Isolation and characterization of peanut agglutinin-resistant embryonal carcinoma cell-surface variants

The isolation and characterization of variant embryonal carcinoma (EC) cells possessing altered cell-surface structures is described. The lectin peanut agglutinin (PNA), which binds to EC cells but not their differentiated derivatives, was used to select the variants. Clones resistant to the cytotoxic effect of PNA were isolated at a frequency of 4 × 10^–5 following mutagenesis. The resistant phenotype was stable in the absence of selection in all eight clones tested. The increased frequency of resistant clones following mutagenesis and the stability of the phenotype suggests a mutational origin. Somatic cell hybrids constructed between wild-type cells and two different PNA-resistant cell lines were sensitive to PNA; this suggests that the resistant phenotype is recessive. Binding assays demonstrated that resistant cells exhibited a twofold to fourfold reduction in the total amount of PNA bound. Together with the recessive behavior of the phenotype, this suggests that resistant cells are deficient for PNA receptors. The PNA-resistant cells also showed reduced binding of monoclonal antibody against stage-specific embryonic antigen 1 (SSEA–1) in indirect cytotoxicity tests. All eight PNA-resistant lines isolated were tumorigenic in syngeneic mice and gave rise to well-differentiated teratocarcinomas. The PNA-resistant cells behaved like their wild-type parents in a cell recognition assay; when incubated in suspension with endodermal cells, they sorted out to form simple embryoid bodies (a core of EC cells surrounded by an endodermal rind). Thus, EC cells can form tumors, differentiate, and recognize differentiated cells in a sorting assay despite a reduction in expression of the embryo-specific cell surface structures (s) that bind PNA and anti-SSEA-1 antibody.     

Glucocorticoid responsiveness of hepatoma cell hybrids

The dominance or recessiveness of glucocorticoid responsiveness and albumin production of different hepatoma cell lines were investigated using somatic cell hybrids. The majority of the intraspecific, intraorgan hybrids between glucocorticoid sensitive, tyrosine aminotransferase (TAT) non-inducible, albumin non-secreting parents and glucocorticoid resistant, TAT-inducible, albumin secreting parents were glucocorticoid sensitive, TAT non-inducible and albumin non-producing. The TAT inducibility was extinguished in interspecific, interorgan hybrids of TAT-inducible hepatoma and non-inducible Chinese hamster fibroblast parents. No TAT reexpression was observed among the many independent hybrid clones. The experiments provided evidence for the non-coordinate control of the expression of differentiated functions in hepatoma hybrid cells.     

Co-expression of differentiation markers in hybrids between friend cells and lymphoid cells and the influence of the cell shape

We have studied the regulation of differentiation within the hemopoietic system by fusing mouse Friend cells (which can be induced to undergo red blood cell differentiation) to various mouse lymphomas and myelomas which express characteristic T and B lymphocyte surface antigens. Our results show that both erythroid and lymphoid differentiation markers can be co-expressed within the same cell. To determine whether this result applies to other differentiation states, we fused suspension Friend cells to three adherent fibroblast cell lines, and isolated both adherent and suspension hybrids. In fact, suspension hybrid clones were inducible for hemoglobin, whereas adherent clones were not. No obvious differences in overall chromosome balance were evident between the adherent and suspension hybrids. A similar correlation between suspension morphology and inducibility of hemoglobin was found in hybrids between suspension Friend cells and an adherent lymphoma line. These results show that different developmental programs can be coexpressed within the same hybrid cell; but the strongly adherent type of morphology is inconsistent with expression of the red blood cell phenotype, both in hybrid cells derived entirely from hemopoietic parental cells and in cells from widely different lineages.     

