Human telomeres are attached to the nuclear matrix.

This report shows that human telomeres are tightly associated with the nuclear matrix. Telomere attachment is observed in several cell types and in all stages of interphase. Mapping experiments show that telomeres are anchored via their TTAGGG repeats; a subtelomeric repeat located immediately proximal to the telomeric TTAGGG repeats is quantitatively released from the nuclear matrix by restriction endonuclease cleavage. TTAGGG repeats introduced at chromosome-internal sites by DNA transfection do not behave as matrix attached loci, suggesting that the telomeric position of the repeats is required for their interaction with the nuclear matrix. These findings are consistent with the idea that telomeres function as a nucleoprotein complex.     

Chinese hamster X mouse hybrid cells segregating mouse chromosomes and isozymes.

Hybrid cells are readily formed by fusing clonal Chinese hamster cells to fresh, noncultured, adult mouse spleen cells followed by isolation in selective medium. The vast majority of such hybrids retain Chinese hamster chromosomes and isozymes while segregating mouse chromosomes and isozymes. The growth, plating efficiency, ease of karyology, and rapid segregation of mouse markers allows linkage tests in primary clones. Analysis of 13 isozymes showed 12 to be asyntenic and on epair (PGD-PGM2) to be syntenic This system will allow extensive somatic cell hybrid gene mapping in the mouse and permit a comparison of human and mouse linkage relationships.     

TZAP‐ing telomeres down to size

The phenomenon of gradual telomere shortening has become a paradigm for how we understand the biology of aging and cancer. Cell proliferation is accompanied by cumulative telomere loss, and the aged cell either senesces, dies or transforms toward cancer. This transformation requires the activation of telomere elongation mechanisms in order to restore telomere length such that cell death or senescence programs are not induced. Most of the time, this occurs through telomerase reactivation. In other rare cases, the Alternative lengthening of telomeres (ALT) pathway hijacks DNA recombination‐associated mechanisms to hyperextend telomeres, often to more than 50 kb. Why telomere length is restricted and what sets their maximal length has been a long‐standing puzzle in cell biology. Two recent studies published in this issue of EMBO Reports [1] and recently in Science [2] sought to address this important question. Both built on omics approaches that identified ZBTB48 as a potential telomere‐associated protein and reveal it to be a critical regulator of telomere length homeostasis by the telomere trimming mechanism. These discoveries provide fundamental insights for our understanding of telomere trimming and how it impacts telomere integrity in stem and cancer cells.     

Long insertions within telomeres contribute to chromosome size polymorphism in Plasmodium berghei.

During prolonged in vivo mitotic multiplication of a Plasmodium berghei ANKA clone (8417HP), parasites that contained an enlarged version of chromosome 4 were observed. Restriction mapping and hybridization results demonstrated that the extra DNA present in the enlarged chromosome consists of 2.3-kb tandem repeats, known to be normally located in subtelomeric position at several chromosomal ends but absent in the original chromosome. The inserted 2.3-kb units appeared to interrupt one of the original telomeres and to create an internal (approximately 1-kb-long) telomeric sequence.     

G-strand overhangs on telomeres in telomerase-deficient mouse cells.

Telomeres of eukaryotic chromosomes contain 3' overhangs which are thought to be essential for the maintenance of proper chromosome end structure and function. We examined the requirement for telomerase activity for the generation of these G-strand overhangs in mammalian cells. Using non-denaturing in-gel hybridization to both tissue and cultured cells from mice deficient for the telomerase RNA component, we found that G-strand overhangs exist in the absence of telomerase activity. Quantitation of overhang signal intensity showed no significant reduction in telomerase-deficient cells relative to wild-type. These results support a telomerase-independent mechanism for generating G-strand overhangs.     

Significance of dimers to the size of newly synthesized DNA in UV-irradiated Chinese hamster ovary cells.

DNA synthesized after UV irradiation is smaller than that in unirradiated cells even when pulse-labeling times are increased to compensate for the overall reduction in the rate of DNA replication. By isolating newly replicated DNA, incubating it with dimer-specific endonuclease from Micrococcus luteus, and analyzing it on alkaline sucrose gradients, we have been able to demonstrate that this DNA is synthesized in segments corresponding in size to the interdimer distance on the parental strand. In addition, the same DNA analyzed on neutral gradients shows no reduction in molecular weight as a result of UV irradiation and/or endonuclease digestion. Our data are thus inconsistent with the presence of "gaps" in newly synthesized DNA opposite the dimers on the parental strand. We suggest that if such gaps are produced as a result of delayed synthesis around dimers, they are filled before the growing point reaches the next dimer.     

