Maintenance of proximal and distal cell functions in SV40-transformed tubular cell lines derived from rabbit kidney cortex

This paper reports the preparation and describes the properties of three renal tubular cell lines derived using SV40 infection of primary cultures of rabbit kidney cortical cells, enriched in proximal cells. RC.SV1 was initially derived from cultures grown in the presence of fetal calf serum exhibiting a low degree of proximal differentiation. The cells were subsequently adapted to grow in serum-free hormonally defined medium and display basic properties of proximal tubule cells including well-developed apical microvilli, strong expression of brush-border hydrolases, Na+-coupled glucose uptake, and increased cyclic AMP production when exposed to PTH. The other two cell lines were derived from cultures in serum-free hormonally defined medium and propagated in the same medium. They are characterized by some common properties including rare and short microvilli, low expression of apical hydrolases, and low or undetectable Na+-dependent glucose uptake, but differ by their abilities to respond by an increase in cAMP to various hormonal stimuli. RC.SV2 cells are sensitive to calcitonin and to a lesser extent to isoproterenol and PTH, suggesting that they may originate from the thick ascending limb of Henle's loop and the bright portion of the distal tubule. RC.SV3 responds essentially to isoproterenol and arginine vasopressin, suggesting a more distal origin (late distal and initial collecting tubule). Emergence of distal cell lines from cultures exhibiting proximal characteristics may be related to distal cell overgrowth as suggested by analysis of growth kinetics and increased Na+/H+ exchanger activity in RC.SV2 compared with RC.SV1.     

Conditionally Immortalized Neural Cell Lines: Potential Models for the Study of Neural Cell Function

Studies on primary cell cultures have contributed significantly to our understanding of neural cell function. Nevertheless, for many studies the value of these primary cell cultures has been limited by the time the cultures survivein vitro,the quantity of cellular material available for analysis, and the need to prepare the cells on a regular basis from fresh tissue. Techniques for immortalizing cells have existed for some time, but the repertoire of immortalizing genes has grown significantly. This has expanded our ability to generate useful cell lines of specific neural types that are better models of thein vivophenotype than previously. The constitutive expression of oncogenes keeps cells in a proliferative state that could lead to the loss of differentiated gene expression and function. An appealing improvement of immortalization methodology is the use of temperature-sensitive oncogenes that generate cell lines that can proliferate at a permissive temperature and “differentiate” at a nonpermissive temperature. The proliferation of such conditionally immortalized cell lines can be suppressed simply by increasing the temperature. Cell lines maintained at the nonpermissive temperature can enter into a stage in which they express differentiated properties of the cell. The potential ability of conditionally immortalized neural cell lines to accurately reflect theirin vivofunction has now been demonstrated on several occasions through transplantation experiments. In this report, the generation of these cell lines is described along with a discussion of their potential applications in neurobiology.     

In search of a novel target - phosphatidylserine exposed by non-apoptotic tumor cells and metastases of malignancies with poor treatment efficacy

This study was performed in the aim to identify potential targets for the development of novel therapy to treat cancer with poor outcome or treatment efficacy. We show that the negatively charged phospholipid phosphatidylserine (PS) is exposed in the outer leaflet of their plasma membrane not only in tumor cell lines, but also in metastases and primary cultures thereof, which contrasts with a lack of PS exposure by differentiated non-tumorigenic counterparts. Studied tumor cell lines were derived from non-tumorigenic and malignant melanomas, prostate- and renal cancer, glioblastoma and a rhabdomyosarcoma. Importantly, also metastases of melanoma expose PS and there is a correlation between malignancy of melanoma cell lines from different stages of tumor progression and PS exposure. The PS exposure we found was neither of apoptotic nor of experimental artificial origin. Finally potentially malignant and non-malignant cells could be differentiated by sorting of a primary cell culture derived from a glioblastoma based on PS exposure, which has so far not been possible within one culture due to lack of a specific marker. Our data provide clear evidence that PS could serve as uniform marker of tumor cells and metastases as well as a target for novel therapeutic approaches based on e.g. PS-specific host defense derived peptides.     

