Karyological characterization of a human lymphoblastoid cell line resistant to 6-thioguanine

Summary A mutant human lymphoblastoid cell line, Raji-TG, resistant to 10g 6-thioguanine (TG)/ml was produced from wild-type cells after exposure to ethylmethane sulfonate. The Raji-TG cells showed their failure to incorporate ³H-hypoxanthine, only 2% as much hypoxanthine guanine phosphoribosyl transferase (HPRT) activity as wild-type cells, and no revertant in HAT selective medium containing hypoxanthine, aminopterin, and thymidine. Raji-TG cells, which were maintained routinely in regular medium lacking TG for as long as 2 years, still retained resistance to the drug and inability to grow in HAT medium. A fusion of Raji-TG cells and mouse cells resistant to 5-bromodeoxyuridine and lacking thymidine kinase formed hybrids, and the resulting hybrid colonies proliferated in HAT medium. These observations strongly supported the hypothesis that Raji-TG line cells might be originated from a mutational event with deficiency of HPRT. Both parental and the mutant have a modal chromosome number of 49 with a remarkably stable karyotype. Excess chromosome materials are found in chromosomes 1, 5, 7, 14, and 16. Chromosome 8 is completely missing, but is represented by two respective isochromosomes of the short and long arms of No. 8. Five different marker chromosomes could be distinguished, and most of their origin has been determined. Isolation of Raji-TG X mouse hybrid clones which contained one of each marker chromosome is of considerable value in mapping human genes on regions within particular chromosomes.     

Alteration of human breast tumor cell membrane functions by chromosome-mediated gene transfer

BOT-2 cells (human breast tumor origin) have an impaired ability to utilize exogenous thymidine. Previous studies revealed this deficiency to be the permeation event rather than phosphorylation, since the cells have active thymidine kinase. Chromosome-mediated gene transfer was used to transfer genetic information in the form of metaphase chromosomes, from HeLa-65 cells to the BOT-2 cells, correcting the permease deficiency. Poly-L-ornithine or lipochromes were used for facilitation of chromosome uptake. After selection on HAT medium, transferant clones were isolated at a frequency of 4 X 10^?5 and 1 X 10^?5, respectively. Transferants MGP-1 and MGL-1 are stable after 18 months and have been characterized on the bases of purine and pyrimidine nucleoside uptake, relative thymidine kinase activities, alkaline phosphatase activities, and hydrocortisone-induced alkaline phosphatase activity. MGP-1 demonstrates positive thymidine uptake and incorporates radiolabeled thymidine into DNA. MGL-1 remains thymidine transport-deficient and survives on HAT by increasing endogenous dihydrofolate reductase activity. Alkaline phosphatase activity in MGL-1 is similar to HeLa-65, 2% of that in BOT-2, and in addition, is inducible 25-30-fold by 3 μM hydrocortisone. We have separated, genetically, a thymidine permease function from phosphorylation in cells of human origin and have transferred genetic information for the regulation of alkaline phosphatase.     

The influence of serum components on the growth and mutation of Chinese hamster cells in medium containing aminopterin

When seeded in small numbers in medium containing 10^?6M aminopterin and fetal calf serum, V₇₉ Chinese hamster cells required dialyzable components from the serum for growth. However, the cells grew in medium containing 10^?6M aminopterin and dialyzed serum, provided that the medium was supplemented with 10^?5M hypoxanthine and sufficient 5·10^?6M) thymidine. A growth-inhibitory property of some batches of dialyzed serum was abolished on heating the serum for 30 min at 56°. Three lines of V₇₉ cells which lacked detectable hypoxanthine-guanine phosphoribosyl transferase (HGPRT) activity were seleccted in medium containing 8-azaguanine (8-AzG). In two of these, no spontaneous reversion to the HGPRT⁺ phenotype was detectable, and these cells did not cooperate metabolically with HGPRT⁺ cells to prevent the growth of the latter in HAT medium. One of the HGPRT^? lines showed a high rate of spontaneous reversion (118/10⁵ cells) in medium containing undialyzed serum. However, in medium containing dialyzed serum the spontaneous reversion rate fell to $\text{4}\text{10}{}^5\text{cells}$, suggesting that the revertants arising in medium containing undialyzed serum were biochemically heterogeneous.     

