Genetic and adaptive differences in the expression of drug resistance in hybrid cells

Hybrids between Chinese hamster cells were isolated and maintained in media that were selective or nonselective for markers present in the parent cells (HGPRT and TK deficiencies, respectively). Segregation frequencies for resistance to azaguanine (AZG), thioguanine (THG), or bromodeoxyuridine (BrdU) could be enhanced for some groups of hybrids if the stock cells were maintained under nonselective conditions rather than in HAT medium. In these populations the expression of resistance was dominant or codominant even though marker patterns were recessive for the same cells in HAT. Clonal analysis showed that enhancement took place by adaptive shifts rather than by variation and selection. Segregation frequencies in hybrids were also found to differ significantly between clones isolated by replicate fusions of any two parental cell types. The basis for this heterogeneity is unknown and deserves further study.     

Purine uptake by azaguanine-resistant chinese hamster cells

In this study the resistance of a number of lines of Chinese hamster ovary cells to azaguanine is examined. Those which are drug resistant by virtue of a deficiency of hypoxanthine-guanine phosphoribosyltransferase (HPRT) fail to take up any exogenous hypoxanthine or azaguanine. A second class of drug resistant cells which grow in the reverse selective HAT medium and have levels of HPRT in the range of the wild type parent line take up these purines at lower rates than the non-resistant cells and incorporate smaller amounts of them into trichloracetic acid-insoluble constituents. The results suggest that their basis for resistance resides in lowered incorporation of azaguanine into DNA and RNA, possibly due to a mofified HPRT molecule which accepts hypoxanthine, but not azaguanine as a substrate.     

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.     

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.     

Biological and biochemical characterisation of purine analogue resistant clones of V79 Chinese hamster cells

Purine analogue resistant clones have been selected from the closely related Chinese hamster lines V79A and V79S. Clones were of either spontaneous origin or induced by EMS or ultraviolet light. The majority of clones selected in 8-azaguanine showed stable cross resistance to 6-thioguanine. Clones derived from V79A and selected for 6-thioguanine resistance were cross resistant to 8-azaguanine: however a group of 6-thioguanine resistant mutants selected from V79S cells were 8-azaguanine sensitive. All clones except two were unable to grow in HAT medium. The two exceptions were 8-azaguanine resistant, showed partial sensitivity to 6-thioguanine, and also differed in other biochemical characteristics. HGPRT activity was measurable in extracts of all clones under standard conditions. In many clones, HGPRT activity increased as the hypoxanthine concentration was reduced. Whole cell uptake of [14C] hypoxanthine was low in all cases examined and was not modified by incubation in the presence of amethopterin. The heat sensitivity and electrophoretic mobility of HGPRT in extracts of some clones was compared to that in wild-type extracts. All clones tested except one, which was consistently HAT positive, showed enhanced heat sensitivity and reduced electrophoretic mobility. None of the mutants reverted spontaneously at detectable frequency but some could be induced to revert by EMS. The presence of measurable enzyme with altered properties in all clones suggests that these revertable drug resistant clones represent missense mutants.     

Molecular analysis of X-ray-induced mutants at the HPRT locus in V79 Chinese hamster cells

Spontaneous and X-ray-induced mutants at the hypoxanthine phosphoribosyl transferase (HPRT) locus have been isolated from V79 Chinese hamster cells and characterized at the biochemical and cytogenetic levels. Fourteen spontaneous and 24 X-ray-induced clones were azaguanine and thioguanine resistant, did not grow in HAT medium (AZRTGRHATS) and failed to incorporate significant levels of [14C]hypoxyanthine. Cytogenetic analysis of two spontaneous and eight X-ray-induced mutants revealed no major X chromosome rearrangements. In two induced mutants, one of which was hypotetraploid (mode 35-39) with 2 X chromosomes, the short arm of the chromosome (Xp) was slightly shorter than normal. A third mutant was hyperdiploid (mode 22-23) compared with the parental clone (mode 21). When compared with wild-type clones, no other cytogenetic changes were evident in the remaining mutants. Analysis at the DNA level using a Chinese hamster HPRT cDNA probe showed major deletion of HPRT sequences in two and partial deletion in another two induced mutants. In two of the mutants with deletions of HPRT sequences there was a visible shortening of the Xp arm. In the other six mutants two spontaneous and four induced) no karyotypic changes or alterations in restriction fragment patterns were detected suggesting that they carry small deletions or point mutations at the HPRT locus.     

