THE FINE STRUCTURE OF THE NUCLEOLUS IN MITOTIC DIVISIONS OF CHINESE HAMSTER CELLS IN VITRO

The nucleolus of Chinese hamster tissue culture cells (strain Dede) was studied in each stage of mitosis with the electron microscope. Mitotic cells were selectively removed from the cultures with 0.2 per cent trypsin and fixed in either osmium tetroxide or glutaraldehyde followed by osmium tetroxide. The cells were embedded in both prepolymerized methacrylate and Epon 812. Thin sections of interphase nucleoli revealed two consistent components; dense 150-A granules and fine fibrils which measured 50 A or less in diameter. During prophase, distinct zones which were observed in some interphase nucleoli (i.e. nucleolonema and pars amorpha) were lost and the nucleoli were observed to disperse into smaller masses. By late prophase or prometaphase, the nucleoli appeared as loosely wound, predominantly fibrous structures with widely dispersed granules. Such structures persisted throughout mitosis either free in the cytoplasm or associated with the chromosomes. At telophase, those nucleolar bodies associated with the chromosomes became included in the daughter nuclei, resumed their compact granular appearance, and reorganized into an interphase-type structure.     

AGE-DEPENDENT TOXIC PROPERTIES OF ACTINOMYCIN D AND X-RAYS IN CULTURED CHINESE HAMSTER CELLS

A comparative study was made of the toxic properties of actinomycin D and X-rays using synchronized populations of Chinese hamster cells cultured in vitro. X-irradiated cells are most resistant in the latter half of the DNA synthetic period (late S). While cells treated with actinomycin D appear to go through a survival maximum at the same age, they are most resistant after the completion of DNA synthesis; i.e. in G₂ (or G₂-mitosis). In spite of these differences, we found that actinomycin D damage in late S cells interacts with X-ray damage. Thus, a common locus for the site of actions of both agents is suggested which may be in or around the genome of a cell in view of the well-known DNA binding properties of actinomycin D.     

ULTRASTRUCTURE OF THE NUCLEOLUS DURING THE CHINESE HAMSTER CELL CYCLE

Changes in the structure of the nucleolus during the cell cycle of the Chinese hamster cell in vitro were studied. Quantitative electron microscopic techniques were used to establish the size and volume changes in nucleolar structures. In mitosis, nucleolar remnants, "persistent nucleoli," consisting predominantly of ribosome-like granular material, and a granular coating on the chromosomes were observed. Persistent nucleoli were also observed in some daughter nuclei as they were leaving telophase and entering G₁. During very early G₁, a dense, fibrous material characteristic of interphase nucleoli was noted in the nucleoplasm of the cells. As the cells progressed through G₁, a granular component appeared which was intimately associated with the fibrous material. By the middle of G₁, complete, mature nucleoli were present. The nucleolar volume enlarged by a factor of two from the beginning of G₁ to the middle of S primarily due to the accumulation of the granular component. During the G₂ period, there was a dissolution or breakdown of the nucleolus prior to the entry of the cells into mitosis. Correlations between the quantitative aspects of this study and biochemical and cytochemical data available in the literature suggest the following: nucleolar reformation following division results from the activation of the nucleolar organizer regions which transcribe for RNA first appearing in association with protein as a fibrous component (45S RNA) and then later as a granular component (28S and 32S RNA).     

CHARACTERIZATION OF BENZODIAZEPINE BINDING SITES IN CULTURED CELLS OF NEURAL ORIGIN

Abstract— The binding of [³H]diazepam to benzodiazepine receptors was investigated in cultured cell lines of neural origin. Two cell lines, the rat C6 glioma and mouse NB41A3 neuroblastoma possess large numbers of benzodiazepine binding sites, while the other neural cell lines examined had significantly fewer benzodiazepine binding sites. [³H]diazepam binding to membranes prepared from C6 or NB41A3 cells was saturable and of a relatively high affinity ( K _D± 12 and 20 n m , respectively) when compared with rat cerebral cortex ( K _D± 4.6 n m ). A single class of binding sites in both cell lines was demonstrated by Scatchard analysis. The maximum binding capacities ( B _max) in the C6 and NB41A3 cell lines were found to be 10 and 3.5 fold higher than in rat cerebral cortex, respectively. In contrast to the rat cerebral cortex, binding of [³H]diazepam in cultured cells was not displaced by the clinically active benzodiazepines clonazepam and oxazepam while the clinically inactive benzodiazepine Ro 5-4864 potently inhibited the binding of [³H]diazepam in both neural cell lines. In toto , this data suggests a change in the benzodiazepine binding sites in cultured cells of neural origin to that found in peripheral (kidney) tissue. The observation that cell lines derived from both neuronal and glial elements contain large numbers of benzodiazepine binding sites also suggests benzodiazepine receptors in the central nervous system may not be confined to a single cell type.     

