Long-term primary culture of epithelial cells from rainbow trout (Oncorhynchus mykiss) liver

Summary Long-term primary cultures of epithelial cells from rainbow trout (Oncorhynchus mykiss) liver have been established. Nearly homogenous (>97%) populations of hepatocytes were placed into primary culture and remained viable and proliferative for at least 70 d. In addition to hepatocytes, proliferative biliary cells persisted in the cultures for at least 30 d. Finally, a third type of epithelial cell, which we have termed a “spindle cell,” consistently appeared and proliferated to confluence in these cultures. The confluent cultures of spindle cells were successfully subcultured and passaged. The initial behavior, growth, and optimization of serum and media requirements for these cells is described. All three cell types proliferated as measured by thymidine incorporation, autoradiography, proliferating cellular nuclear antigen analysis, and propidium iodine staining. Further efforts to characterize the cells included western blotting and immunohistochemical staining with antibodies to cytokeratins previously reported in fish liver. From these data, it appears that all three cell populations are epithelial in nature. Furthermore, significant changes in actin organization, often indicative of transformation or pluripotent cells, were observed with increased time in primary culture.     

Biphasic calcium response of platelet-derived growth factor stimulated glioblastoma cells is a function of cell confluence.

BACKGROUND: Previous reports have linked the spiking or two-phased character of calcium transients evoked by platelet-derived growth factor (PDGF) to the position of cells in the cell cycle without regard to cell-cell contact and communication. Because cell confluence can regulate growth factor receptor expression and dephosphorylation, we investigated the effect of cell culture confluence and cell cycle on calcium responses of PDGF-BB-stimulated A172 glioblastoma cells. METHODS: Digital imaging cytometry was used to correlate the peak and duration of calcium response with bromodeoxyuridine positivity and DNA content and with culture confluence on a cell-by-cell basis. RESULTS: In serum-starved cultures, complete two-phase calcium signals and shorter, lower spikes occurred independent of cell cycle phase. However, the confluence of cell culture seemed essential for inducing a complete response because cells in sparse cultures exhibited mostly short spikes with lower peaks or no transients at all. CONCLUSION: Because cell confluence, by virtue of cell-cell contacts, is assumed to be an important regulator of proliferation, one is tempted to speculate that in transformed cells the ability to produce stronger growth signals upon reaching confluence and facing contact inhibition could provide a proliferative advantage.     

Influence of extracellular matrix and collagen components on alveolar type 2 cell morphology and function

Summary The effects of various extracellular matrices and collagenous components on the morphology, growth, and function of cultured alveolar type 2 cells is examined. Cells grown on an endothelial matrix (EC) showed the greatest adherence, some cell division, and spreading to reach confluence sooner than cells grown on an epithelial matrix or on various types of collagen. The attenuated cells from all cultures were not true type 1 cells because, on trypsinization, they detached as sheets, reverted immediately to a cuboidal shape held together by junctional complexes, and showed an apparently normal content of lamellar bodies. The greatest synthesis of disaturated phosphatidylcholine (DSPC) was seen in cells grown on EC soon after confluence, but all cultures showed reduced but equal levels of DSPC-DNA by Day 4. This occured whether cells were attenuated or cuboidal in shape. The results suggest that some component(s) of the endothelial matrix at the alveolar basement membrane facilitates epithelial cell growth. However, over longer culture periods the matrix preparations had little effect on type 2 cell proliferation whereas function diminished. This suggests that maintenance of these cells as normal type 2 cells or their further differentiation to the type 1 form requires some additional cell derived factor(s). This research was supported by grants from the Medical Research Council of Canada and the Council for Tobacco Research, U.S.A., Inc.     

Organotypic culture of human ovarian surface epithelial cells: A potential model for ovarian carcinogenesis

Summary The objective of this work was to establish an in vitro multidimensional culture system for human ovarian surface epithelial (HOSE) cells as a model for ovarian carcinogenesis. The epithelial origin of cell outgrowth from cells obtained from the ovarian surface was confirmed by keratin staining. Two cultures from two different patients were established, HOSE-A and HOSE-B. Cultures were infected with a retrovirus expressing human papillomavirus genes E6 and E7 to extend their life span. HOSE cells were seeded onto collagen gels containing NIH3T3-J2 fibroblasts as feeder cells and grown to confluence submerged in growth medium. The collagen bed was then raised to the air-medium interface for 7 d (organotypic culture). Microscopically, fixed cultures revealed a single layer of flat cells growing on the collagen surface, reminiscent of HOSE cells in vivo. Infected HOSE-A and HOSE-B cells exhibited aberrant growth because they stratified. In addition, established ovarian cancer lines grown in this fashion stratified and showed malignant phenotypes. Thus, cells grown in organotypic culture resemble their in vivo counterparts, providing a basis for establishing a system to study growth, proliferation, differential gene expression, and perhaps malignant transformation of HOSE cells.     