Characteristics of spontaneous and induced thymidine and 5-iodo-2-deoxyuridine resistant clones of mouse lymphoma cells

Clones resistant to 5-iodo-2-deoxyuridine (IUdR) were isolated from P388 cells and cultured in the absence of selective medium. Thymidine kinase assays were performed on 8 clones which had arisen spontaneously and 19 isolated after exposure to X-rays or alkylating agents. All the clones tested showed significantly reduced thymidine kinase activity relative to wild-type cultures, but none showed zero levels. 14 of these clones were tested for thymidine (TdR) uptake and all showed a marked reduction in the rate of [³H]TdR incorporation into acid soluble fractions and into DNA. 7 IUdR-resistant (IUdR^r) clones were tested for revertibility as measured by growth of colonies in HAT medium. 5 of the 7 were found to revert at measurable rates either spontaneously or after a low dose of mutagen.Thymidine kinase activity was also measured in 8 thymidine resistant P388 clones (TdR^r). Initial rates of thymidine phosphorylation were not significantly altered in 5 of the 8 clones tested but significantly lower amounts of phosphorylated products were observed in 6 of the 8 clones. [³H]TdR uptake was reduced in 9 of 12 clones tested, and 2 of them showed no corresponding reduction in the thymidine kinase activity, suggesting the occurence of mutants with altered permeability for thymidine.IUdR resistant L5178Y clones could not be isolated. Thymidine resistant L5178Y clones were similar to TdR^r P388 clones, i.e. they showed changes in initial rates of thymidine kinase activity and reduced accumulation of phosphorylated products. Only one clone could be shown to be a membrane mutant. These results are discussed in relation to the genetic nature of the thymidine kinase locus in the two cell lines.     

Recovery of V79 cell clones with different phenotypes in aminopterin- or azaserine-containing media used for the selection of HGPRT revertants

Three 6-thioguanine (6TG)-resistant mutants were mutagen-treated and selected for clones capable of growing in 2 selective media: HAT medium, containing aminopterin (AP) and HAS medium, containing L-azaserine (AS). Both 6TG-sensitive, wild-type clones and 6TG-resistant mutants were found among colonies growing in HAT medium, while only 6TG-sensitive clones grew in HAS medium. Time for expression was required by 6TG-resistant but not by 6TG-sensitive clones, that were fully expressed immediately after treatment. All HAT-resistant, 6TG-resistant clones which were analyzed proved to be resistant to AP. These data were interpreted as follows: in HAT medium, both HGPRT⁺ revertants and double mutants (HGPRT^?, AP-resistant) were selected, while only HGPRT⁺ revertants were selected in HAS medium. Not all 6TG-resistant mutants were able to produce both classes of HAT-resistant clones.     

An approach to the production of helminth antigens in vitro: The formation of hybrid cells between Fasciola hepatic a and a rat fibroblast cell line

Using polyethylene glycol, hybrid cells were formed between rat fibroblasts lacking the enzyme hypoxanthine-guanine phosphoribosyl transferase (HGPRT, B.C. 2.4.2.8) and cells of the liver fluke Fasciola hepatica. The hybrid cells survived in a medium containing hypoxanthine, aminopterin and thymidine (HAT) indicating that the enzyme deficiency of the parental rat cells had been corrected. Isoelectric focusing in agarose gels showed that the HGPRT activity in the hybrids was of F. hepatica rather than rat origin. F. hepatica chromosomes could not be identified with certainty in hybrids; and fluke antigens, other than HGPRT, could not be detected in them or in culture medium in which they had grown.     

Induction of thymidine kinase in enzyme-deficient chinese hamster cells

Previous work with Chinese hamster cells suggests that thymidine kinase deficiency and loss of potential for plating in HAT medium may arise by a process of mutation coupled with site-specific repression by bromodeoxyuridine at the tk locus. In this study, tk^? Chinese hamster cells were exposed to a series of inductors to determine whether revertants for the putative second stage originate by genetic or epigenetic change. Brief exposure to 5-azacytidine resulted in massive conversion to the HAT⁺ state, and revertants showed levels of thymidine kinase activity intermediate between those of tk^? and wild-type cells. By contrast, incidence of HAT⁺ cells rose only slightly in populations mutagenized with ethyl methanesulfonate. Large increases in frequency of HAT⁺ cells were obtained by treatment with n-butyrate and L-ethionine, which affect gene expression in other cell systems but have no known mutagenic potential. Induction of HAT⁺ revertants seems to be mediated by a stable epigenetic shift, which reverses the gradual extinction of thymidine kinase activity in the parent cells. The data support the view that induction in Chinese hamster cells results from changes in DNA methylation patterns, and suggest studies to define the process in molecular terms.     