CELL CYCLE COMPARTMENT ANALYSIS OF CHINESE HAMSTER CELLS IN STATIONARY PHASE CULTURES

The distribution of Chinese hamster cells with respect to the compartments of the cell generation cycle was studied in cultures in the stationary phase of growth in two different media. A measure of the state of depletion of the nutrient medium was formulated by defining a quantity termed the nutritive capacity of the medium. This quantity was used to verify that the cessation of cell proliferation is due to nutrient deficiencies and not to density dependent growth inhibition. Cell cultures in stationary phase were diluted into fresh medium and as growth resumed, mitotic index, cumulative mitotic index, label index and viability were measured as a function of time. The distribution of cells with respect to compartments of the cell generation cycle in stationary phase populations was reconstructed from these data. Stationary phase populations of Chinese hamster cells that retained the capacity for renewed growth when diluted into fresh medium were found to be arrested in the G₁ and G₂ portions of the cycle; the relative proportion of these cells in G₁ increased with time in the stationary phase, but the sequence differs in the two media. In early stationary phase, in the less rich medium, more cells are in G₂ than in G₁. Also in this medium a fraction of the population was observed to be synthesizing DNA during stationary phase, but this fraction was not stimulated to renewed growth by dilution into fresh medium.     

CHANGES IN SURFACE MORPHOLOGY OF CHINESE HAMSTER OVARY CELLS DURING THE CELL CYCLE

Synchronized populations of Chinese hamster ovary (CHO) cells in confluent culture have been examined by scanning electron microscopy and their surface changes noted as the cells progress through the cycle. During G₁ it is characteristic for cells to show large numbers of microvilli, blebs, and ruffles. Except for the ruffles, these tend to diminish in prominence during S and the cells become relatively smooth as they spread thinly over the substrate. During G₂ microvilli increase in number and the cells thicken in anticipation of rounding up for mitosis. It appears that the changes observed here reflect the changing capacity of CHO cells during the cycle to respond to contact with other cells in the population, because, as noted in the succeeding paper (Rubin and Everhart), CHO cells in sparse nonconfluent cultures do not show the same wide range of changes during the cell cycle. Normal, nontransformed cells of equivalent type in confluent culture are essentially devoid of microvilli, blebs, and ruffles. The relation of these surface configurations to the internal structure of the cell is discussed.     

THE EFFECT OF THYMIDINE ON THE DURATION OF G1 IN CHINESE HAMSTER CELLS

The generation time of a Chinese hamster cell line was varied by the use of different lots of sera in the culture media. Analysis of the division waves following thymidine synchronization showed that lengthening of the generation time was a result of an increase in duration of the G₁ phase and that thymidine treatment reduced the duration of G₁ back to its minimum value.     

小麦细胞核仁中rRNA基因转录的超微定位

真核细胞核仁中rRNA基因转录位点是长期以来未能解决的问题。以小麦细胞为研究材料,应用常规电子显微镜技术,观察了小麦细胞核仁纤维中心(Fibrillar centers,FC)内染色质的超微结构;并通过DNA抗体阐明了核仁中DNA位于纤维中心、致密纤维组分(Dense fibrillar component,DFC)以及两者的过渡区域;应用RNA聚合酶I相关转录因子UBF(Upstream binding factor)抗体所做的分析显示,小麦细胞核仁中UBF位于FC与DFC的过渡区域以及DFC中,在FC中没有UBF的存在;进一步借助于RNA/DNA杂合体抗体选择性地直接标记核仁中rRNA基因的转录位点,结果表明了小麦细胞核仁rRNA基因的转录位点是在FC与DFC的过渡区域及DFC中。     

RATE AND TIME OF DNA SYNTHESIS OF INDIVIDUAL CHINESE HAMSTER CELLS

The duration of DNA synthesis of a diploid cell line of Chinese hamster fibroblasts was determined in a comparative study by the FLM technique, and also by a new technique for measuring the rate of DNA synthesis of individual cells. These methods produced comparable results when applied during exponential growth of the cells. The rate of DNA synthesis was measured by means of quantitative autoradiography following a short-term incubation of the cells with 5 × 10^-6 M FUdR and 10^-5 M ¹⁴C-TdR. The choice of the medium for this purpose did not seem to be critical. The autoradiographic silver grains over cells and ¹⁴C-standard sources are counted by microphotometry using incident light bright-field. The direct measurements of DNA synthesis rate are ‘compartment’ statistics which have been converted into ‘flux’ parameters for comparison with the FLM method and applicability in cell-kinetic calculations. Frequency distributions of the rate of DNA synthesis of individual cells thus obtained may resemble normal distributions quite closely. They result from several factors: differences in the rate of synthesis in different parts of the S-phase, the density distribution of cells within the S-phase, the variation in the time of DNA synthesis among individual cells, and the experimental error. In the case of a pronounced partial synchronization as probably has been present in one experiment performed in the lag phase, an incorrect time of DNA synthesis may result from the rate values. Due to the variation in DNA synthesis rate in different parts of the S-phase it is not possible to determine the duration of DNA synthesis of an individual cell. However, the mean values of DNA synthesis time are reliable. The new method will be preferentially applied for determining the duration of DNA synthesis of human cells in as far as difficulties are encountered with the classical methods. In addition, it may be used to advantage for studying cells which make up low percentages in mixed populations. It finally permits a safer morphological classification of the cells under study than is possible with the classical methods.     