Modulation of enzyme activity in azaguanine-resistant V79 cells selected by chronic drug exposure

Exposure of V79 cells to azaguanine (7-21 microM for 2-7 weeks) had little effect on growth or plating efficiency but resulted in gradual acquisition of resistance to 8-azaguanine (AZ) and 6-thioguanine (TG) and loss of ability to grow in HAT. The rate of evolution of the resistant phenotype was dependent on the concentration and duration of exposure to AZ. The increase in proportion of resistant cells was paralleled by a rise in phosphatase activity (pH optimum 7.0-7.5) expressed by intact cells and this preceded the fall in HGPRT activity. Elevated phosphatase activity and a resistant phenotype were stably expressed in clones isolated and cultured in the absence of AZ. Hypoxanthine guanine phosphoribosyl transferase (HGPRT) activity in cell extracts of three resistant clones ranged from 18 to 43% of wild-type levels but was unaltered with respect to substrate affinity and electrophoretic mobility. Mg2+-dependent activity dephosphorylated inosine 5'monophosphate (IMP), guanine 5'monophosphate (GMP), adenosine-5-monophosphate (AMP) and p-nitrophenylphosphate (PNPP) and was also elevated with respect to wild-type levels in resistant cell extracts. Purine nucleoside phosphorylase levels were similar in sensitive and resistant cell extracts. Cross-sensitivity studies with other purine analogues suggest that the elevated phosphatase activity does not contribute to the resistant phenotype. No karyotypic changes were observed in the resistant cell lines.     

Mutant chinese hamster cells with a thermosensitive hypoxanthine-guanine phosphoribosyltransferase.

By selecting variants of Chinese hamster cells that were resistant to 6-thioguanine at 39 degrees C, but which would continue to grow in HAT medium at 33 degrees C, we have isolated cell lines with thermosensitive phenotypes. These clones form colonies in HAT medium and incorporate 14-C-hypoxanthine much more efficiently at 33 degrees C than at 39 degrees C. The specific activity of hypoxanthine-guanine phosphoribo-syltransferase is at least 10 times higher in variant cells grown at 33 degrees C than in those grown in 39 degrees C, and the enzymes from the variant clones are inactivated in vitro at 39 degrees C 7-9 times more rapidly than is the enzyme from wild-type cells. The results are consistent with the conclusion that the selected clones have missense mutations in the structural gene for the enzyme.     

Mechanism of cytotoxic action of azaguanine and thioguanine in wild-type V79 cell lines and their relative efficiency in selection of structural gene mutants

The cytotoxic effects of azaguanine and thioguanine have been compared in two wild-type V79 cells. To achieve equitoxic effects in both cell lines a 10–20-fold higher concentration of azaguanine than thioguanine was required. Affinity of HGPRT for azaguanine was 10-fold lower than for hypoxanthine in both cell lines and was similar to that for thioguanine in V79S cells. Affinity for thioguanine differed by a factor of 3 in the two cell lines. The rate of cell kill by azaguanine was markedly slower than by thioguanine in both cell lines. Reduction of whole cell uptake of [¹⁴C]hypoxanthine incorporation by unlabelled azaguanine was only demonstrable after prolonged incubation periods as was incorporation of [¹⁴C]azaguanine into acid-insoluble material. Experiments with cell-free extracts indicated that hypoxanthine acts as a non-competitive inhibitor of the enzyme. The slow rate of dissociation of the HGPRT—azaguanine complex is reflected in the slow rate of killing of wild-type cells. Clones resistant to the cytotoxic effects of these analogues have been selected from both cell lines and have been shown to possess HGPRT with altered kinetic properties. Our data suggest that azaguanine and thioguanine may select for mutations at different sites on the HGPRT molecule in V79 cells and provide possible explanations for the differences in effectiveness of these two agents reported in other cell lines.     

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.     

Dominance of a repair function for X-ray-, U.V.- and alkylating agent-induced damage in hybrids between mouse lymphoma cells of different sensitivity.

Cell lines resistant to IUdR and 6-thioguanine were isolated from a radiosensitive mouse lymphoma line LS and its radioresistant derivative AII respectively. Their biological and biochemical characteristics, as measured by plating in HAT medium IUdR and TG and by (14C) hypoxanthine and (3H) thymidine uptake were measured and found to be consistent with those expected for drug resistant cell lines. Two hybrid cell lines were isolated from crosses between the LS IUdRr line and AII TGr line and their radiosensitivity measured relative to that of the parental lines. Radioresistance was found to be dominant in both the hybrid lines as was resistance to EMS and U.V. to which the parental lines also show differential sensitivity. The ability to recover from sublethal damage after X-irradiation was found to be temperature sensitive in radiosensitive cells, an inverse effect being seen when LS cells were irradiated at 20 degrees C and held at 20 degrees C between dose fractions. Hybrid cells showed a normal amount of recovery from sub-lethal damage when compared with that in AII cells but this occurred at t slightly slower rate at 20 degrees "c than at 37 degrees C. Recovery from sub-lethal damage in AII cells was unaffected by lowering the temperature. These findings suggest that the radiosensitive cells may be temperature sensitive, in some step or steps in the ligation process.     