Studies on 1-beta-D-arabinofuranosyl-cytosine (Ara-C) resistant mutants of Chinese hamster fibroblasts. II. High resistance to Ara-C as a genetic marker for cellular hybridization

From a variety of independent Chinese hamster cell lines, stable variants resistant to 5 μg/ml of Ara-C were isolated via a single step selection; in contrast to variants selected at lower drug concentrations, the resistant clones appear to be uniformly deficient in Ara-C phosphorylation, an activity previously shown [14] to be carried out in hamster cells by a cytoplasmic dC-kinase (dC-kinase 2). These dC-kinase deficient (dCK^?) variants can be selected against because they are unable to divide in a medium containing dT (0.8 mM) and dC (0.01 mM), which supports the growth of wild type dCK⁺ cells. Plating of dCK^? cells in medium supplemented with both nucleosides yields only rare clones of pseudorevertants which escape the thymidine block through a secondary unknown defect; the growth of these clones can be prevented by further addition of dA to the selective medium. As expected from the complementation pattern for the deficient enzyme activities, hybrids between a dCK^? hamster line and TK^? lines of either mouse or hamster could be isolated in a modified HAT medium (HAT₅₀dC) containing dC and an increased dT concentration. In principle, the same selection can be used to isolate interspecific and intraspecific hybrids between Ara-C resistant variants obtained from a variety of mammalian species and azaguanine resistant lines deficient in HGPRT. The potential interest of this sytem for genetic mapping is discussed.     

Expression of differentiated functions in dexamethasone-resistant hepatoma cells

Abstract. The expression of liver-specific functions of different dexamethasone-resistant variants derived from a well-differentiated dexamethasone-sensitive Reuber H35 rat hepatoma cell line (Faza 967) was examined during long-term cultivation. The dexamethasone-sensitive Faza 967 cells are characterized by the activity of tyrosine aminotransferase (TAT) and gluconeogenic enzymes, secretion of serum albumin, and the presence of liver isozymes of alcohol dehydrogenase (L-ADH), aldolase (aldolase-B), and five isoenzymes of lactate dehydrogenase (LDH). The hormone-resistant cells undergo a very dramatic change in expression of most liver-specific functions (dedifferentiation) during long-term culture, in contrast to the sensitive cells in which only certain functions (TAT activity, inducibility, and synthesis of serum albumin) exhibit considerable changes. The hormone-dependent growth sensitivity and the expression of other differentiated functions is not controlled in coordinated way in Faza 967 cells. The time course of the expression of liver-specific functions shows that the cells are resistant before they became 'dedifferentiated', i.e., loss of these liver-specific functions is not a prerequisite of the establishment of the hormone-resistant state.     

Combined Fourier transform infrared and Raman spectroscopic approach for identification of multidrug resistance phenotype in cancer cell lines

Cancer cells escape cytotoxic effects of anticancer drugs by a process known as multidrug resistance (MDR). Identification of cell status by less time-consuming methods can be extremely useful in patient management and treatment. This study aims at evaluating the potentials of vibrational spectroscopic methods to perform cell typing and to differentiate between sensitive and resistant human cancer cell lines, in particular those that exhibit the MDR phenotype. Micro-Raman and Fourier transform infrared (FTIR) spectra have been acquired from the sensitive promyelocytic HL60 leukemia cell line and two of its subclones resistant to doxorubicin (HL60/DOX) and daunorubicin (HL60/DNR), and from the sensitive MCF7 breast cancer cell line and its MDR counterpart resistant to verapamil (MCF7/VP). Principal components analysis (PCA) was employed for spectral comparison and classification. Our data show that cell typing was feasible with both methods, giving two distinct clusters for HL60- and MCF7-sensitive cells. In addition, phenotyping of HL60 cells, i.e., discriminating between the sensitive and MDR phenotypes, was attempted by both methods. FTIR could not only delineate between the sensitive and resistant HL60 cells, but also gave two distinct clusters for the resistant cells, which required a two-step procedure with Raman spectra. In the case of MCF7 cell lines, both the sensitive and resistant phenotypes could be differentiated very efficiently by PCA analysis of their FTIR and Raman point spectra. These results indicate the prospective applicability of FTIR and micro-Raman approaches in the differentiation of cell types as well as characterization of the cell status, such as the MDR phenotype exhibited in resistant leukemia cell lines like HL60 and MCF7.     

