Intermediate filament expression and lifespan potential in human somatic cell hybrids

Summary Limited lifespan human diploid fibroblast cells have been fused with the HeLa derived cell line HEB 7A which possesses transformed growth characteristics and unlimited division potential. HEB 7A expresses keratin intermediate filaments, while the fibroblast cells express only vimentin intermediate filaments. Independently arising clones of hybrids were examined for the presence of keratin by indirect immunofluorescence. Of 11 limited lifespan hybrids, all were keratin negative and possessed the growth characteristics of the fibroblast parent. Of 8 transformed hybrids, 6 arising early after fusion and 2 arising late, all were keratin-positive and simultaneously expressed the transformed growth characteristics of loss of density dependent growth inhibition, low serum dependence, and anchorage independence. It is concluded that the growth properties of these hybrids are associated with the type of intermediate filament expressed. The intermediate filament expression is therefore a marker of proliferative potential in these hybrids. This work was supported by grant no. AG 02664 from NIA (to C.L.B.) and by grant nos. 1R01 HD 18129-01 from NIH and PCM83-09068 from NSF (to R.H.S.). Editor’s Statement The tight correlation between the expression of the intermediate filaments of the immortal parent in hybrids of limited lifespan fibroblasts and HeLa cells with the transformed phenotype is of interest. It may offer important clues to the mechanism involved in cellular senescence. Gordon H. Sato     

Clones of Chinese hamster cells cultivated in vitro not permanently resistant to azaguanine

The frequency of clones not permanently resistant to azaguanine (AG) was measured in Chinese hamster ovary cells (CHO) grown in vitro by plating them in 7.5 μg/ml AG and isolating a number of clones in the course of 5 experiments. Such isolated clones were propagated to a point at which their resistance to both AG and the reverse selective medium, HAT, could be determined. Out of a total of 13 clones isolated, 4 of these could not be distinguished from the parent CHO line, either on the basis of their growth in a gradient of AG concentrations or the reverse selective HAT medium or on the basis of their mutation frequency to resistance to 30 μg/ml AG. All four of the apparent phenocopies were isolated from plates in which although lower numbers of cells were seeded, a higher frequency of clones able to grow in AG was yielded. This suggests that the higher “mutation” frequencies obtained at lower cell densities are due to the appearance of phenocopies which occur only under these conditions. It is concluded that under low plating density conditions, the lower levels of AG (7.5 μg/ml) are not satisfactory for mutagenesis and mutation rate studies.     

A quantitative study of growth variability of tumour cell clones in vitro

Abstract.   Objectives : In this study, we quantify growth variability of tumour cell clones from a human leukaemia cell line. Materials and methods : We have used microplate spectrophotometry to measure growth kinetics of hundreds of individual cell clones from the Molt3 cell line. Growth rate of each clonal population has been estimated by fitting experimental data with the logistic equation. Results : Growth rates were observed to vary between different clones. Up to six clones with growth rates above or below mean growth rate of the parent population were further cloned and growth rates of their offspring were measured. Distribution of growth rates of the subclones did not significantly differ from that of the parent population, thus suggesting that growth variability has an epigenetic origin. To explain observed distributions of clonal growth rates, we have developed a probabilistic model, assuming that fluctuation in the number of mitochondria through successive cell cycles is the leading cause of growth variability. For fitting purposes, we have estimated experimentally by flow cytometry the average maximum number of mitochondria in Molt3 cells. The model fits nicely observed distributions in growth rates; however, cells in which mitochondria were rendered non-functional (ρ⁰ cells) showed only 30% reduction in clonal growth variability with respect to normal cells. Conclusions : A tumour cell population is a dynamic ensemble of clones with highly variable growth rates. At least part of this variability is due to fluctuations in the initial number of mitochondria in daughter cells.     