Mutagen-induced diploid human lymphoblast variants containing altered hypoxanthine guanine phosphoribosyl transferase

The human lymphoblast line MGL8 was treated with HAT and subsequently "mutagenized" with EMS (200 microgram/ml) to give 15% survival, and 6-thioguanine-resistant cells were selected by cloning in soft agarose containing the drug (1 microgram/ml). Eighteen sublines of independently derived resistant clones were isolated and studied in detail. One subline had a low residual HGPRT activity of about 1% of the parental cells. The HGPRT of this subline had a higher Km for PRPP, was more sensitive to heat, and was degraded faster by trypsin than the enzyme in extracts of MGL8 cells. This resistant subline and three others contained CRM levels of 1--38%, compared to the wild-type, so they probably represent true structural mutants of the HGPRT gene. All the variants maintained the karyotype of the parental line (46, XY, 6p-).     

Mutagenesis by simian virus 40. I. detection of mutations in Chinese hamster cell lines using different resistance markers.

The mutagenic action of SV40 in permanent lines of Chinese hamster cells (CHO-K1 and V79) was investigated with the aid of different resistance markers. The markers studied had resistance to 8-azaguanine (25 and 30 mug/ml), aminopterin (3.3--5.5X10(-3) mug/ml), colchicine (6.5 and 7.0X10(-2) mug/ml) and 5-bromodeoxyuridine (50--120 mug/ml), respectively. After virus infection the mutation frequencies were increased by one (azaguanine, aminopterin) and two (colchicine) orders of magnitude as compared with spontaneous mutation frequencies. In contrast, it was not possible to enhance the frequency of mutation to BUdR resistance. On the other hand, the ability to proliferate in HAT medium was induced in three of five BUdR-resistant cell clones by infection with SV40. The resistance induced by SV40 was stable when isolated clones were cultured under non-selective conditions. Mechanisms are proposed that may be responsible for the mutagenic action of SV40.     

Interspecific somatic cell hybridization between asparagine-requiring and drug-resistant cell lines

Interspecific hybrids between Walker 256 carcinosarcoma rat cells which are asparagine requiring, and LMTK^t mouse cells which are drug resistant and asparagine independent have been isolated. The hybrids were selectively isolated by taking advantage of the asparagine requirement, or, in some cases, combining the asparagine requirement with an azaguanine resistance marker. The hybrids: (a) possessed a chromosome complement which was additive between the two parent lines; (b) showed two marker chromosomes; (c) possessed both rat and mouse forms of a number of different isozymes. The specific activities of asparagine synthetase was measured in the two parents and the hybrids. The enzyme level in the hybrids was found to be higher than the levels observed in the W 256 line, but only 10% of that observed in the LMTK⁻. The results are in agreement with, but do not prove, the hypothesis that asparagine requirement is due to a mutation in a structural cistron specifying the asparagine synthetase polypeptide.     

基于Flp重组酶介导的盒式交换HPRT位点定点转基因研究

以电穿孔转染法将构建的交换质粒pF-HPRT-F3和Flp表达载体pCMV-Flp共转染已在基因组HPRT位点整合有交换盒F-Neo-F3结构的ES细胞F18,经HAT筛选得到HAT抗性ES细胞克隆;G418敏感性试验和基因组Southern杂交表明,所分析的12个HAT抗性克隆中有3个克隆发生了预期的盒式交换重组,转基因定点整合的相对效率为25%.这一结果表明,Flp重组酶是可以在HPRT位点有效地介导盒式交换反应的,我们提出的利用Flp重组酶介导的盒式交换反应建立基于HPRT位点的转基因定点整合体系的策略是可行的.     

Genetic complementation in hybrid cells derived from mutagen-induced mouse clones deficient in HGPRT activity.

