An analysis of dorsal root ganglia differentiation using three tissue culture systems

Summary The histogenesis of the dorsal root ganglia of chick embryos (ages 3 to 9 days) was followed in three different tissue culture systems. Organotypic explants included dorsal root ganglia connected to the lumbosacral segment of the spinal cord or isolated explants of the contralateral ganglia. Additionally, dissociated monolayer cultures of ganglia tissue were established. The gradual differentiation of progenitor neuroblasts into distinct populations of large ventrolateral and small dorsomedial neurons was observed in vivo and in vitro. Neurites developed after 3 days in the presence or absence of nerve growth factor in the medium. In contrast, autoradiographic analysis indicates that [³H]thymidine incorporation in neuronal cultures differed significantly from intact embryos. In vivo, the number of neuronal progenitor cells labeled with [³H]thymidine decreased in older embryos; in vitro, uptake of [³H]thymidine label was not observed in ganglionic progenitor cells regardless of the age of the donor embryo or the type of culture system. Lack of proliferation in ganglionic progenitor cells was not due to degeneration because vital staining and uptake of [³H]deoxyglucose indicated that neurons were metabolically active. Furthermore, the block in mitotic activity in vitro was limited to presumptive ganglionic neuronal cells. In the ependyma of the spinal cord segment connected to the dorsal root ganglia, neuronal progenitor cells were heavily labeled as were non-neuronal cells within both spinal cord and ganglia. Our results suggest that in vitro conditions can promote the differentiation of sensory neurons from early embryos (E3.5–4.5) without proliferation of progenitor cells.     

The effect of culture density and proliferation rate on the expression of ouabain-sensitive Na/K ATPase pumps in cultured human retinal pigment epithelium

The number and activity of ouabain-sensitive Na/K ATPase pumps expressed by many cell types in vitro, including human retinal pigment epithelial cells (RPE), have been shown to decline with increasing culture density. Cell proliferation also declined as cultures became dense so it was unclear if pump number was modulated by cell proliferation or culture confluency. By exposing RPE cultures to various feeding regimens, using culture medium containing or lacking serum, it was possible to produce RPE cultures with a range of culture densities and growth rates. These were analyzed for proliferative activity by quantifying [3H]thymidine incorporation and for Na/K ATPase pump number by measuring specific [3H]ouabain binding. The results suggest that pump number is modulated by culture density and, further, that the density-dependent regulation of pump number requires serum. Although density-dependent modulation of culture growth is also serum requiring, cell proliferation and pump number did not appear to be related; cultures of similar density which differed significantly in growth rate had similar numbers of pumps. The view that elevated numbers of pumps were not necessarily found in proliferating cells was further supported by qualitative examination of radioautographs of cells dually labeled with [3H]thymidine and [3H]ouabain. Cycling cells which had [3H]thymidine-labeled nuclei did not have notably higher labeling with [3H]ouabain. However, [3H]ouabain labeling, as an indicator of pump site number and distribution, did vary among cells in an RPE population and also within individual cells. This latter observation suggests that unpolarized RPE cells in sparse cultures may have regionally different requirements for ionic regulation.     

Effect of insulin at dilution endpoint concentrations on macromolecular synthesis in normal mouse mammary and human breast cancer epithelial cells

Employing defined media conditions, the insulin sensitivities of mouse mammary gland epithelial cells in primary culture and MCF-7 human mammary epithelial cells were determined. Insulin stimulated the rates of [³H]uridine incorporation into RNA and [³H]leucine incorporation into protein in both primary mouse mammary gland epithelial cell cultures and MCF-7 cell cultures at concentrations approximating the dilution endpoint of the hormone (10⁻²¹ M). Insulin stimulated the rate of [³H]thymidine incorporation into DNA in primary mouse mammary gland epithelial cells at the dilution endpoint concentrations. However, MCF-7 cells required insulin concentrations 100–1000-times that necessary in mouse mammary epithelial cultures to elicit an increased rate of [³H]thymidine incorporation into DNA. Evidence is presented which suggests that the increased rates of uptake of [³H]uridine, [³H]thymidine and [³H]leucine into their respective precursor pools is not responsible for the apparent stimulatation of RNA, DNA and protein synthesis.     