Studies on 1-β- -arabinofuranosyl-cytosine (Ara-C) resistant mutants of Chinese hamster fibroblasts : II. High resistance to Ara-C as a genetic marker for cellular hybridization

From a variety of independent Chinese hamster cell lines, stable variants resistant to 5 μg/ml of Ara-C were isolated via a single step selection; in contrast to variants selected at lower drug concentrations, the resistant clones appear to be uniformly deficient in Ara-C phosphorylation, an activity previously shown [14] to be carried out in hamster cells by a cytoplasmic dC-kinase (dC-kinase 2). These dC-kinase deficient (dCK⁻) variants can be selected against because they are unable to divide in a medium containing dT (0.8 mM) and dC (0.01 mM), which supports the growth of wild type dCK⁺ cells. Plating of dCK⁻ cells in medium supplemented with both nucleosides yields only rare clones of pseudorevertants which escape the thymidine block through a secondary unknown defect; the growth of these clones can be prevented by further addition of dA to the selective medium. As expected from the complementation pattern for the deficient enzyme activities, hybrids between a dCK⁻ hamster line and TK⁻ lines of either mouse or hamster could be isolated in a modified HAT medium (HAT₅₀dC) containing dC and an increased dT concentration. In principle, the same selection can be used to isolate interspecific and intraspecific hybrids between Ara-C resistant variants obtained from a variety of mammalian species and azaguanine resistant lines deficient in HGPRT. The potential interest of this sytem for genetic mapping is discussed.     

Expression of differentiated functions in dexamethasone-resistant hepatoma cells

The expression of liver-specific functions of different dexamethasone-resistant variants derived from a well-differentiated dexamethasone-sensitive Reuber H35 rat hepatoma cell line (Faza 967) was examined during long-term cultivation. The dexamethasone-sensitive Faza 967 cells are characterized by the activity of tyrosine aminotransferase (TAT) and gluconeogenic enzymes, secretion of serum albumin, and the presence of liver isozymes of alcohol dehydrogenase (L-ADH), aldolase (aldolase-B), and five isoenzymes of lactate dehydrogenase (LDH). The hormone-resistant cells undergo a very dramatic change in expression of most liver-specific functions (dedifferentiation) during long-term culture, in contrast to the sensitive cells in which only certain functions (TAT activity, inducibility, and synthesis of serum albumin) exhibit considerable changes. The hormone-dependent growth sensitivity and the expression of other differentiated functions is not controlled in coordinated way in Faza 967 cells. The time course of the expression of liver-specific functions shows that the cells are resistant before they became 'dedifferentiated', i.e., loss of these liver-specific functions is not a prerequisite of the establishment of the hormone-resistant state.     

Genetic control of tumorigenicity in interspecific mammalian cell hybrids.

The nature of genetic control of cellular malignancy was investigated by examining the tumorigenicity of a series of interspecific mouse-human cell hybrids in the athymic nude mouse. Two highly malignant but genetically distinct mouse cell lines, A9 and PG19, were hybridized with three normal human diploid fibroblast strains, and 19 independently arising hybrid clones were isolated. Each of these clones was capable of forming progressive lethal tumors in the nude mouse, and thus resembled the malignant parental mouse cells rather than the nonmalignant parental human cells. We failed to obtain any evidence for complete suppression of tumorigenicity in these cell hybrids. The absence of suppression was observed regardless of the extent and composition of the human chromosome complements retained in the hybrid clones; the results of detailed cytological and isoenzyme analyses would make it highly improbable that the observed lack of suppression was due to cellular selection in vivo for a more tumorigenic subpopulation in the injected hybrid cells. These data demonstrate that at least for the parental cell combinations used in this study, no human chromosome, when present singly in the mouse-human cell hybrids, can suppress the tumorigenic phenotype of the mouse cells. Our results are consistent with the view that the suppression of cellular malignancy previously demonstrated in intraspecific (mouse × mouse) somatic cell hybrids does not occur in interspecific (mouse-human) cell hybrids, or alternatively, genetic determinants located on two or more human chromosomes are required simultaneously to suppress the malignancy of the mouse cells in cell hybrids derived from malignant mouse cell and nonmalignant human cells.     