Activity-dependent gene regulation in conditionally-immortalized muscle precursor cell lines

Skeletal muscle contractile activity has been implicated in many aspects of muscle cell differentiation and maturation. Much of the research in this area has depended upon costly and labor-intensive cultures of isolated primary muscle cells because widely available immortalized muscle cell lines often do not display a high level of either spontaneous or stimulated contractile activity. We sought to develop conditionally-immortalized skeletal muscle cell lines that would provide a source of myofibers that exhibit robust spontaneous contractile activity similar to primary muscle cultures. Using a tetracycline-regulated retroviral vector expressing a temperature-sensitive T-antigen to infect primary myoblasts, we isolated individual clonal muscle precursor cell lines that have characteristics of activated satellite cells during growth and rapidly differentiate into mature myotubes with spontaneous contractile activity after culture in non-transformation-permissive conditions. Comparison of these cell lines (known as rat myoblast-like tetracycline (RMT) cell lines) to primary cell cultures revealed that they share a wide variety of morphological, physiological, and biochemical characteristics. Most importantly, the time-course and extent of activity-dependent gene regulation observed in primary cell culture for all genes tested, including subunits of the nicotinic acetylcholine receptor (nAChR), muscle specific kinase (MuSK), and myogenin, is reproduced in RMT lines. These immortalized cell lines are a useful alternative to primary cultures for studying muscle differentiation and molecular and physiological aspects of electrical activity in muscle fibers.     

Efficient genetic method for establishing Drosophila cell lines unlocks the potential to create lines of specific genotypes

Analysis of cells in culture has made substantial contributions to biological research. The versatility and scale of in vitro manipulation and new applications such as high-throughput gene silencing screens ensure the continued importance of cell-culture studies. In comparison to mammalian systems, Drosophila cell culture is underdeveloped, primarily because there is no general genetic method for deriving new cell lines. Here we found expression of the conserved oncogene Ras(V12) (a constitutively activated form of Ras) profoundly influences the development of primary cultures derived from embryos. The cultures become confluent in about three weeks and can be passaged with great success. The lines have undergone more than 90 population doublings and therefore constitute continuous cell lines. Most lines are composed of spindle-shaped cells of mesodermal type. We tested the use of the method for deriving Drosophila cell lines of a specific genotype by establishing cultures from embryos in which the warts (wts) tumor suppressor gene was targeted. We successfully created several cell lines and found that these differ from controls because they are primarily polyploid. This phenotype likely reflects the known role for the mammalian wts counterparts in the tetraploidy checkpoint. We conclude that expression of Ras(V12) is a powerful genetic mechanism to promote proliferation in Drosophila primary culture cells and serves as an efficient means to generate continuous cell lines of a given genotype.     

Mucociliary differentiation according to time in human nasal epithelial cell culture

Knowledge of the state of differentiation, cell phenotype, and expression of genes for mucus production at the time of study is important because these may vary at different times during the culture period. The primary purpose of this study was to determine whether the number of ciliated cells increases as a function of differentiation in NHNE cells. If we observed an increase in the number of ciliated cells, the composition ratio of ciliated and secretory cells according to the culture duration was determined. The levels of mucin and lysozyme secretion and their gene expression at this time were also examined. The presence of ciliated cells was not evident up to 2 days after confluence. However, 3.1 +/- 0.2 %, 7.4 +/- 0.5 %, and 14.5 +/- 0.6 % of the cells were ciliated on the 7th, the 14th, and the 28th day after confluence, respectively. Meanwhile, the percentage of secretory cells were 35.6 +/- 2.8 %, 32.8 +/- 2.5 %, 32.8 +/- 2.5 %, and 49.4 +/- 1.4 % on the 2nd, the 7th, 14th, and 28th day after confluence. The amount of secreted mucin showed an abruptly increasing pattern by the 14th day after confluence but showed no significant changes thereafter. The amount of secreted lysozyme increased as a function of differentiation. MUC5AC and MUC5B mRNA were mainly expressed between the 7th and the 14th day after confluence with relatively weak MUC8 and lysozyme expression. By the 28th day after confluence however, as the MUC5AC mRNA expression became weaker, MUC5B, MUC8, and lysozyme mRNA expression became stronger. In conclusion, we speculate that in in vitro studies with NHNE cells, the time point of treatment should vary according to the purpose of the study. In addition, the MUC5B and MUC8 gene may play an important role in mucin secretion in fully differentiated human nasal epithelial cells.     