Fibronectin receptors are functional on mitotic Chinese hamster ovary cells.

In this paper, evidence is provided indicating that the blockade of presynchronized CHO 15B cells in prometaphase by nocodazole is fully reversible and efficient enough to allow us to analyze the function of the integrin receptors. Flow cytometry analysis using a specific antibody raised against the fibronectin receptor, and binding studies of the radiolabeled fibronectin on the cell membrane, indicated a stable number of receptors at the cell surface during mitosis. Furthermore, in the mean time, only a slight increase in the Kd value of the fibronectin-receptor interaction was detected. A binding assay designed to test the affinity of the receptor for its extracellular ligand in an insoluble form was used. No difference was observed between mitotic and interphasic cells. Taken together, these results indicate that the rounding up of the cells observed during mitosis is not due to a loss of the receptor affinity for its extracellular ligand.     

Hormone-free mouse glucocorticoid receptors overexpressed in Chinese hamster ovary cells are localized to the nucleus and are associated with both hsp70 and hsp90

In this work, we examine the cellular localization and protein interactions of mouse glucocorticoid receptors that have been overexpressed in Chinese hamster ovary (CHO) cells (Hirst, M. A., Northrop, J. P., Danielsen, M., and Ringold, G. M. (1990) Mol. Endocrinol. 4, 162-170). We demonstrate that wild-type unliganded mouse glucocorticoid receptor, which is expressed in CHO cells to a level approximately 10 times that of L cells, is localized entirely to the nucleus by indirect immunofluorescence with the BuGR antireceptor monoclonal antibody. Overexpressed receptors that have either no hormone binding activity or no DNA binding activity because of point mutations also localize to the nucleus, providing genetic proof that the nuclear localization cannot reflect a steroid-mediated shift of the receptor from the cytoplasm to the nucleus and that DNA binding activity is not required for nuclear localization. Like unliganded progesterone receptors, which also associate in a loosely bound "docking" complex with the nucleus, the mouse glucocorticoid receptor overexpressed in CHO cells is associated with both hsp90 and hsp70. This is in contrast to the untransformed mouse glucocorticoid receptor in L cell cytosol, which is associated with hsp90 but not hsp70. The difference in hsp70 association between cell types could reflect overexpression of the receptor in CHO cells. However, like receptors in CHO cells selected for very high levels of overexpression, receptors in CHO cells selected for an intermediate level of receptor expression that is comparable to that of L cells are also bound to hsp70. This observation argues against an explanation of hsp70 association based purely on receptor overexpression, and we speculate that association of the unliganded glucocorticoid receptor with hsp70 might be a consequence of its nuclear localization in the CHO cells. Although there are differences between the mouse receptor in CHO cells and L cells, the nuclear localization signal of the untransformed mouse receptor reacts equivalently with the AP64 antibody against NL1 in cytosols prepared from both cell types.     

Native yeast telomeres are sufficient to stabilize linear DNA in Xenopus laevis oocytes.

We have constructed a linear plasmid in yeast containing the entire bovine papillomavirus genome and tested its physical stability following microinjection into stage VI oocytes of Xenopus laevis. Our results show that unmodified telomeres, in contrast to the yeast-passaged telomeres, drastically affect the stability of the injected linear plasmid. Plasmids carrying unmodified Tetrahymena thermophila telomeric sequences are rapidly degraded in oocytes. When these plasmids are passed through yeast, the telomere ends become modified by the addition of yeast telomeric sequences. These plasmids are stably maintained in X. laevis oocytes, demonstrating that yeast-modified telomeres are sufficient to prevent linear DNA degradation.     

Natural size classes in DNA from Chinese hamster metaphase chromosomes

DNA from isolated Chinese hamster ovary (CHO) metaphase chromosomes can be obtained in three different molecular weight classes. The two largest forms have sedimentation coefficients of 80 and 120 S at 7,500 rpm. Based on sedimentation and speed dependence analysis these have molecular weights of 220 million and above 5,000 million, and are thought to be analogs of DNA classes observed in a prior study of human metaphase chromosomes. An extract can be converted to primarily the 80 S form through alkaline pH treatment of metaphase DNA. The third class (45 S DNA) is formed as a result of metaphase chromosome exposure to the nuclease Bal31, and has a mass distribution analogous to the CHO replicon.     