H1 Histone and nucleosome repeat length alterations associated with the in vitro differentiation of murine embryonal carcinoma cells to extra-embryonic endoderm

The histone compositions and average distance between nucleosomes have been determined for F9.22 and PSA1 murine embryonal carcinoma cell lines, for primary extra-embryonic endoderm derived from the in vitro differentiation of PSA1 embryonal carcinoma cells, and for two long-term extra-embryonic endodermal cell lines. A change in the relative proportions of two forms of the H1 histones (H1A and H1B) was found to correlate with the extra-embryonic endodermal differentiated phenotype. The embryonal carcinoma cells had a ratio of H1A/H1B of 1.49 or greater. In contrast, extra-embryonic endoderm from either cell lines or freshly isolated from differentiating embryonal carcinoma cell cultures had a ratio of H1A/H1B of less than 0.9. Partial peptide mapping of gel purified H1A and H1B suggest the two proteins differ in primary structure. The nucleosome repeat length of the embryonal carcinoma cell lines was 196 bp of DNA. Primary extra-embryonic endoderm was found to have a value of 205 bp, but the long-term extra-embryonic endodermal cell lines had an average nucleosome repeat length of 187 bp. Since both freshly isolated primary endoderm and the long-term endodermal cell lines express differentiated functions (basement membrane glycoproteins and plasminogen activator activity), there appears to be no simple correlation between the nucleosome repeat length and the expression of these differentiated functions.     

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.     

Changes in surface relief of suspended cells are morphological signs of the initial stage of neoplastic transformation in fibroblastic monolayer cultures.

The percentages of cells with different types of cell surface relief were determined in cell suspensions derived from monolayer cultures. Primary cultures of rat embryo fibroblasts (REF) and cell lines REF (LT) and REF-1, immortalized cells of which preserved normal phenotypic characteristics of the initial primary culture REF, as well as morphologically transformed tumorigenic lines REF (LT) ras and REF-2EJ were studied. In REF suspensions the cells with the blebbed type of surface relief were shown to be predominant as compared with those with microvillus relief whereas cell suspensions derived from both immortalized and fully transformed cultures display the reverse ratio of cells with those types of surface relief. Therefore, the pattern of cell surface relief in cell suspensions derived from fibroblastic monolayer cultures may serve as a morphological marker of the initial stage of neoplastic transformation-immortalization when typical morphological signs of cell transformation are not yet manifested in monolayer cultures.     

Three-dimensional in vitro cell biology models of ovarian and endometrial cancer

Objectives:  This study aims to establish three-dimensional (3D) cell culture models of human ovarian and endometrial cancers and to compare biological and morphological characteristics of these models with those of two-dimensional (2D) models of the same cell lines and the primary tumours.
Methods:  3D models of ovarian and endometrial cancer cell cultures were established using a Rotary Cell Culture System. Immunohistochemical profiling and differential proteomics were used to characterize biological characteristics of multicellular spheroids (MCS) formed from these cultures. These were compared to characteristics of the same cells established in 2D and of the primary tumours from which the cell lines were derived.
Results:  MCSs from 3D cell cultures appeared histologically similar to the primary tumours. Immunohistochemical profiling of multiple markers, including CA125, BCL2 and p53, showed that patterns of protein expression in MCSs resemble those of the primary tumours. Proteomic profiling identified several differentially expressed protein markers between 2D and 3D cultures. These included prohibitin, which was down-regulated in 3D cultures suggesting cells proliferate less compared to 2D cultures; and VDAC1 and annexin 4, which were up-regulated in 3D cultures suggesting greater levels of apoptosis in 3D compared to 2D models.
Conclusion:  Establishing 3D models of cancer cell lines is likely to be of value for studying the molecular and biological mechanisms of ovarian/endometrial tumour progression and for testing novel molecular targets for cancer therapy.     