A method for prolonged survival of primary cell lines

Summary We have established a means for prolonged survival of primary cell cultures and establishment of continuous cell lines without genetic manipulations. Primary cultures of granulosa cells degenerate rapidly in vitro by a spontaneous onset of apoptotic cell death. Earlier attempts to circumvent this limitation have included transformation with oncogenes, spontaneous immortalization of primary cultures, and chemical carcinogenesis. We have found that addition of a complex of growth-promoting compounds, carrier proteins, and factors isolated from porcine follicular fluid to standard culture medium allows, reproducibly, the establishment of continuous porcine primary granulosa cell lines with genetic stability. This same supplement allows the prolonged survival of primary cell cultures derived from adult rat ovaries. The rat ovary primary cultures consisted of mixed phenotypes, including epithelial, neuron-like, and mesenchymal cell types. Numerous cells stain positive for alkaline phosphatase in these cultures. Other primary cell lines were established from embryonic rat liver and from adult rat lungs, using the same supplement. The survival effect is reversible because cells degenerate when the supplement is removed. Therefore, the cell lines have neither acquired properties of a tumor cell line nor have they been immortalized by a virus infection. We expect that our approach will open the door to prolonged survival of other primary cell types.     

小鼠原代呼吸道上皮细胞分离培养的新方法

现有的呼吸道上皮细胞系大多来源于肿瘤组织或成系时与肿瘤细胞融合,其生物学行为与正常呼吸道上皮细胞差异较大.为更准确反映呼吸道疾病条件下该类细胞的生物学效应,本文对小鼠呼吸道上皮细胞分离的新技术和培养方法进行了探索.利用链霉蛋白酶消化法分离获得小鼠呼吸道上皮细胞,利用特殊的完全培养基和Ⅰ型胶原包被的培养皿进行原代培养.镜...     

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.     

Virus contaminations of cell cultures – A biotechnological view

In contrast to contamination by microbes and mycoplasma, which can be relatively easily detected, viral contamination present a serious threat because of the difficulty in detecting some viruses and the lack of effective methods of treating infected cell cultures. While some viruses are capable of causing morphological changes to infected cells (e.g. cytopathic effect) which are detectable by microscopy some viral contaminations result in the integration of the viral genome as provirus, this causes no visual evidence, by means of modification of the cellular morphology. Virus production from such cell lines, are potentially dangerous for other cell cultures (in research labs)by cross contaminations, or for operators and patients (in the case of the production of injectable biologicals) because of potential infection. The only way to keep cell cultures for research, development, and the biotech industry virus-free is the prevention of such contaminations. Cell cultures can become contaminated by the following means: firstly, they may already be contaminated as primary cultures (because the source of the cells was already infected), secondly, they were contaminated due to the use of contaminated raw materials, or thirdly, they were contaminated via an animal passage. This overview describes the problems and risks associated with viral contaminations in animal cell culture, describes the origins of these contaminations as well as the most important virsuses associated with viral contaminations in cell culture. In addition, ways to prevent viral contaminations as well as measures undertaken to avoid and assess risks for viral contaminations as performed in the biotech industry are briefly described. This revised version was published online in August 2006 with corrections to the Cover Date.     

Cellular microenvironment influences the ability of mammary epithelia to undergo cell cycle