丝裂霉素C诱发中国仓鼠体外培养细胞姐妹染色单体互换的研究

本文对不同年龄中国仓鼠各种组织的体外培养细胞姐妹染色单体互换(SCE)频率进行了比较研究。实验结果表明,体外培养细胞的自发SCE频率与动物年龄无关,相同组织细胞经MMC处理后,老龄仓鼠SCE频率比幼龄仓鼠SCE频率明显低。心脏和皮肤细胸的SCE频率高于肺和尾的SCE频率。     

胰岛素样生长因子Ⅱ对大鼠离体培养黄体细胞孕酮生成的影响

本实验观察了胰岛素样生长因子Ⅱ（ＩＧＦ－Ⅱ）对大鼠离体培养黄体细胞孕酮生长的影响,并对其作用机制进行了探讨。结果显示,ＩＧＦ－Ⅱ能显著地促进大鼠离体培养黄体细胞孕酮生成并呈剂量－效应关系,同时还能促进＾３Ｈ－亮氨酸掺入黄体细胞蛋白质的合成,促进＾３Ｈ－胸腺嘧啶掺入ＤＮＡ的合成,而上述效应分别被放线菌酮（ＣＹＸ）和放线菌素Ｄ所抑制。此外,ＩＧＦ－Ⅱ对大鼠离体黄体细胞内泊性ｃＡＭＰ和ｈＣＧ诱导的ｃＡＭ     

SYNCHRONIZATION OF MITOCHONDRIAL DNA SYNTHESIS IN CHINESE HAMSTER CELLS (LINE CHO) DEPRIVED OF ISOLEUCINE

Mitochondrial DNA (mit-DNA) synthesis was compared in suspension cultures of Chinese hamster cells (line CHO) whose cell cycle events had been synchronized by isoleucine deprivation or mitotic selection. At hourly intervals during cell cycle progression, synchronized cells were exposed to tritiated thymidine ([³H]TdR), homogenized, and nuclei and mitochondria isolated by differential centrifugation. Mit-DNA and nuclear DNA were isolated and incorporation of radioisotope measured as counts per minute ([³H]TdR) per microgram DNA. Mit-DNA synthesis in cells synchronized by mitotic selection began after 4 h and continued for approximately 9 h. This time-course pattern resembled that of nuclear DNA synthesis. In contrast, mit-DNA synthesis in cells synchronized by isoleucine deprivation did not begin until 9–12 h after addition of isoleucine and virtually all [³H]TdR was incorporated during a 3-h interval. We have concluded from these results that mit-DNA synthesis is inhibited in CHO cells which are arrested in G₁ because of isoleucine deprivation and that addition of isoleucine stimulates synchronous synthesis of mit-DNA. We believe this method of synchronizing mit-DNA synthesis may be of value in studies of factors which regulate synthesis of mit-DNA.     

CELL KILLING BY ACTINOMYCIN D IN RELATION TO THE GROWTH CYCLE OF CHINESE HAMSTER CELLS

Using Chinese hamster cells in culture, we have measured the effectiveness of actinomycin D to suppress division as a function of the position, or age, of a cell in its growth cycle. Cells were first exposed to millimolar concentrations of hydroxyurea in order to produce a synchronized population just before the onset of DNA synthesis. Thereafter, the survival response after 30 min exposures to actinomycin D was measured. Cells become resistant as they enter the S phase and then sensitive again in the latter part of S. When they reach G₂ (or G₂-mitosis) they are maximally resistant; at 1.0 µg/ml, for example, the survival in G₂ is 30-fold greater than it is in G₁. These results, plus measurements reported earlier on the interaction of damage in S cells due to actinomycin D and X-irradiation, suggest that the age-response pattern of the toxic effects of this drug probably reflects both the functional capacity of DNA-actinomycin complexes and the ability of this antibiotic to penetrate chromatin and bind to DNA.     