Expression of nervous system antigen-3 by lines of mouse fibroblasts and kidney cells and continued expression in hybrid cells

In a survey of the expression on cultured mouse cells of the cell surface antigen known as nervous system antigen-3 (NS-3), it was found that RAG, a renal adenocarcinoma line, expressed that antigen. It was also observed that 3T3, a fibroblast line of unknown tissue origin, expressed NS-3. Cells of these two lines were hybridized with cells of two mouse L cell lines that did not express NS-3. Four hybrid clones were tested for both the 3T3 × L cell cross and the RAG × L cell cross, and all the hybrids were found to be NS-3 positive. All the hybrids had at least 40% as much activity as the NS-3 positive parent. Of the four parental mouse cell lines used, only 3T3 expressed Thy-1.2 antigen on the cell surface. In contrast to the continued expression of NS-3 on hybrid cells, Thy-1.2 antigen was not detectable on two clones of 3T3 × L cell hybrids that were tested.     

Chromosomal assignment and trans regulation of the tyrosine aminotransferase structural gene in hepatoma hybrid cells.

The structural gene encoding liver-specific tyrosine aminotransferase (TAT; EC 2.6.1.5) was assigned to mouse chromosome 8 by screening a series of hybrid cell lines for retention of murine Tat-1 gene sequences by genomic Southern blotting. This assignment demonstrated that the Tat-1 structural gene was not syntenic with Tse-1, a chromosome 11-linked locus that negatively regulates TAT expression in trans (A. M. Killary and R. E. K. Fournier, Cell 38:523-534, 1984). We also showed that the fibroblast Tat-1 gene was systematically activated in hepatoma X fibroblast hybrids retaining fibroblast chromosomes 8 in the absence of chromosome 11 but was extinguished in cells retaining both fibroblast chromosomes. Thus, the TAT structural genes of both parental cell types were coordinately regulated in the intertypic hybrids, and the TAT phenotype of the cells was determined by the presence or absence of fibroblast Tse-1.     

Expression of the SV40-transformed phenotype in hybrids between conditional and wild-type transformants

The nature of two different SV40-transformed cell lines which are temperature sensitive (ts) for the expression of the transformed phenotype has been analysed by somatic cell hybridization. Ts 23A cells are temperature sensitive in their ability to grow in medium containing low serum; in hybrids between these cells and a standard SV40-transformed BALB/c 3T3 cell line, the mutation seems to be dominant, at least for some parameters. One hundred percent of the hybrid clones have a very low efficiency of plating in medium containing 1% serum, but only 50% of them show growth inhibition in mass culture under the same conditions. Ts H615 cells revert to a normal phenotype at 39 °C for most parameters of transformation. The mutation appears to be recessive, as the hybrids generally behave like transformed cells at 39 °C. However, the expression of this mutation is not completely suppressed, since DNA synthesis after confluence shows some degree of inhibition in the hybrids at 39 °C. A considerable variation in the behavior of individual hybrid clones and in the degree of inhibition of some parameters has been observed and is discussed in terms of possible mechanism(s) of transformation.     

Effects of the CK2 Inhibitors CX-4945 and CX-5011 on Drug-Resistant Cells

CK2 is a pleiotropic protein kinase, which regulates many survival pathways and plays a global anti-apoptotic function. It is highly expressed in tumor cells, and is presently considered a promising therapeutic target. Among the many inhibitors available for this kinase, the recently developed CX-4945 and CX-5011 have proved to be very potent, selective and effective in inducing cell death in tumor cells; CX-4945 has recently entered clinical trials. However, no data are available on the efficacy of these compounds to overcome drug resistance, a major reasons of cancer therapy failure. Here we address this point, by studying their effects in several tumor cell lines, each available as variant R resistant to drug-induced apoptosis, and normal-sensitive variant S. We found that the inhibition of endogenous CK2 was very similar in S and R treated cells, with more than 50% CK2 activity reduction at sub-micromolar concentrations of CX-4945 and CX-5011. A consequent apoptotic response was induced both in S and R variants of each pairs. Moreover, the combined treatment of CX-4945 plus vinblastine was able to sensitize to vinblastine R cells that are otherwise almost insensitive to this conventional antitumor drug. Consistently, doxorubicin accumulation in multidrug resistant (MDR) cells was greatly increased by CX-4945.In summary, we demonstrated that all the R variants are sensitive to CX-4945 and CX-5011; since some of the treated R lines express the extrusion pump Pgp, often responsible of the MDR phenotype, we can also conclude that the two inhibitors can successfully overcome the MDR phenomenon.     