The use of cell culture models is a principal and fundamental technology used in understanding how mammalian cells work. However, for some cell types such as mammary epithelia, the lines selected for extended culture are often transformed or have chromosomal abnormalities, while primary cultures have such a curtailed lifespan that their use is restricted. For example, mammary luminal epithelial cells (MECs) are used to study mechanisms of breast cancer, but the proliferation of primary cell cultures is highly limited. Here we describe the establishment of a new culture system to allow extended analysis of cultures of primary mouse MECs. In 2D monolayer culture, primary MECs showed a burst of proliferation 2-3 days post isolation, after which cell cycle decreased substantially. Addition of mammary epithelial growth factors, such as Epidermal Growth Factor, Fibroblast Growth Factor-2, Hepatocyte Growth Factor, and Receptor Activator for Nuclear Factor κB Ligand, or extracellular matrix proteins did not maintain their proliferation potential, neither did replating the cells to increase the mitogenic response. However, culturing MECs directly after tissue extraction in a 3D microenvironment consisting of basement membrane proteins, extended the time in culture in which the cells could proliferate. Our data reveal that the cellular microenvironment has profound effects on the proliferative properties of the mammary epithelia and is dominant over growth factors. Moreover, manipulating the cellular environment using this novel method can maintain the proliferative potential of primary MECs, thus enabling cell cycle to be studied as an endpoint after gene transfer or gene deletion experiments.     

Phenotypic diversity in cultured cerebral microvascular endothelial cells

Summary Diversity exists in both the structure and function of the endothelial cells (EC) that comprise the microvasculature of different organs. Studies of EC have been aided by our ability to first isolate and subsequently establish cultures from microvascularized tissue. After the isolation of microvessel endothelial cells (MEC) derived from rat cerebrum, we observed morphologic differences in colonies of cells that grew in primary cultures. The morphologies ranged from a cobblestone phenotype considered typical of EC in culture to elongated and stellate cell appearances. Serially passaged cell lines were established based on two parameters: initially by growth and, second, on differences in primary colony morphology using selective weeding techniques. Each culture was examined for the presence of EC-characteristic markers which include Factor-VIII-related antigen, angiotensin-I-converting enzyme activity, collagen type IV synthesis, and PGI₂ production. Variable expression of each of these characteristics among the established EC lines was observed. Growth curves established for each of the EC cultures demonstrated differences in both population doubling rates and cell densities at confluence. The endocytic capacity of each EC line was also evaluated. Our ability to isolate and establish a number of morphologically distinct EC cultures indicates that diversity exists within the EC that comprise the cerebral microvasculature. Diversity in the established cell lines suggests either the EC that line the brain microvasculature exist as a mosaic or that morphologically distinct cultures may originate from different microanatomical origins (arteriolar, true capillary, or venular) or may have resulted from cells at different points in their in vitro life spans at the time of isolation. This research was supported by grants HLO3227 and HLO1514 from the National Institutes of Health, Bethesda, MD.     

Differentiation in vitro of primary cultures and transfected cell lines of epithelial cells derived from the thick ascending limb of Henle''s loop

The use of primary cell cultures derived from defined locations of the kidney has enabled the study of certain kidney cell type-specific characteristics under defined environmental conditions. The use of primary cell cultures, however, has a number of inherent disadvantages, many of which may be overcome by the use of differentiated cell lines of defined origin. In this paper I describe in detail an approach to: (a) the isolation and culture of primary cultures derived from the thick ascending limb of Henle's loop (TALH), and (b) the production of differentiated cell lines by the transfection of these primary cell cultures with early region SV40 virus genes. The characteristics of these cultures and other TALH-derived cell lines are described.     

Does the lack of regression-associated mRNA expression render a rat ventral prostate epithelial cell line androgen independent?

A series of rapidly dividing epithelial (RDE) cell lines have been isolated from primary cultures of rat ventral prostate (RVP) epithelial cells. Unlike androgen-dependent secretory epithelial cells, the RDE cells in culture do not express the androgen-dependent secretory proteins, nor do they express the androgen-repressed cell death sequences (TRPM-2) found in the epithelial cells during prostatic regression. Screening of a cDNA clone library established from RDE cell mRNA has yielded a number of RDE cell-specific sequences. One of these, RDE-.25 is a 250-base mRNA. The sequence of RDE-.25 shows considerable homology with the rat growth hormone gene and two murine oncogene sequences. We believe that the absence of androgen-repressed cell death sequence expression confers androgen independence for survival and growth, while the expression of RDE-.25 may represent an autocrine growth stimulus which greatly increases the rate of cell division in these cells.     