Clonal variation in response to adrenocorticotropin in cultured bovine adrenocortical cells: relationship to senescence

During cellular senescence, non-clonal cultures of bovine adrenocortical cells show a continuous decline in the rate of production of cyclic AMP (cAMP) stimulated by adrenocorticotropin (ACTH), without changes in the rate of forskolin- or prostaglandin E1-stimulated cAMP production. We investigated the possible mechanisms for loss of response to ACTH by examining the properties of clones of bovine adrenocortical cells. ACTH-stimulated cAMP production rates were measured in clones immediately after isolation, during long-term growth following isolation, and after subcloning. ACTH-stimulated rates were compared with cAMP production in response to forskolin, which acts directly on the catalytic subunit of adenylate cyclase. The results show that cloning is not necessarily associated with a loss of response to ACTH, but that clones with high ACTH response can give rise to subclones with low response. Clones of adrenocortical cells, at the same approximate population doubling level (PDL), showed ACTH response levels that ranged from 12 to 135 pmol cAMP/10(6) cells/min, whereas mass cultures at this PDL showed approximately 50 pmol/10(6) cells/min. Forskolin-stimulated cAMP production rates in clones varied only over the range of 59-119 pmol/10(6) cells/min and showed no correlation with the ACTH-stimulated rates. All clones were adrenocortical cells, as shown by mitogenic response to angiotensin II and cAMP-inducible 17 alpha-hydroxylase activity. The replicative potential of clones varied widely, and there was no apparent correlation between ACTH response levels and growth potential. The level of ACTH response in each clone was stable during proliferation through at least 25 PD beyond the stage at which the clone was isolated. When clones were subcloned, a clone with a high ACTH response level produced sister subclones that had ACTH response levels ranging from 3% of that of the parent clone to a level slightly greater than that of the parent clone. The growth potential of sister subclones varied widely, as for the parent clones, and there was no obvious correlation between growth potential and ACTH response. Two subclones were cloned; in sub-subclones, levels of ACTH response were again different from each other and also from the parent subclone; in one case, the level of ACTH response was approximately eight-fold higher than that of the parent subclone. These experiments show that clonal variation in the extent of expression of a differentiated property may occur in a normal differentiated cell in culture. The loss of ACTH response and the loss of proliferative potential appear to be independent stochastic events.     

Clonal variation for tolerance to polyethylene glycol-induced water stress in cultured tomato cells

Cell clones were isolated from a population of cultured tomato (Lycopersicon esculentum Mill cv VFNT-cherry) cells and their tolerance to polyethylene glycol (PEG)-induced water stress was measured. Considerable variation for tolerance among the clones was found. Tolerance differences between clones appeared to be spontaneous and were different from tolerance differences between adapted and unadapted cells. Unlike adapted (selected by exposure to PEG) cells, cell clones retained their relative tolerance for many generations in the absence of selection pressure, and tolerance of both relatively tolerant and intolerant clones was very dependent on growth cycle stage and inoculum density. Analysis of subclones isolated from relatively tolerant and intolerant parent clones revealed that each parent clone gives rise to progeny with tolerances near the mean tolerance of both parents. However, progeny populations of both tolerant and intolerant parents are enriched with individuals with phenotypes nearer the mean response of their respective parent populations. When exposed to PEG, relatively tolerant and intolerant clones alike become adapted to the level of PEG to which they are exposed, and have the same phenotypic level of tolerance. Thus, selection by exposure to stress is unable to discriminate (on the basis of growth) between the innately tolerant and intolerant cell types within the population. This is indicated also by the fact that clones isolated from a population of cells adjusted to growth on 25% PEG do not show an enriched frequency of tolerant phenotypes when grown in the absence of PEG compared to the nonselected normal cell population which has never been adjusted to growth on PEG.     