Gene expression of foreign metaphase chromosomes introduced into cultured mammalian cells?

Transfer of genetic information from isolated hamster chromosomes to mouse cells is described. Metaphase chromosomes isolated from Chinese hamster diploid cells were incubated with mouse Cl. 1-d cells deficient in thymidine kinase activity. Two viable colonies appeared from the treated mouse cells after HAT selection with a frequency of about 10⁻⁸. The first colony isolated (Cl. 1) failed to grow, however. The second colony isolated (Cl. 2) grew well in HAT medium and was subcultured for more than 70 generations. Cl. 2 cells possessed an elevated tetrahydrofolate dehydrogenase activity of molecular species resembling that of Chinese hamster cells, as shown by disc electrophoresis. The cell line also expressed surface antigen(s) specific to hamster species, as shown by mixed hemadsorption test and immune cell electrophoresis. This latter phenotype disappeared after prolonged cultivation (59 generations) of the cells in non-selective medium. The karyotype of Cl. 2 cells corresponded to that of the mouse species and was quite different from that of hamster cells. Hamster chromosomes could not be identified in any of the cell clones by detailed analysis by the banding method (Q- and C-band). Not one revertant cell was obtained among 4.2×10⁸ Cl. 1-d cells in the control.     

Spontaneous fusion and formation of hybrids between C1300 neuroblastoma cells and lymphoid cells in mixed cultures.

Spleen lymphoid cells from specifically sensitized A/J mice were induced to bind and form rosettes around syngeneic, cloned C1300 neuroblastoma (NB) cells in vitro. Rosette formation usually led to target cell lysis. Electron microscopic evidence suggests, however, that lymphoid cells were sometimes spontaneously incorporated by the target cell and lysed, and their material was probably reutilized by the penetrated cell. When lymphoid cell suspensions were added to cultures of a mutant clone of NB cells (clone NA), which died in HAT medium because of hypoxanthine-guanine phosphoribosyltransferase (HGPRT) deficiency, HAT medium-resistant clones arose at a frequency of about 5 × 10^?5, at least 200 times the reversion rate of NA. This suggested that correction of the HGPRT deficiency was due to efficient spontaneous fusion. Rosettes were also induced between spleen lymphocytes from allogeneic C₃H/HeJ mice and cloned NB cells. Rosettes were then separated by centrifugation through a discontinous BSA gradient. NB cells were isolated by adherency and were left to grow. Evidence indicated that these resulting NB cultures contained hybrids and that lymphocytes introduced new genes into NB cells with detectable frequency. Cells synthesized in culture a heteropolymer of glucose phosphate isomerase, while lymphocytes and original neuroblastoma cells alone supplied, respectively, only a fast and a slow form of the isozyme, as shown by electrophoretic assay. Furthermore, expression of hybrid surface markers, changes in lymphocyte recognition capacity in in vitro mixed cell culture assays, and delayed malignancy in A/J mice proved somatic cell hybrid formation.     

Effect of x-irradiation of one partner on hybrid frequency in fusions between Chinese hamster cells

Sublines derived from V79 and B150 Chinese hamster cells lack hypoxanthine-guanine phosphoribosyltransferase (HGPRT) and thymidine kinase (TK) respectively. When these strains are cultivated together without virus treatment in HAT medium, hybrid colonies with normal enzymic patterns arise in high frequency. The ratio of proliferating hybrid colonies to the minority cell inoculum in mixed cultures is approximately 1/1000. This observation has been used to examine the effect of x-irradiation pretreatment of one cell type on the frequency of hybrid formation in mixed cultures. B150 cells (TK-) were irradiated in monolayer cultures at dose levels of 200–4000r (180 KV, 15 ma). After trypsinization, the irradiated cells were mixed with unirradiated V79 cells (subline 129, HGPRT-) and cultivated in HAT medium. The per cent decline in hybrid frequency as a function of x-irradiation was compared to the relative decline in viability of x-irradiated B150 cells when assayed in cultures alone. These curves diverged markedly, with the frequency of proliferating hybrids decreasing much less rapidly with radiation dose than survival of B150 cells. By contrast, when B150 cells were subjected to acute heat shock for graded intervals and subsequently mixed with untreated V79–129 cells, both viability of B150 cells and hybrid formation declined at the same rate. Our results suggest that lethally irradiated cells can still fuse with normal cells, and may contribute functional chromosomes to the hybrid karyotype. At limiting doses of x-irradiation this technique may be useful as a means for induced segregation of marker chromosomes.     