Expression of EGF receptor and transferrin by F9 and PC13 teratocarcinoma cells

We document the time of appearance and the levels of two markers of differentiation during the formation of embryoid bodies by two embryonal carcinoma (EC) cell lines. Neither of these markers has been described before for EC cells differentiating in aggregate culture, and they further extend the identification and characterization of new cell types. Both F9 and PC13 EC cell lines form embryoid bodies (so-called because they resemble early mouse embryos) with an outer epithelial layer of visceral endoderm cells, after suspension culture in the presence of retinoic acid. However, the two cell lines differ in the procedures needed to initiate the differentiation process. Once floating aggregate cultures have been formed, the time course of the appearance of epidermal growth factor (EGF) receptors and of the secretion of transferrin are similar in both cell lines, although the levels differ. EGF receptors and transferrin are quantified by 125I-EGF binding assays and enzyme-linked immunosorbent assays (ELISA) using specific antibodies, respectively. The expression of EGF receptors increases about two fold while that of transferrin increases up to 40 fold after treating F9 aggregates with retinoic acid. The EGF receptors reach a maximum 4 days after adding retinoic acid and then decline, while transferrin only increases later from a low but detectable level. For PC13 cells, EGF receptors increase tenfold, and transferrin synthetic rate increases 40 fold during the time-course. Interestingly, unstimulated F9 cells in monolayer cultures also express low levels of these markers, while the levels in PC13 EC cells are barely detectable above background.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cell culture density as a modulator of collagenase expression in normal human fibroblast cultures

The effect of various stages of normal cell growth on human fibroblast collagenase found in the culture medium was studied, so that the regulatory mechanisms of synthesis, secretion and activity of the enzyme could be established. Specific activity of collagenase increased 6- to 10-fold shortly after confluence was reached when compared with low density levels and decreased in post-confluent cultures, suggesting that synthesis and/or release of the enzyme changes with culture density. To assess this possibility, culture medium was examined for immunoreactive collagenase protein by radioimmunoassay. After confluence was reached, immunoreactive collagenase had increased approx. 2-fold, indicating greater secretion, and probably synthesis, of the enzyme. However, the increase in specific activity of the enzyme observed shortly after confluence was greater than could be accounted for by an increase in immunoreactive enzyme protein. As a result of the disproportionate increase in collagenase activity, the collagenase activity per unit immunoreactive protein was also found to be greatest shortly after confluence and decreased in post-confluent cultures. This density-associated modulation of collagenase expression could be reproduced by initiating the cultures at high density after subculture. Expression of collagenase activity was dependent upon intact protein synthetic mechanisms, since cultures maintained in the presence of cycloheximide failed to secrete collagenase into the culture medium.     

Isolation and immortalization of rat pre-type II cell lines

Summary The fetal respiratory distress syndrome is due, in part, to the presence of abundant pre-type II alveolar epithelial cells that have not yet differentiated into mature type II cells. Studies of this syndrome have been limited somewhat by the lack of an adequate in vitro model. In the present study we immortalized pre-type II cells by infecting primary isolates obtained from fetal rat lung with a retroviral construct expressing the adenoviral 12S E1A gene product. The immortalized pre-type II cells retained many of the ultrastructural features typical of pre-type II cells in primary culture, most notably lamellar bodies were not detected and the cells contained abundant stores of glycogen, expressed cytokeratin filaments, and bound the lectinMaclura pomifera. Karyotyping revealed that the cells are diploid. Growth studies demonstrate log phase growth in the presence of serum with a markedly decreased growth rate shortly after the cells reach confluence. Exposure of the immortalized pre-type II cells to hydrocortisone and dibutryl cAMP resulted in the induction of lamellar bodylike organelles; however, these cells did not secrete surfactant or express surfactant protein A. These cells may serve as useful models for some in vitro studies of fetal type II cell maturation or the fetal respiratory distress syndrome, or both.     

Stimulation of tissue plasminogen activator production from epithelial cell lines

The aim of this study was to investigate the possibility of enhancing the yield of tissue plasminogen activator (tPA) from two epithelial cell lines of normal (non-malignant) derivation grown in tissue culture. The three agents used in this investigation were chosen because of their proven enhancing effect on analogous cells or products. The anabolic hormone stanozolol was found to have no significant stimulatory effect on these cell lines. A phorbol acetate (12-O-tetradecanoylphorbol 13-acetate) caused a twofold enhancement in tPA yield but the most significant results were obtained with 5-azacytidine. This agent increased the yield by up to fourfold in small stationary cultures and threefold in large-scale microcarrier cultures. A combination of azacytidine and phorbol acetate did not have an additive effect on total yield but did alter the kinetics of tPA expression with time. Indications were that the maximum yield with these types of potentiating agents was achieved as it could not be increased by using a combination of two different agents.