Biosystematic studies of theClosterium peracerosum-strigosum-littorale complex

Numerous homothallic clones of theClosterium peracerosum-strigosum-littorale complex from various localities were obtained in axenic cultures. From comparisons of morphological characters of their vegetative cells cultured under the defined standard conditions, we have concluded that frequently observed morphological variation among local populations of the complex results not merely from phenotypical modification caused by local ecological factors. On the basis of the presence or absence of a wall thickening at cell apices, the clones could be separated into 2 groups of different genetic constitution. The group without a wall thickening could be separated further into 2 subgroups on the basis of statistical analyses of cell size variation. Clone GA-2-2 was exceptionally variable in cell size and produced remarkably deviated forms such as so-called “dwarf” or “giant” cells. Re-cloning of single cells of such deviated forms gave rise to several subclones whose mean values of cell size were distinct from that of GA-2-2, but whose qualitative characters such as the sexual morphology and the presence of a wall thickening were indistinguishable. It was observed that in clones GA-2-15 and S-10-20 which lacked a wall thickening some subclones had mean values of cell sizes distinct from that of the original clones. It was observed that in these subclones cell size changes were accompanied by nuclear size changes. The problem of cell size variation has been discussed with special regards to polyploidy and speciation in the inbreeding populations of the complex.     

Effect of mitochondrial DNA composition on the cellular properties of interspecific hybrid cells

Four subclones with single species of mitochondria and three subclones with both parental mitochondria were isolated from a mouse-rat hybrid cell line H2. The effects of the coexistence of different species of mitochondria on cellular properties were examined in these clones. Growth properties were studied by comparing the plating efficiencies and doubling times. The numbers of growing colonies and the doubling times of all the subclones were found to be almost the same, indicating that these growth properties were not affected by the presence of both mouse and rat mitochondria within the cells. The correlation between the expression of chloramphenicol (CAP)-resistance and the relative contents of mtDNA of CAP-resistant (CAP^r) rat and CAP-sensitive (CAP^s) mouse parent cells in the subclones were also examined. The expression of CAP resistance was measured as the relative plating efficiency. Subclones with a high content of mtDNA from CAP^r rat parent cells showed high relative plating efficiency.     

Selection of mouse x hamster hybrids using hat medium and a polyene antibiotic

Summary In the present study we tested the feasibility of utilizing a structurally modified polyene antibiotic, amphotericin B methyl ester (AME), as a half-selection agent for isolating somatic cell hybrids. By using HAT medium supplemented with AME we have isolated interspecific mouse-hamster hybrids from mixed cultures of mouse (TK⁻C1ID or HPRT⁻ A9) and hamster (BHK/C 13) cells fused with Sendai virus, lysolecithin or polyethylene glycol. Hybrid cells proliferated and clones were isolated after 2 to 3 weeks growth in three changes of HAT-AME medium and subsequent growth in HAT medium alone. In contrast, genetically deficient parental C1 1D or A9 cells and AME-sensitive BHK/C 13 cells were killed using a similar growth protocol. The described technique is simple, efficient and permits one to use a cell line without a genetic defect in combination with a genetically deficient cell type in hybrid formation. This investigation was supported in part by Contract NIH 69-2161, NIH Grant No. AI-2095 and NIH Training Grant No. GM 507 from the National Institute of General Medical Sciences.     

Site-specific mutagenesis of the histidine precursor of diphthamide in the human elongation factor-2 gene confers resistance to diphtheria toxin

Protein synthesis elongation factor 2 (EF-2) from eukaryotes contains a conserved post-translationally modified histidine residue known as diphthamide. Diphthamide is a unique site of ADP-ribosylation by diphtheria toxin (DT), which is responsible for cell killing. In this report, we describe the construction of DT-resistant HeLa cell lines by engineering the toxin-resistant form of its specific substrate, protein elongation factor-2. Using site-specific mutagenesis of the histidine precursor of diphthamide, the histidine residue of codon 715 in human EF-2 cDNA was substituted with one of four amino acid residue codons: leucine, methionine, asparagine or glutamine. Mutant EF-2s were subcloned into a pCMVexSVneo expression vector, transfected into HeLa cells, and DT-resistant cell clones were isolated. The protective effect of mutant EF-2s against cell killing by DT, after exposing all four mutant strains derived from HeLa cells to different concentrations of the toxin (5-20 ng/mL) was demonstrated by: (1) the normal morphological appearance of the cells; (2) their unaffected or slightly slower growth rates; (3) their undisturbed electrophoretic DNA profiles whose integrity was virtually preserved. Mutant cell strains showed also considerable levels of resistance to very high concentrations of DT, in that they maintained slower but consistent rates of cell growth. It was hence concluded that despite its strict conservation and unique modification, the diphthamide histidine appears not to be essential to the function of human EF-2 in protein synthesis. In addition, DT-resistant HeLa cell clones should prove valuable hosts for various DT gene-containing vectors that express the toxin intracellularly.     