Susceptibility of cell lines of primate and nonprimate origin to certain human viruses

A comparative study was made of the susceptibility of 11 cell lines of human and animal origin, the WI-38 cell strain and fresh cultures of human thyroid, monkey kidney and hamster embryo tissues to certain human viruses. The animal cell lines were derived from monkey, rabbit, mouse, pig and calf tissues. The viruses used were strains of influenza A₂ and B viruses, parainfluenza viruses types 1, 2 and 3, RS virus, adenoviruses types 3, 4 and 21, poliovirus type 1 and Coxsackie A type 21 and Coxsackie B type 3 viruses. Cell lines derived from nonprimate tissues were generally less susceptible than cell cultures of human and simian origin. The combined use of fresh cultures of human thyroid and monkey kidney tissues and of a human cell line seems to provide a satisfactory indicator system for the viruses employed in this study.     

Two classes of continuous cell lines established from Syrian hamster 9 day gestation embryos: Preneoplastic cells and progenitor cells

Summary Primary cultures of 9-d-gestation Syrian hamster embryo (E9) cells are distinct from primary cultures of later gestational age in terms of their growth and differentiation. First, primary E9 cell cultures express multiple mesenchymal differentiation lineages (e.g., adipocyte, myoblast) only rarely seen in cultures of 13-d-gestation fetal (F13) cells. Second, although most primary E9 cultures have a limited in vitro proliferative life span and exhibit cellular senescence similar to primary cultures of F13 cells, E9 cultures seem to have higher frequency of escape from senescence and conversion to continuous cell lines compared to F13 cells. Moreover, this frequency can be further increased 4- to 5-fold by continuous exposure of the E9 cells to tumor promoters or epidermal growth factor. Eleven continuous cell lines have been isolated from unreated, promoter-treated, or epidermal growth factor-treated primary E9 cultures. Seven of these are neoplastic or preneoplastic. However, the remaining four do not show any evidence of being in neoplastic progression and three of these continue to express the same differentiated phenotype observed in ther parental primary cell cultures. These studies were supported in part by grants from the National Institutes of Health (AG 01998), Bethesda, MD, and the U.S. Department of Energy (DE-A-C02-76-EVO-3280), Washington, DC.     

Establishment of renal cell lines derived from S2 segments of the proximal tubule.

The aim of this study was to establish epithelial cell lines derived from defined nephron segments. Primary cultures were prepared from dissected proximal S2 segments of the rabbit kidney, and grown in monolayers. Immortalization was observed after nuclear microinjection of the cells with simian virus 40 DNA and resulted in the development of cell lines of epithelial morphology. These cell lines were maintained in culture for at least 24 passages, then cells were frozen. One of the cell lines, the RKPC-2, was selected and further characterized. RKPC-2 cells formed domes on impermeable supports, indicating fluid and solute transport. RKPC-2 cells formed continuous monolayers of low transepithelial resistance on collagen-coated filters. They were able to accumulate tetraethylammonium, an organic cation; however, no significant transcellular transport could be measured. We conclude that this cell line which shows characteristics of epithelial cells has maintained certain properties of intact proximal tubules, in particular the capacity to accumulate organic cations.     

Endocrine differentiation by a human rectal adenocarcinoma cell line (HRA-19)

Colorectal epithelium is composed of a variety of cell types, including absorptive, mucous and endocrine cells. All of these cell types are thought to arise from stem cells located at the base of the crypt. However, the factors which control these differentiation pathways are poorly understood. In attempts to establish differentiated in vitro systems, one approach has been to grow primary human colorectal adenocarcinomas as cell lines. Some of these cell lines retain a sufficient number of the differentiated features of their tissue of origin to make them useful experimental systems for studying differentiation. This study describes the characterisation of such a cell line, the HRA-19 line. HRA-19 cells were derived from a primary human rectal adenocarcinoma. The cells grew as monolayers in vitro on tissue-culture plastic and remained pleomorphic even after 150 passages in vitro. Some colonies of cells expressed alkaline phosphatase activity, an enzyme normally expressed in vivo by absorptive cells of the upper crypt and surface epithelium. No evidence of differentiation into goblet or endocrine cells was obtained in monolayer cultures of HRA-19 cells. Xenografts of this cell line contained cells with the ultrastructural characteristics of absorptive and endocrine cells. These endocrine cells exhibited Grimelius silver staining, displayed formaldehyde-induced fluorescence and contained many basally located, electron-dense granules. When grown as monolayers, clones of this cell line retained the heterogeneity with respect to morphology and alkaline phosphatase expression of the parent cell line. It is proposed that this cell line is derived from malignant progenitor cells which retain the ability to differentiate.(ABSTRACT TRUNCATED AT 250 WORDS)     