A method to generate microcells from human lymphoblasts for use in microcell mediated chromosome transfer

Summary A method is described to generate microcells from human lymphobalsts for use in microcell-mediated chromosome transfer (MMCT). Micronuclei were induced in cells from a human lymphoblastic cell line by prolonged colcemid treatment, and were separated from these lymphoblasts by: (a) attaching the cells to Concanvalin A coated plastic slides designed for enucleation, and (b) centrifuging the slides in medium containing cytochalasin B. Microcells of less than 3 μm in diameter were fused with thymidine kinase negative mouse fibroblast (LMTK⁻). HAT medium (hypoxanthine, aminopterin and thymidine) was used to select microcell hybrids expressing thymidine kinase activity. Positive clones were isolated and Q-banded for chromosome analysis. Unlike previous methods this procedure permits microcells to be easily generated from lymphoid cells. This methodology of enucleation of microcells may be extended to a variety of other donor cell types which can be micronucleated but which do not adhere tightly to enucleation slides and do not exhibit extrusion subdivision. This feature makes our methodology particularly useful for constructing a library of hybrid clones containing one or a few human chromosomes.     

Lysolecithin-induced fusion of fibroblasts

Summary Lysolecithin has been used to induce cell fusion between two metabolically deficient mouse fibroblast lines, A₉ and B₈₂. Attempted fusion in suspension led to excessive cell clumping and complete loss of viability. Addition of lysolecithin solutions to confluent monolyers caused extensive detachment of cells from glass or plastic surfaces. At higher levels of lysolecithin few cells survived. When the conditions were controlled (50 to 250 μg per ml for up to 20 min), extensive polykaryocyte formation was observed. In the presence of selective medium (HAT) colonies of hybrid cells grew and a series of cell strains were isolated. The presence of inosinic acid pyrophosphorylase (absent in A₉ cells) was demonstrated in the hybrid cells which were shown to have almost double the cell volume of the parent A₉ and B₈₂ cells. Unlike the parent cell lines, the hybrid cells grew well in the presence of HAT both as monolayers and in suspension.     

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.     

Linkage relationship between the genes for thymidine kinase and galactokinase in different primates.

In this study we investigated the expression of primate galactokinase in somatic cell hybrids between a thymidine kinase-deficient mouse cell line and two different primate cell lines, one of which was derived from African green monkey kidney cells and the other from chimpanzee fibroblasts. All the African green monkey-mouse hybrid clones, selected in HAT medium, expressed monkey galactokinase activity and contained a monkey chromosome similar to a human E-group chromosome. When these clones were backselected in medium containing 5-bromodeoxyuridine, both this chromosome and the monkey galactokinase activity were lost. All the hybrid clones between mouse and chimpanzee cells, which were selected in HAT medium, contained the chimpanzee chromosome 17 and expressed chimpanzee galactokinase activity. These results indicate that the linkage relationship between galactokinase and thymidine kinase has been maintained in 3 divergent primate species--man, chimpanzee, and Old World monkey.     

The enhancement of in vitro survival and chondrogenesis of limb bud cells by cartilage conditioned medium

Dissociated stage 21–28 chick embryo limb bud cells showed an increasing ability to produce cartilage colonies in vitro with in vivo maturation. In addition dissociated stage 21–28 chick embryo limb bud cells exposed to cartilage conditioned medium continuously or only for 48 hr prior to subculture showed an enhanced (as much as 15-fold) ability to form differentiated cartilage colonies. By this criterion, cells were more responsive to conditioned medium prior to stage 25. Conditioned medium from fibroblast cultures caused an inhibition of cartilage colony formation, suggesting that the effect is cell-type specific. Besides increasing cartilage colony formation by enhanced cell survival, the incorporation of S³⁵O₄ into isolated glycosaminoglycans is also stimulated when limb bud cells are exposed to cartilage conditioned medium. The results support a model for cell differentiation which involves the enhancement of a particular differentiated capacity by a diffusible cell-type-specific macromolecule.     