MA 160 and EB 33 cell lines: HeLa cell contaminants,hybrids or prostatic epithelial cells?

Summary Studies of acid phosphates produced by cell lines MA 160 and EB 33 demonstrated immunochemically their prostatic origin. MA 160 and EB 33, rather than being HeLa contaminants, may be hybrids of prostatic epithelial and HeLa cells or true prostatic cell lines with chromosomal changes common to all long-term cultivated cell lines. This research was supported by NIH (Cancer) Research Grants Nos. 18748 and 16426; and Detroit General Hospital Research Corporation.     

Transformation-defective mutants of feline sarcoma virus which express a product of the viral src gene.

Mink cell cultures infected with the Snyder-Theilen strain of feline sarcoma-leukemia virus were cloned from single cells under conditions favoring single virus-single cell interactions. The primary colonies included (i) typical feline sarcoma virus (FeSV)-transformed nonproducer clones, one of which segregated revertants, and (ii) FeSV-infected, phenotypically normal clones, three of which spontaneously converted to the transformed phenotype. The revertants and spontaneous transformants were compared with parental and sister clones expressing the opposite phenotype. Transformed subclones formed colonies in agar, were tumorigenic in nude mice, and failed to bind epidermal growth factor, whereas flat sister subclones were indistinguishable from uninfected mink cells in each of these assays. Sister subclones derived from the same infectious event contained FeSV proviruses integrated at the same molecular site, regardless of which phenotype was expressed. One revertant clone, however, lacked most FeSV proviral DNA sequences but retained terminal portions of the FeSV genome which persisted at the original site of proviral DNA insertion. Two flat subclones expressed viral RNA and the phosphorylated "gag-x" polyprotein (pp78gag-x) encoded by the gag and src sequences of the FeSV genome. Both of these clones were susceptible to retransformation by FeSV. Although unable to induce foci, the viruses rescued from these cells contained as much FeSV RNA as the focus-forming viruses rescued from transformed sister subclones and could be retransmitted to mink cells, again inducing FeSV gene products without signs of morphological transformation. We conclude that these FeSV genomes represent transformation-defective mutants.     

Assignment of the gene governing cellular ouabain resistance to Mus musculus chromosome 3 using human/mouse microcell hybrids

Human/mouse microcell hybrids were used to establish the assignment of the gene governing resistance to the cardiac glycoside ouabain (Oua-1) to Mus musculus chromosome 3. Microcells were prepared from primary mouse embryo fibroblasts and fused with HeLa S3 cells, and microcell hybrids were isolated and maintained in medium containing 10^–6 m ouabain. Resistance to ouabain was not expressed concordantly with any of 26 murine isozyme markers. Karyotypic analysis of five primary clones showed that one to five murine chromosomes had been transferred from donor to recipient in these experiments. Only mouse chromosome 3 was common to all ouabain-resistant primary clones. Both ouabain-resistant and -sensitive subclones were isolated from hybrids grown in the absence of selective pressure, and karyotyping showed that loss of resistance to ouabain was concordant with the loss of murine chromosome 3.These studies were supported by Grant GM9966 from the National Institutes of Health.     

