culture of differentiated and undifferentiated type II cells from fetal rat lung

We have developed a relatively simple and reproducible method for the isolation and culture of both differentiated and undifferentiated type II cells from fetal rat lung. The technique involves an initial period of explant culture in serum and hormone free medium, followed by enzymatic dissociation of the explants, differential adhesion to remove fibroblasts, incubation of the cell pellet to promote aggregation of the type II cells and monolayer culture of the type II cells. The type II cells form clusters which are surrounded by scattered fibroblasts. When the technique was performed with three differential adhesion steps, cultures contained 86.0 +/- 1.4% type II cells. To obtain a higher degree of purity and greater yield, two differential adhesions followed by gentle trypsinization of the cultures which selectively removes the isolated fibroblasts was performed. This resulted in cultures with 89.4 +/- 1.7% type II cells. The differentiated fetal type II cell cultures were prepared from 19-day fetal rat lungs which were initially maintained in explant culture for 48 h. These differentiated cells demonstrated the characteristic morphologic features of type II cells including lamellar bodies and microvilli. Undifferentiated fetal cells were prepared in a similar manner from 18-day fetal rat lung maintained in explant culture for 24 h. These cells did not contain intracellular osmiophilic granules; the appearance of these granules could, however, be induced by hormones. For this reason they are considered to be pre-type II cells. The viability of the cultured cells was 97%. Both the differentiated and undifferentiated fetal type II cells specifically bound the Maclura pomifera lectin, a type II cell surface marker. The phospholipid profile of the fetal cells was similar to that of adult rat type II cells; the differentiated fetal cells, however, synthesized less phosphatidylcholine than the adult cells did, but more than the undifferentiated fetal cells. The differentiated fetal cells secreted phosphatidylcholine at a basal rate of 0.6% +/- 0.1% during a 90-min incubation. There was dose-dependent stimulation of phosphatidylcholine secretion after exposure to terbutaline. Maximum stimulation (76%) was observed at a concentration of 10 microM. This culture system provides a valuable model for studies of the maturation of the undifferentiated fetal type II cell and surfactant metabolism and secretion in the differentiated fetal type II cell.     

Induction of metamorphosis by thyroid hormone in anuran small intestine cultured organotypically in vitro

Summary We have developed an organ culture system of the anuran small intestine to reproduce in vitro the transition from larval to adult epithelial form which occurs during spontaneous metamorphosis. Tubular fragments isolated from the small intestine ofXenopus laevis tadpoles were slit open and placed on membrane filters in culture dishes. In 60% Leibovitz 15 medium supplemented with 10% charcoal-treated serum, the explants were maintained in good condition for at least 10 days without any morphologic changes. Addition of triiodothyronine (T₃) at a concentration higher than 10⁻⁹ M to the medium could induce cell death of larval epithelial cells, but T₃ alone was not sufficient for proliferation and differentiation of adult epithelial cells. When insulin (5 μg/ml) and cortisol (0.5 μg/ml) besides T₃ were added, the adult cells proliferated and differentiated just as during spontaneous metamorphosis. On Day 5 of cultivation, the adult cells rapidly proliferated to form typical islets, whereas the larval ones rapidly degenerated. At the same time, the connective tissue beneath the epithelium suddenly increased in cell density. These changes correspond to those occurring at the onset of metamorphic climax. By Day 10, the adult cells differentiated into a simple columnar epithelium which possessed the brush border and showed the adult-type lectin-binding pattern. Therefore, the larval epithelium of the small intestine responded to the hormones and transformed into the adult one. This organ culture system may be useful for clarifying the mechanism of the epithelial transition from larval to adult type during metamorphosis.     

Artifacts in cell culture: rapid generation of hydrogen peroxide on addition of (-)-epigallocatechin, (-)-epigallocatechin gallate, (+)-catechin, and quercetin to commonly used cell culture media

There is considerable current interest in the possible beneficial health effects of quercetin, catechins, epigallocatechins, epigallocatechin gallates, and related phenolic compounds found in teas, wines, and other plant products. As a result, many laboratories are studying the effects of these compounds on cells in culture. The present paper shows that addition of these compounds to commonly used cell culture media leads to generation of substantial amounts of hydrogen peroxide (H(2)O(2)). Dulbecco's modified Eagle medium gives the highest H(2)O(2) level for all the compounds tested, with levels reaching >400 microM within 2 h for addition of 1 mM concentrations of gallic acid, epigallocatechin gallate, and epigallocatechin. Catechin and quercetin produced lower, but still significant, levels of H(2)O(2). McCoy's 5A and RPMI 1640 media also promoted H(2)O(2) production from the above phenolic compounds. This rapid generation of H(2)O(2) could account for some or all of the reported effects of phenolic compounds on cells in culture.     

Characterization of extended primary and secondary cultures of hamster tracheal epithelial cells

Summary Studies on the regulation of differentiation in airway epithelial cells have been hampered by the lack of cell culture systems that differentiate in vitro. One such system that does exhibit differentiation is hamster tracheal epithelial cells (HTE). A major problem with this system, however, is that at the time cells differentiate, they lyze the collagen gel upon which they grow, resulting in termination of the culture. Here we report that by growing the HTE cells at 32° instead of 37°C we can totally prevent lysis of the collagen gel. Cells grown at this lower temperature maintain their differentiated phenotype as evidenced by abundant mucus granules and the secretion of authentic mucus glycoproteins into the culture media. We have also developed a method for subculturing the primary cells which allows growth and differentiation in secondary culture. The HTE cells were capable of being passaged at least three times and did not become transformed as judged by their inability to grow in soft agar and to produce tumors in syngeneic animals. This improved HTE cell culture system will allow detailed studies on the mechanisms which regulate growth, differentiation, and mucus secretion in surface airway epithelial cells. This work was supported in part by grants HL-19717 and HL-36854 from the National Institutes of Health, Bethesda, MD.