Cultured mouse clonal cells, H-5, were treated with two different mutagens, ethyl methanesulfonate (EMS) and N-methyl-N′-nitro-N-nitrosoguanidine (MNNG). Then two selective procedures using 8-azaguanine (8-AZ) or 6-thioguanine (6-TG) were compared in an effort to isolate hypoxanthine-guanine phosphoribosyl-transferase (HGPRT)-deficient cells containing different gene alterations. While many 8-AZ resistant cells were induced by EMS treatment, considerably more 6-TG resistant cells were induced by the same treatment. MNNG treatment induced many 8-AZ resistant mutants but induced hardly any 6-TG resistant mutants. After a fusion experiment of 91 sets involving 13 HGPRT-deficient mouse clones, 7 of which were resistant to 8 AZ and 6 of which were resistant to 6TG with subsequent selection on HAT medium, complementation occurred only in those hybrid mixtures formed between 8-AZ- and 6-TG-resistant clones, while it did not occur at all in hybrid mixtures formed between different 8-AZ-resistant clones and mixtures formed between different 6-TG-resistant clones. The clonally isolated HGPRT-positive cells, characterized by tetraploid karyology, had an apparent activity of HGPRT ranging from 25 to 30% of that of the wild-type parental cells. Heat-inactivation of HGPRT at 65 °C revealed that HGPRT from wild-type cells was heat stable and HGPRT from some 8-AZ-resistant clones were heat labile, while HGPRT from hybrid cells had intermediate stability. These results indicate that there would be alterations in the structural gene of HGPRT in the 8-AZ- or 6-TG-resistant mutants, and also that two selective procedures with 8-AZ or 6-TG alone can isolate different alterations in the structural gene of HGPRT. Moreover, this indicates that some of these gene alterations were mutually complementary. It is most likely that there would be at least 3 cistrons in the locus responsible for HGPRT activity in the mouse cells.     

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.     

基于Flp重组酶介导的盒式交换HPRT位点定点转基因研究

Exchange plasmid pF-HPRT-F3 and Flp expression plasmid pCMV-Flp were constructed and then introduced using electroporation system into F18 ES cell line, which have an exchange cassette F-Neo-F3 at HPRT locus. After HAT selection, HAT resistant clones were obtained. Then G418 sensitivity test and Southern blotting were carried out to screen RMCE recombinants. The results indicated that RMCE had taken place in three of 12 HAT resistant clones. The frequency is 25%. The result demonstrates that it is realizable to introduce transgene to HPRT locus by using Flp recombinase mediated cassette exchange reaction.     

Mutants of Chinese hamster ovary (CHO) cells with altered colcemid-binding affinity.

Clones of CHO cells stably resistant to colcemid have been isolated in the presence of the nonionic detergent Tween 80 after mutagen treatment. Successive single-step selections for increasing resistance were performed resulting in lines after three selection steps about 10 fold more resistant to colcemid than the parental cells. Three observations indicate that these colcemid-resistant (CMR) mutants are different from the colchicine-resistant permeability mutants isolated previously. First, their relative resistance to colcemid was not diminished in the presence of detergent which promoted increased drug permeability. Second, the CMR clones displayed limited cross-resistances only to tubulin-binding compounds. Third, the binding affinity of labeled colcemid by cytoplasmic extracts from CMR clones was reduced, and the reduction was greater in the more resistant clones. No reduction in binding of labeled colcemid was observed in the membrane-altered colchicine-resistant mutants. All these observations are consistent with the CMR clones being tubulin-altered mutants. In further support of this conclusion, we observed that tubulin purified from a CMR mutant still possessed reduced colcemid-binding affinity compared with that from parental cells.     

Establishment and characterization of hybrid rat mast cells

Rat peritoneal mast cells (RPMC) and rat basophilic leukemia (RBL) cells are representative of connective tissue-type (CTMC) and mucosal-type (MMC) mast cells, respectively. Using polyethylene glycol, we have fused RPMC with 6-thioguanine resistant, HAT (hypoxanthine, aminopterin, thymidine) sensitive RBL-CA10.7 or RBL-CK2 cells, yielding several hybrid rat mast cell lines (HRMC). The hybridomas exhibited different size and cytoplasmic granularity when compared with parental cell lines. Analysis of both high (Fc epsilon RI) and low affinity (Fc epsilon RL) receptors for IgE revealed that the hybrid lines had more variable receptor patterns than the parent lines. Three hybridoma lines were chosen for further study. Differential histochemical staining with alcian blue and safranin O dyes indicated the hybrids to be predominantly of the MMC type: however, a few cells of one of these uncloned hybridomas were found to be of the CTMC type. Attempts to isolate the CTMC hybridomas yielded one culture which was predominantly of the CTMC phenotype and in a number of other cultures, cells were found expressing simultaneously both the CTMC and the MMC phenotype. After 3 weeks in culture, however, all hybridomas, including those which were cloned further, expressed only the MMC histochemical phenotype. This was found to correlate with the presence of rat mast cell protease II (RMCPII) and the absence of RMCPI in all hybridomas, as detected by Western blot analysis. In addition, the histamine content of all cells was significantly lower than that of the parent RPMC. Most hybrid mast cells expressed both Fc epsilon RI and Fc epsilon RL which in some cases exhibited significant variations in the Mr. These results indicate that somatic cell hybrids expressing the MMC and CTMC phenotype can be produced by the fusion of RBL and RPMC. The CTMC phenotype, however, is unstable, and possible reasons for this are discussed.