Generation of mutant murine cytomegalovirus strains from overlapping cosmid and plasmid clones

We have developed a cosmid and plasmid system to generate mutant strains of murine cytomegalovirus (MCMV). The system is based on a series of seven overlapping cosmid clones that regenerate MCMV when cotransfected into mouse cells. The unaltered cosmids produce MCMV that is indistinguishable from wild-type MCMV based on restriction enzyme digest patterns of virus DNA and growth rates both in vitro and in vivo. Analysis of viral DNA from plaque-purified recombinant isolates taken from in vitro and in vivo stocks indicated that regeneration did not introduce novel mutations in the recombinant viral genomes. Isolation of specific genes and subsequent generation of specific mutant MCMVs was accomplished by replacement of cosmids with overlapping plasmid subclones. A new vector, PmeSUB, featuring a multiple cloning site and a stringent origin of replication, was constructed to make large subclones for use with smaller subclones containing the gene of interest. The utility of this system was demonstrated by the generation of two different mutant MCMVs from different combinations of overlapping plasmid subclones of one cosmid. The advantages of this system are that (i) target genes are maintained as small clones making them amenable to standard in vitro mutagenesis manipulations and that (ii) no reporter or selection genes are necessary to identify mutants.     

Optimization of sorting conditions for the selection of stable, high-producing mammalian cell lines.

The production of Green Fluorescent Protein in recombinant NIH3T3 mouse fibroblast cells was used as a model to determine the optimal conditions for the rapid isolation of high-producing cell lines with a fluorescence-activated cell sorter. "Bulk sorting", that is, sorting of a large number of positive cells, did not result in a stable, high-producing cell line due to overgrowth of high-producing cells by low- or nonproducing cells. The production kinetics and expression of GFP during batch culture was found to differ between NIH3T3 cells and HepG2 hepatoma cells, even though the same plasmid was used for transfection. The kinetics of product formation need therefore to be determined from case to case to select the optimal timepoint for analysis and sorting. Subcloning of sorted cells into microtiter plates only resulted in high-producing subclones when 1 or 2 cells were seeded per well. Higher seeding rates again resulted in overgrowth of low- or nonproducers. By subcloning, two high-producing cells lines could be isolated. They had a 10- and 15-fold higher fluorescent signal compared to the negative control. While one of these subclones started to decrease it's GFP expression after 2 months, the other clone stably expressed GFP for 4 months.     

Dissociation of interferon effects on murine leukemia virus and encephalomyocarditis virus replication in mouse cells.

Two subclones of Swiss mouse cells infected with Moloney murine leukemia virus (M-MuLV) were tested for their response to interferon (IFN). Whereas M-MuLV production in the two subclones was inhibited to the same extent, one of the subclones was significantly more sensitive to IFN when the antiviral effect was measured by replication of encephalomyocarditis (EMC) virus. The same subclone was also more sensitive to the anticellular activities of IFN. Additionally, NIH 3T3 cells infected with M-MuLV were completely resistant to IFN actions when EMC virus replication or the anticellular activities were tested. However, under the same conditions, M-MuLV production was completely inhibited by IFN. These results indicate that IFN may affect cell growth functions and EMC replication through mechanisms different from those by which MuLV production is inhibited.     

Spontaneous transformation of a cloned cell line of normal diploid bovine vascular endothelial cells

Summary We report here the spontaneous transformation of a normal diploid bovine fetal aortic endothelial cell line. This cell line showed a period of rapid proliferation, followed by a period of declining proliferative activity, as judged by both a decline in the number of population doublings achieved from seeding to subcultivation and a decrease in the fraction of cells incorporating [³H]thymidine. During the decline in proliferation, foci of small cells appeared amid a background of larger senescent-appearing cells. The cultures then regained proliferative activity and have been maintained in our laboratory for more than 22 months. The transformants are characterized by (a) an indefinite life span, (b) a morphology that is more spindle shaped as compared to pretransformants, and (c) heteroploidy with chromosome translocations. This work was supported by the U.S. National Institute of Health (NIH) Grant AG-00378. S. D. G. is a predoctoral trainee supported by U.S. Public Health Service Grant CA-09191-06, E. H. is supported under NIH Grant AG0-2100, and W. W. N. is the S. Emlen Stokes Professor of Genetics at the Institute for Medical Research.     