Short telomeres in yeast are highly recombinogenic

We report that recombination rates specifically increase by up to 10(3) near shortened telomeres in K. lactis cells. This occurs in cells lacking telomerase that undergo growth senescence as well as in cells with stably shortened telomeres that cause little effect on cell growth. The high rates of gene conversion allowed a subtelomeric marker, initially present at a single telomere, to efficiently spread to most or all other telomeres in the cell. We propose that short telomeres in K. lactis are not fully competent at capping chromosome ends and hence are occasionally processed by proteins that normally act to repair broken DNA ends through recombination. This helps explain how recombination can be frequent enough to permit maintenance of telomeres in yeast cells lacking telomerase.     

Esterified cholesterol and triglyceride are present in plasma membranes of Chinese hamster ovary cells.

The chemical composition of highly purified plasma membrane preparations from a series of malignant Chinese hamster ovary (CHO) cell lines were undertaken to ascertain if neutral lipid, including cholesteryl ester and triacylglycerol, were present. Triacylglycerols (33-41 nmol/mg total lipid) and cholesteryl ester (226-271 nmol/mg) were measured in the plasma membranes and differences in the chemical composition of these membranes recorded. The most significant difference was a gradual decrease in the level of free cholesterol from wild type (312 +/- 7 nmol/mg total plasma membrane lipid), Pod RII-6 (268 +/- 64 nmol/mg total plasma membrane lipid), Col R-22 (243 +/- 39 nmol/mg total plasma membrane lipid) to EOT (204 +/- 20 nmol/mg total plasma membrane lipid), with a concomitant increase in the degree of saturation of the cholesteryl ester fatty acids, particularly palmitic acid. No statistically significant differences were apparent in the chemical composition of the whole cells in this series. The one-dimensional (1D) 1H-NMR spectra of the four malignant cell lines showed a gradation in intensity of lipid resonances, in the order of wild type, Pod RII-6, Col R-22 and EOT, with EOT having the strongest lipid spectrum. Interestingly, the increase in acyl-chain signal intensities in the 1H-NMR spectra of this series of CHO cells and emergence of signals from cholesterol and/or cholesteryl ester, coincide with alterations in the amount of free cholesterol and the degree of saturation of the fatty-acyl chain of the esterified cholesterol in the plasma membranes. It is our hypothesis that, together, cholesteryl ester and triacylglycerol form domains in the plasma membrane and that when the cholesteryl ester has a largely saturated fatty acid content, the lipids are in isotropic liquid phase and hence visible by NMR.     

Similar 150-kilobase DNA sequences are amplified in independently derived methotrexate-resistant Chinese hamster cells.

We have isolated overlapping recombinant cosmids that represent 150 kilobases of contiguous DNA sequence from the amplified dihydrofolate reductase domain of a methotrexate-resistant Chinese hamster ovary cell line (CHOC 400). This sequence includes the 25-kilobase dihydrofolate reductase gene and an origin of DNA synthesis. Eight cosmids that span this domain have been utilized as radioactive hybridization probes to analyze the similarities among the dihydrofolate reductase amplicons in four independently derived methotrexate-resistant Chinese hamster cell lines. We have observed no significant differences among the four cell lines within the 150-kilobase DNA sequence that we have examined, except for polymorphisms that result from the amplification of one or the other of two possible alleles of the dihydrofolate reductase domain. We also show that the restriction patterns of the amplicons in these four resistant cell lines are virtually identical to that of the corresponding, unamplified sequence in drug-susceptible parental cells. Furthermore, measurements of the relative copy numbers of fragments from widely separated regions of the amplicon suggest that all fragments in this 150-kilobase region may be amplified in unison. Our data show that in methotrexate-resistant Chinese hamster cells, the amplified unit is large relative to the dihydrofolate reductase gene itself. Furthermore, within the 150-kilobase amplified consensus sequence that we have examined, significant rearrangements do not seem to occur during the amplification process.     

Nonglucosylated oligosaccharides are transferred to protein in MI8-5 Chinese hamster ovary cells

A CHO mutant MI8-5 was found to synthesize Man9-GlcNAc2-P-P-dolichol rather than Glc3Man9GlcNAc2-P-P-dolichol as the oligosaccharide-lipid intermediate in N-glycosylation of proteins. MI8-5 cells were incubated with labeled mevalonate, and the prenol was found to be dolichol. The mannose-labeled oligosaccharide released from oligosaccharide-lipid of MI8-5 cells was analyzed by HPLC and alpha-mannosidase treatment, and the data were consistent with a structure of Man9GlcNAc2. In addition, MI8-5 cells did not incorporate radioactivity into oligosaccharide- lipid during an incubation with tritiated galactose, again consistent with MI8-5 cells synthesizing an unglucosylated oligosaccharide-lipid. MI8-5 cells had parental levels of glucosylphosphoryldolichol synthase activity. However, in two different assays, MI8-5 cells lacked dolichol- P-Glc:Man9GlcNAc2-P-P-dolichol glucosyltransferase activity. MI8-5 cells were found to synthesize glucosylated oligosaccharide after they were transfected with Saccharomyces cerevisiae ALG 6, the gene for dolichol-P-Glc:Man9GlcNAc2-P-P-dolichol glucosyltransferase. MI8-5 cells were found to incorporate mannose into protein 2-fold slower than parental cells and to approximately a 2-fold lesser extent.      