The establishment of two rat colonic carcinomas in tissue culture. A basic prerequisite for standardized experiments on the biology of colonic carcinomas in vivo

Two rat colonic carcinomas (DMH-Co-1 and DMH-Co-2) derived from dimethyl-hydrazine-induced metastasizing adenocarcinomas were established as permanent cell lines. By means of electron microscopy, immunofluorescence microscopy and biochemical analysis of cytoskeletal components, it has been shown that both tumor cell lines retain in vitro the phenotypic characteristics of the primary tumors. The in vitro growth properties revealed only minor differences between the two cell lines. After retransplantation in vivo, DMH-Co-2 gave rise to moderately differentiated adenocarcinomas, whereas the tumors arising from DMH-Co-1 exhibited a continuum of differentiation encompassing adenocarcinomas, undifferentiated carcinomas and squamous cell carcinomas. These permanent cell lines offer the opportunity for isolating divergent subpopulations by in vitro cloning and facilitate standardized experiments on their biological behaviour in vivo.     

Maintenance of expression of differentiated function of kidney cells following transformation by SV40 early region DNA

This study describes the isolation and characterization of epithelial cell lines that maintain their differentiated phenotype following the stable integration of SV40 genes. Epithelial cells were derived from a defined location of rabbit kidney, the thick ascending limb of Henle's loop, and were co-transfected with genes from the early region of SV40 together with pSV2-neo DNA (which confers resistance to the antibiotic G418). These cells were shown to be resistant to G418, express SV40 large T-antigen and continued to express differentiated characteristics typical of cells of their origin. Such characteristics include the expression of high levels of activity of both Na,K-ATPase and the functionally important Na,K,Cl-co-transport system, the synthesis of Tamm-Horsfall glycoprotein and the presence of a barium-sensitive K+ channel on the apical membrane surface.     

Cell differentiation,secondary cell-wall formation and transformation of callus tissue of<Emphasis Type="Italic"> Pinus radiata</Emphasis> D. Don

Tracheid and sclereid differentiation was induced in callus cultures of Pinus radiata D. Don by culturing on a basal medium containing activated charcoal but no phytohormones; sclereids differentiated in callus derived from xylem strips, but not in callus derived from hypocotyl segments. The tracheids differentiated in hypocotyl-derived callus had helical, scalariform, reticulated or pitted secondary cell-wall patterns, but those differentiated in xylem-derived callus had a reticulate or pitted pattern. The thickened tracheid and sclereid walls contained lignin as indicated by the red colour reaction given with phloroglucinol-HCl. The presence of lignin in the cell walls of differentiated callus was confirmed using pyrolysis gas chromatography-mass spectrometry by the detection of phenylpropanoid components derived from lignin. Lignin was also detected using solid-state (13)C cross-polarisation/magic-angle spinning nuclear magnetic resonance spectroscopy and quantified as thioglycolic acid lignin. Monosaccharide analyses of the cell walls isolated from differentiated and undifferentiated calli showed that the cell walls of the differentiated calli contained higher proportions of glucose and mannose, consistent with the presence of greater proportions of gluco- and/or galactogluco-mannans in the secondary cell walls of the differentiated cells. A protocol for the stable transformation of undifferentiated, xylem-derived cultures was successfully developed. Transgenic cell lines were established following Biolistic particle bombardment with a plasmid containing the coding region of the nptII gene and the coding region of the cad gene from P. radiata. Expression of the nptII gene in transgenic lines was confirmed by an NPTII-enzyme-linked immunosorbent assay. The overexpression of cad in the transgenic lines resulted in a down-regulation of cinnamyl alcohol dehydrogenase (EC 1.1.1.195) expression.     