Genetic analysis of tumorigenesis: IV. Chromosome reduction and marker segregation in progeny clones from Chinese hamster cell hybrids.

Hybrid cells produced by the fusion of pairs of cells, one a tumorigenic derivative of CHEF/16 and the other a nontumorigenic derivative of CHEF/18, give rise to clones which are largely tetraploid, but rare reduced hybrids with chromosome counts in the diploid range have been recovered from tumors of hybrid origin. This paper describes the recovery in cell culture of reduced hybrids in the diploid range by selection with 5-bromodeoxyuridine (BrdU) or methylcellulose as well as by growth in culture of cells from excised tumors. All selected subclones were tumorigenic and resistant to BrdU, but they segregated for resistance to 6-thioguanine. Unselected subclones were tetraploid, nontumorigenic, and sensitive to both drugs. These data show that chromosome reassortment as well as extensive chromosome reduction both occur in a small fraction of the population during growth of each hybrid clone.     

Progression of the phenotype of transformed cells after growth stimulation of cells by a human papillomavirus type 16 gene function.

Alteration of the growth properties of the established murine fibroblast cell lines NIH 3T3 and 3Y1 was studied in monolayer cultures and in cells suspended in semisolid medium after introduction of a cloned human papillomavirus type 16 (HPV16) DNA. HPV 16 DNA stimulated both cell lines to grow beyond their saturation densities in monolayer cultures without any apparent morphological changes or tendency to pile up. These cells were also stimulated to grow in soft agar. Since essentially all the cells that received the viral gene were stimulated to grow, the growth-stimulatory activity of HPV16 appeared to be due to the direct effect of a viral gene function. The NIH 3T3 cells showed an additional change in growth properties upon prolonged incubation of dense monolayers of cells containing the HPV16 DNA; morphologically recognizable dense foci appeared at a frequency of about 10(-3). These cells, when cloned from the foci, grew more rapidly in soft agar than the parental cells and were morphologically transformed. In other words, there were two sequential steps in cell transformation induced by HPV16. Practically all the viral DNAs were present in the cells as large rearranged multimers and were integrated into host chromosomal DNA. There was no obvious difference in the state of viral DNA in the cells of the original clone or the three subclones derived from it as dense foci. There was no difference in the amount or the number of viral RNA species expressed in the cells at these two stages. The secondary changes in the growth properties of NIH 3T3 cells appear to be due to some cellular alterations.     

Adenylate kinase 2, a mitochondrial enzyme

The subcellular compartmentalization of the isozymes of ATP: AMP phosphotransferase (adenylate kinase) was analyzed in HeLa cells, RAG cells, and RAG-human hybrids that express human AK-2. In HeLa cells and in the hybrids, human AK-2 was present in a mitochondrial fraction prepared from cell extracts and in mitochondria purified by density gradient centrifugation. Human AK-1 was, as expected, distributed in the soluble cytoplasmic fraction of the cells. The rodent isozymes which are homologous to human AK-1 and AK-2 have been determined.This work was supported by NIH Grants HD 04807-07 and HD 06285-04.     

Vitronectin secretion by hepatic and non-hepatic human cancer cells

Summary Thirty-eight human cancer cell lines and subclones derived from 12 different organs were screened for vitronectin secretion in their culture media. By immunoblotting analysis we detected high secretion by three out of five hepatoma cell lines tested but no secretion by the others. In addition, significant secretion was observed in seven non-hepatic cancer cell lines and subclones derived from the cervix, lung, and pancreas. These vitronectin-secreting cells included PLC/PRF/5, HuH-6 #5, HuH-7, HeLa S3, HeLa · P3 #2, #3, #6, #8, A549, and MIAPaCa-2. The results were further confirmed by quantitative analysis using sandwich enzyme-linked immunoassay, and activity analysis of cell attachment promotion on Western blotted filters.