Factors Controlling the Production of Lysogenic Cultures of B. megatherium

(1) The proportion of infected B. megatherium cells which develop lysogenic colonies depends on the number and kind of infecting virus particles and on the culture medium in which the cells are growing. (2) Cells infected with 100 or more T virus particles (from megatherium 899) in yeast extract peptone disintegrate, produce very few virus particles, and less than one lysogenic colony per 10⁷ infected cells. Cells infected with one or a few particles produce 500 to 1000 virus particles each and about 30 lysogenic colonies per 10⁷ infected colonies. (3) T phage obtained from lysogenic magatherium KM cultures produces many more lysogenic cells than does the original megatherium 899 virus. (4) Cells infected with megatherium 899 T virus in peptone medium and then transferred to asparagine medium give rise to 10⁶ lysogenic colonies per 10⁷ infected cells and this transformation will occur even after the infected cells have been in peptone for 60 to 90 minutes and are beginning to produce virus particles. (5) Continued growth of KM strain with either C or T virus from megatherium 899 for several hundred generations in the steady state apparatus results in a lysogenic strain which produces several different types of virus.     

Analysis of mitochondrial DNA species in interspecific hybrid somatic cells using restriction endonucleases. Identification of recombinant mtDNA molecules

Interspecific hybrid cells were isolated by fusion between thymidine kinase-deficient (TK⁻) mouse B82 cells and hypoxanthine-guanine-phosphoribosyl-transferase-deficient (HGPRT⁻) rat L6TG cells, and cultivating them in selective medium with hypoxanthine-aminopterin-thymidine (HAT). Karyo-type analysis revealed that they contained both mouse and rat chromosomes. Mitochondrial DNA (mtDNA) species of the hybrid cells were identified by digesting them with three kinds of restriction endonucleases, Hae II, EcoR I and Hpa II. Their restriction endonuclease cleavage patterns indicated that a portion of the mtDNAs was of mouse parent cell origin, while the remainings were recombinant molecules, i.e., part of the rat mtDNA sequence could be detected, but not whole rat mtDNA. The molecular weights of hybrid cell mtDNAs were calculated to be almost the same as that of the parent cells (˜10⁷ D).     

Reversible arrest of Chinese hamster V79 cells in G2 by dibutytyl AMP.

Mouse L cells 929 were cloned in supplemented Eagle's minimal medium enriched with lactalbumin and yeast extract and buffered with HEPES. Multiplication was followed photographically in single clones from the 8-cell stage through 6–7 days. Addition of the folic acid analogue methotrexate (amethopterin) in 5 × 10^?6 M concentration slowed growth only after two cell generations; 10^?4 M uridine had no effect on growth except when combined with methotrexate. The two agents together blocked cell division quickly and symptoms of thymine-less death developed in few days. The cells could be rescued before 48 h by removal of the inhibitors, or by addition of folic acid or thymidine. The combination of methotrexate with uridine blocks DNA synthesis in Tetrahymena by inhibition of thymidylate synthesis and of thymidine uptake from the complex medium. Apparently the same mechanisms operate in L cells grown in a complex medium containing thymidine.     

Mutations as possible replication errors in bacteria growing under conditions of thymine deficiency

When Escherichia coli or Bacillus subtilis cells having inhibited thymidylate synthetase activity were incubated for a long time on solid medium supplemented with a limiting concentration of thymine or thymidine (0.1–0.3 μg/ml) most of them became mutants for one or more genetic markers. This “overall mutagenesis” was detected both in Thy^? bacteria and in prototrophs for thymine (Thy⁺) with thymidylate synthetase inhibited by the addition of 5-fluorodeoxyuridine (FUdR) to the growth medium. When thymine (or thymidine) was present in very low amounts (10^?3 μg/ml) or was totally absent, the efficiency of mutagenesis decreased some 100-fold. The solid growth medium is essential because it supports the filamentous cells grown under conditions of limiting thymine.For some of the mutants with identified deficiency their ability to revert under the action of different mutagens was studied. Most efficient was 5-bromouracil (BU). This reversion is the characteristic response of mutations due to AT → GC transitions. In addition to single mutants, many multiple mutants were induced. The repair-defective strain of E. coli pol A1^? and strains Rec A^? and Exr A^?, which are also defective in UV-induced mutagenesis, showed a high level of mutation induction under the conditions described. All these results are in accord with the hypothesis that overall low-thymine mutagenesis reflects the accumulation of replication errors in DNA under the conditions of a precursor deficiency.