Transfer of the human X chromosome to human--Chinese hamster cell hybrids via isolated HeLa metaphase chromosomes.

Evidence is presented for the uptake of the human X chromosome by human-Chinese hamster cell hybrids which lack H P R T activity, following incubation with isolated human HeLa S3 chromosomes. Sixteen independent clonal cell lines were isolated in H A T medium, all of which contained a human X chromosome as determined by trypsin-Giemsa staining. The frequency of H A T-resistant clones was 32 x 10(-6) when 10(7) cells were incubated with 10(8) HeLa chromosomes. Potential reversion of the hybrid cells in H A T medium was less than 5 x 10(-7). The 16 isolated cell lines all contained activity of the human X-linked marker enzymes H P R T, P G K,alpha-Gal A, and G6PD, as determined by electrophoresis. The phenotype of G6PD was G6PD A, corresponding to G6PD A in HeLa cells. The human parental cells used in the fusion to form the hybrids had the G6PD B phenotype. The recipient cells gave no evidence of containing human X chromosomes. These results indicate that incorporation and expression of HeLa X chromosomes is accomplished in human-Chinese hamster hybrids which lack a human X chromosome.     

Genetic characterization of human KB cell lines resistant to epidermal growth factor: Pseudomonas exotoxin conjugates

Pleiotropic human KB cell mutants, selected for resistance to a conjugate of epidermal growth factor with Pseudomonas exotoxin (PE-EGF), were characterized genetically. These mutants have a pleiotropic phenotype, which includes reduced number of EGF receptors and reduced growth rate. Hybrid cells between HeLa D98 and four out of five of these resistant cell lines were more resistant to PE-EGF than hybrids formed between HeLa D98 and parental KB cells. This result indicates that the phenotype of PE-EGF resistance is incompletely dominant in four out of five cases and recessive in one out of five variants. In three separate experiments, transfection of DNA from two of the dominant resistant cell lines resulted in transformation of wild-type KB cells to PE-EGF resistance, confirming the dominant nature of these mutations, which affect levels of EGF receptor in KB cells.     

Functional recognition of bacterial mitogens by B lymphoma cells: reactivity of WEHI 279.1 to lipopolysaccharide and selection of nonreactive variants

To analyze functional mitogen recognition by reactive B lymphocytes, we studied the effects of bacterial lipopolysaccharide (LPS) on the growth of the WEHI 279.1 B lymphoma line (W279). We found that LPS inhibits, in a dose-dependent manner, the growth of W279 cells in culture and that it reduces the frequency of cells growing as clones under limiting dilution conditions. Furthermore, we show that differential reactivity of "wild-type" cells to increasing LPS concentrations reflects the heterogeneity in the lymphoma cell population and the frequencies of "resistant" variants to each mitogenic concentration. This allowed us to derive variant tumor cell lines and clones, no longer LPS sensitive, either from mass cultures or, in a single-step selection, under limiting dilution conditions in the presence of low and high concentrations of LPS. Although mitogen reactivity is progressively lost upon prolonged culture, resistance to LPS was found to be a stable trait in selected variants, suggesting that it results from loss of functional mitogen recognition by the reactive cells. The specificity of mitogen reactivity or resistance was shown by the fact that some of the variant clones are still reactive to T helper cell-derived factors and others are not. Thus reactivity to LPS and to T cell factors can be separated, suggesting that the cell lines described here provide new tools for the biochemical analysis of B cell activation.     