Production of avian influenza virus vaccine using primary cell cultures generated from host organs

The global availability of a therapeutically effective influenza virus vaccine during a pandemic remains a major challenge for the biopharmaceutical industry. Long production time, coupled with decreased supply of embryonated chicken eggs (ECE), significantly affects the conventional vaccine production. Transformed cell lines have attained regulatory approvals for vaccine production. Based on the fact that the avian influenza virus would infect the cells derived from its natural host, the viral growth characteristics were studied on chicken embryo-derived primary cell cultures. The viral propagation was determined on avian origin primary cell cultures, transformed mammalian cell lines, and in ECE. A comparison was made between these systems by utilizing various cell culture-based assays. In-vitro substrate susceptibility and viral infection characteristics were evaluated by performing hemagglutination assay (HA), 50 % tissue culture infectious dose (TCID₅₀) and monitoring of cytopathic effects (CPE) caused by the virus. The primary cell culture developed from chicken embryos showed stable growth characteristics with no contamination. HA, TCID₅₀, and CPE exhibited that these cell systems were permissive to viral infection, yielding 2–10 times higher viral titer as compared to mammalian cell lines. Though the viral output from the ECE was equivalent to the chicken cell culture, the time period for achieving it was decreased to half. Some of the prerequisites of inactivated influenza virus vaccine production include generation of higher vial titer, independence from exogenous sources, and decrease in the production time lines. Based on the tests, it can be concluded that chicken embryo primary cell culture addresses these issues and can serve as a potential alternative for influenza virus vaccine production.     

A novel dual-color reporter for identifying insulin-producing beta-cells and classifying heterogeneity of insulinoma cell lines

Many research studies use immortalized cell lines as surrogates for primary beta- cells. We describe the production and use of a novel "indirect" dual-fluorescent reporter system that leads to mutually exclusive expression of EGFP in insulin-producing (INS(+)) beta-cells or mCherry in non-beta-cells. Our system uses the human insulin promoter to initiate a Cre-mediated shift in reporter color within a single transgene construct and is useful for FACS selection of cells from single cultures for further analysis. Application of our reporter to presumably clonal HIT-T15 insulinoma cells, as well as other presumably clonal lines, indicates that these cultures are in fact heterogeneous with respect to INS(+) phenotype. Our strategy could be easily applied to other cell- or tissue-specific promoters. We anticipate its utility for FACS purification of INS(+) and glucose-responsive beta-like-cells from primary human islet cell isolates or in vitro differentiated pluripotent stem cells.     

Characterization and co-culture of novel nontransformed cell lines derived from rat endometrial epithelium and stroma

Summary Normal and neoplastic growth of epithelial cells depends on mutual interactions between epithelial and stromal cells. As a tool for the study of the underlying molecular mechanisms, we have developed temperature-sensitive, nontransformed cell lines derived from rat uterine epithelium and stroma by transfecting primary cultures with a temperature-sensitive mutant of the SV40 large T antigen. The epithelial and stromal cell lines obtained shared relevant morphological characteristics with the primary cells from which they were derived. Immunocytochemical analysis showed that the epithelial cell lines expressed the intermediate filament cytokeratin, whereas the stromal lines expressed the intermediate filament vimentin. Alkaline phosphatase activity was present in all cell lines examined. All cell lines were anchorage dependent and did not form foci. One epithelial cell line expressed oxytocin mRNA, a gene product recently shown to be highly expressed in vivo in the uterine epithelium at term. If grown on Matrigel, this cell line formed domelike structures, a further characteristic of its differentiated phenotype. In an attempt to reconstitute an endometrium in vitro, epithelial cells were seeded on top of a layer of stromal cells. Paraffin cross sections showed that this in vitro system consisted of a bilayer structure. Four to five cuboidal epithelial cells were typically anchored atop one stromal cell, forming an endometriumlike tissue. The present in vitro system should provide a useful model for further studies on endometrial functions and epithelial/stromal cell interactions at a molecular level.