Gene mapping in the Chinese hamster and conservation of syntenic groups and Q-band homologies between Chinese hamster and mouse chromosomes

Using Chinese hamster/mouse somatic cell hybrids segregating hamster chromosomes, we assigned 15 enzyme genes to six different Chinese hamster autosomes. Of the 15 loci, three genes, HK1, PEPC, and SORD, were newly assigned to chromosomes 1, 5, and 6, respectively, while ENO1, PGD, and PGM1 were assigned to the long arm of chromosome 2, in the segment 2q113----qter. The locations of the following loci were confirmed: ESD, NP, and PEPB on chromosome 1, ME1 and MPI on chromosome 4, AK1 on chromosome 6, and GPI and PEPD on chromosome 9. Comparative mapping of Chinese hamster and laboratory mouse chromosomes revealed conservation of syntenic groups and extensive banding homology between the Chinese hamster and mouse chromosomes on which homologous enzyme markers have been mapped.     

Deoxycytidine kinase-deficient mutants of Chinese hamster ovary cells are hypersensitive to DNA alkylating agents

Chinese hamster ovary cell strains deficient in deoxycytidine kinase activity were selected by isolating mutants resistant to high concentrations of the analogue arabinosyl cytosine. Mutants isolated were deficient in the pool of dCTP, supporting earlier a suggestion that the deoxycytidine kinase may play a role in the turnover and maintenance of the dCTP pool. Consistent with earlier observations that increased intracellular levels of dTTP relative to dCTP lead to increased sensitivy to monofunctional DNA alkylating agents, deoxycytidine kinase-deficient mutants showed a 2–5-fold increase in sensitivity to the cytotoxic and mutagenic effects of one agent, ethyl methanesulfonate (EMS). The survival of the two kinase-deficient strains after mutagen treatment was clearly related to dCTP level as the strain with lowest dCTP was most sensitive to EMS. Thus hypersensitivity to this class of DNA damaging agents can result from cellular mutations decreasing the intracellular level of dCTP.     

Cycloheximide resistance in Chinese hamster cells. II. Induction of Chm resistance in Chinese hamster cells by N-nitrosomethylurea.

Mutant Chinese hamster ovarian (CHO) cells with a resistance to 7-10(-7) and 8-10(-7) M cycloheximide (CHM) were induced at mutation rates of 1.9-5.2-10(-3) and 1.6-1.8-10(-3) respectively after treatment with N-nitrosomethylurea (NMU) at 100 mug/ml. The induced mutation rates differed by two orders of magnitude from the spontaneous rate of mutation to CHM resistance.     

Purification of mouse Ren 2 prorenin produced in Chinese hamster ovary cells

Renin is produced from a larger, inactive precursor, prorenin, by endoproteolytic removal of the amino-terminal prosegment. In this study, we have transfected Chinese hamster ovary cells with the expression plasmid of mouse Ren 2 preprorenin, and have purified mouse Ren 2 prorenin from the incubation medium of these cells by DEAE-Toyopearl chromatography, Blue-Toyopearl chromatography, and isoelectric focusing. Prorenin thus purified has a molecular mass of 42 kDa as determined by SDS-PAGE and an isoelectric point of 6.5. Amino-terminal sequencing has demonstrated that the purified prorenin has the amino-terminus predicted from the nucleotide sequence of mouse Ren 2 preprorenin cDNA.     

Centriolar complex in somatic cell hybrids (mouse X Chinese hamster)

The ultrastructure of centriolar complex in interphase cells and in for a long time dividing somatic hybrid cells (mouse X Chinese hamster) has been investigated. It was found that in the majority of hybrid cells (about 80%) the centriolar complex consists of a higher quantity of centrioles than in the parent cells; the fine structure of the centriolar complex has features characteristic of the centrioles of both the parents; the numerous centrioles have a capacity of organizing individual poles of the spindle of division to constitute the ground for multipolar mitosis in the hybrid cells. Besides that, hybrid cells were found with the centriole number corresponding to that in diploid cells. According to our preliminary data, the ultrastructure of these hybrid centrioles is like that in murine cells.