Digital morphonuclear analyses of sensitive versus resistant neoplastic cells to vinca-alkaloid, alkylating, and intercalating drugs

We tested 12 resistant cell lines in vitro in order to evaluate common morphonuclear characteristics induced by various cytotoxic drugs on cell lines of different origins. We used the MXT mouse mammary cancer and the neoplastic J82 and T24 human bladder cell lines, whose variants are either sensitive or resistant to a vinca alkaloid derivative (Navelbine, NVB), to an investigational alkylating agent (PE1001), and to Adriamycin (ADR). We tested cell population variants resistant to NVB + PE1001 + ADR. The level of chemoresistance was evaluated by a colorimetric assay assessing the 50% concentration-induced inhibition of cellular growth (IC50) brought about by each drug on the growth of each cell variant under study. We show that resistant neoplastic cell nuclei present common morphonuclear characteristics, independent of cell origin (neoplastic mouse mammary versus human bladder cells) and the drug used (vinca alkaloid, alkylating, and intercalating derivatives). Our results further indicate that the phenotype of resistant versus sensitive cells corresponds to cell nuclei populations with smaller nuclei and less nuclear DNA content and, as a consequence, a chromatin texture showing large pale areas with some hyperchromatic clumps.     

Azaguanine resistant hamster cell lines not deficient in hypoxanthine-guanine phosphoribosyl transferase

Using a serial selection technique in which Chinese hamster cells were treated first with 8-azaguanine and then subsequently with HAT medium it was found that approximately 15% of azaguanine resistant clones were also resistant to HAT. Several such clones were subcultured and found to be stably resistant to azaguanine, in some cases at a higher level than the usual azaguanine resistant mutants which are HAT sensitive. Measurements of hypoxanthine-guanine phosphoribosyl transferase levels were in some cases lower than the parental line but in three of the clonal lines were higher than the parental strain. The fact that azaguanine resistant lines constitute a biochemically heterogeneous population underscores the importance of careful characterization of mammalian cell culture variants.     

Codominance of cisplatin resistance in somatic cell hybrids

Intrinsic or acquired resistance to cisplatin in cancer cells remains a major obstacle to successful chemotherapy. The clinically relevant genetic and molecular mechanisms of resistance have not yet been identified. Cisplatin-resistant (CP-r) human KB epidermoid carcinoma cell lines (HeLa) resistant to varying levels of cisplatin after single and multiple selection steps are cross-resistant to other platinum compounds and to methotrexate. Intraspecies hybrids of the sensitive and KB CP-r cells were fused with HeLa D98(OR) CP-s, hypoxanthine-aminopterin-thymidine (HAT) sensitive, ouabain resistant, to determine whether cisplatin resistance is dominant or recessive. Cell-cell hybridization between the sensitive cells and single-step or two-step KB CP-r cells both indicated codominance of cisplatin resistance compared to hybrids between sensitive cell lines (D98(OR)xKB). The hybrids between sensitive cell lines (D98xKB) and a single-step CP-r KB cell line (D98xKB-CP.5) also were cross-resistant to carboplatin and methotrexate. In addition, the relatively slower growth rate of CP-r cells appears to be dominant. In the two-step CP-r KB cell line, KB-CP1, resistance is no more dominant than in the single-step CP-r KB cell line, KB-CP.5, suggesting that one of the two steps of resistance in KB-CP1 may not be dominant. These dominance data suggest that it might be possible to identify one or more genes responsible for cisplatin resistance by gene transfer from a resistant cell line to a sensitive cell line.     

Expression of the neuron-specific protein, 14-3-2, and steroid sulfatase in neuroblastoma cell hybrids

Three series of neuroblastoma X fibroblast hybrid clones were isolated from crosses between mouse or human fibroblasts and mouse or human neuroblastoma cell lines by virus-mediated cell fusion. The expression of 14-3-2 protein (an acidic protein specific to neurons) and steroid sulfatase activity was studied in parental and hybrid cell lines. Steroid sulfatase was extinguished in hybrids when only one parent expressed the enzyme, but was expressed in one hybrid combination in which both parents expressed the enzyme. The neuron-specific 14-3-2 protein, on the other hand, continued to be expressed in all three series of neuroblastoma x fibroblast hybrids. In most cases where these pheno-types were expressed, they also exhibited temporal modulation; that is, specific activity is low during logarithmic growth and increases markedly during stationary phase. The glial-specific protein S-100 is absent from all parents and hybrids. The results are discussed in terms of mechanisms of regulation of differentiated phenotypes in mammalian cells.