DEVELOPMENT OF JUNCTIONAL COMPLEX IN CULTURED CELLS

The development of specialized intercellular junctions in cultured cells was studied ultrastructurally. MDCK cells, derived from dog kidney, were fixed in situ at proper times after replating, and the sections were cut perpendicular to the plane of the monolayer. In three or four days, the apposition of cell membranes and condensation of extracellular flocculent material were observed between the neighboring cells, and such were regarded as the early signs of desmosome formation. In many cases, a desmosome was formed first, and the formation of a tight junction followed on the apical (medium facing) side. Finally, all intercellular spaces were closed by a junctional complex at the apical edge. In the complex, a tight junction, (intermediate junction) and desmosome(s) succeeded each other in a medium-substratum direction in all cases. In glutaraldehyde-O^sO⁴ fixed specimens, the intermediate dense line in the desmosome was ascertained from the infant stage of development, while in O^sO⁴ fixed material, the structure was obscure throughout the observation but side-arm-like projections were more prominent.     

PRODUCTION OF GERMLINE CHIMERIC CHICKENS BY TRANSFER OF CULTURED PRIMORDIAL GERM CELLS

Primordial germ cells (PGCs) from stage 27 (5.5-day-old) Korean native ogol chicken embryonic germinal ridges were cultured in vitro for 5 days. As in in vivo culture, these cultured PGCs were expected to have already passed beyond the migration stage. Approximately 200 of these PGCs were transferred into 2.5-day-old white leghorn embryonic blood stream, and then the recipient embryos were incubated until hatching. The rate of hatching was 58.8% in the manipulated eggs. Six out of 60 recipients were identified as germline chimeric chickens by their feather colour. The frequency of germline transmission of donor PGCs was 1.3–3.1% regardless of sex. The stage 27 PGCs will be very useful for collecting large numbers of PGCs, handling of exogenous DNA transfection during culture, and for the production of desired transgenic chickens.     

Nitrotriazole(NTA)衍生物对中国仓鼠V_(79)细胞的辐射增敏作用

TA—101是一种亲水性三氮唑酰胺的衍生物.采用中国仓鼠V_(79)细胞,通过方便的形成克隆的方法评价了它的增敏活性,而且和Adams教授所赠送的MISO进行了比较.用~(60)CO7射线源照射,剂量率为0.936GY/min.增敏比(OER)由用药则无药时的存活曲线的D_(37)剂量计算.该实验的氧增比(OER)为2 5.接种效率为80±5%.TA—101的浓度为O.2,1.0和2.0mM时其 ERS,分别为1.49,2.05和2.3.实验结果表明0. 2mM TA—101无细胞毒性.TA—101的同类物即使使用5mM也未必察到明显毒性,因此TA—101.是一种有潜力的乏氧细胞辐射敏化剂.     

Nitrotriazole(NTA)衍生物对中国仓鼠V_(79)细胞的辐射增敏作用

TA—101是一种亲水性三氮唑酰胺的衍生物.采用中国仓鼠V_(79)细胞,通过方便的形成克隆的方法评价了它的增敏活性,而且和Adams教授所赠送的MISO进行了比较.用~(60)CO7射线源照射,剂量率为0.936GY/min.增敏比(OER)由用药则无药时的存活曲线的D_(37)剂量计算.该实验的氧增比(OER)为2 5.接种效率为80±5%.TA—101的浓度为O.2,1.0和2.0mM时其 ERS,分别为1.49,2.05和2.3.实验结果表明0. 2mM TA—101无细胞毒性.TA—101的同类物即使使用5mM也未必察到明显毒性,因此TA—101.是一种有潜力的乏氧细胞辐射敏化剂.     

SOME BIOCHEMICAL PROPERTIES OF CHINESE HAMSTER CELLS SENSITIVE AND RESISTANT TO ACTINOMYCIN D

A graded series of drug-resistant Chinese hamster sublines has been examined for biochemical changes accompanying resistance to actinomycin D. The most highly resistant subline, DC-3F/AD X, is maintained at 10 µg/ml of the antibiotic. It was shown that over 250 times more actinomycin D is required to inhibit RNA synthesis in this subline than in the parental DC-3F line. The DC-3F/AD X subline was also shown to have a somewhat reduced capacity to transport uridine as compared to parental cells. Sensitive cells took up over 50 times more tritiated antibiotic than the most resistant cells, as determined in a 1-h assay. Uptake of actinomycin D was shown to be temperature-dependent in both resistant and sensitive cells and was not influenced by various metabolic inhibitors. Resistance could not be explained by a rapid uptake and release of the antibiotic, as demonstrated in efflux experiments, or by its metabolism. In addition, highly resistant cells which are cross-resistant to puromycin were shown to have a reduced capacity to take up labeled puromycin. These studies provide further evidence indicating that the mechanism of resistance to actinomycin D is reduced permeability to drug and suggesting that cell membrane alteration accounts for resistance to both actinomycin D and puromycin.