The relationship between cell division and melanocyte differentiation in epidermal cultures from mouse embryos

Cultures of 14-day embryonic mouse epidermis that include melanoblasts initiate melanin synthesis 30 hr after plating, a schedule that is 2.5 days earlier than in vivo. In order to determine if the accelerated differentiation of melanoblasts is related to a cessation of cell proliferation in the cultures, a study of [³H]thymidine incorporation by melanoblasts and melanocytes was made. Autoradiograms of 14-day epidermal cultures grown for 48 hr in medium containing [³H]thymidine revealed that melanoblasts continue to proliferate during this time period. A second population of melanoblasts that did not incorporate [³H]thymidine was also present in these cultures. The relative numbers of dividing and nondividing melanoblasts change with the age of the epidermis cultured. Ninety-one percent of the melanoblasts in 13-day epidermis take up [³H]thymidine, 63% incorporate [³H]thymidine in 14-day cultures, and only 29% take up label in cultures of 15-day epidermis. It appears from these results that melanoblasts during their migration from the neural crest are proliferative cells and that during the early invasion of the epidermis a nonproliferative population of melanoblasts is established. Both populations coexist in the epidermis and subsequently undergo differentiation on the same time schedule.     

NuSerum,a synthetic serum replacement,supports chondrogenesis of embryonic chick limb bud mesenchymal cells in micromass culture

Summary In an effort to establish a more chemically defined culture system to study the regulation of chondrogenic differentiation in vitro, two commercially available serum replacements, NuSerum and NuSerum IV, were tested on embryonic limb mesenchyme. Limb bud (LB) mesenchymal cells were isolated from Hamilton-Hamburger stage 23–24 chick embryos and plated at various densities (1, 5, 10, or 20 × 10⁶ cells/ml) in micromass culture for 4 days in media supplemented with 10% fetal bovine serum (FBS), NuSerum or NuSerum IV. Cell growth was assessed by the incorporation of [³H]leucine and [³H]thymidine. Chondrogenesis was determined by the incorporation of [³⁵S]sulfate and by the number of Alcian blue-staining cartilage nodules. In high density (20 × 10⁶ cells/ml) cultures, which favored chondrogenic differentiation, both serum replacements supported protein synthesis and chondrogenesis equally well as FBS. In cultures plated at 5 × 10⁶ cells/ml, a cell density in which was chondrogenesis-limiting, both NuSerum and NuSerum IV significantly enhanced incorporation of [³⁵S]sulfate (2.6-fold), [³H]leucine (1.4-fold), and [³H]thymidine (1.9-fold), compared to FBS. Enhancement of chondrogenesis was also apparent by the increases in the number of Alcian blue-staining cartilage nodules and the ratio of sulfate: leucine incorporation in cultures plated at 5 × 10⁶ cells/ml. Interestingly, the localization of cartilage nodules was extended out to the periphery of micromass cultures fed with NuSerum or NuSerum IV. The observed effects of NuSerum and NuSerum IV may be attributed to a combination of factors, including lower concentrations of serum and its associated proteins, as well as supplemented growth factors and hormones known to promote cell proliferation and differentiation. Therefore, NuSerum and NuSerum IV are excellent, low-cost replacements for FBS in maintaining cellular growth and promoting chondrogenesis in LB mesenchymal cell cultures in vitro.     

Interferon inhibition of thymidine incorporation into DNA through effects on thymidine transport and uptake

Replenishment of medium after 72 hr of growth of HeLa-S3 cells in dense suspension cultures increased [³H]-thymidine uptake into cells and incorporation into DNA, with the levels reaching a peak ～ 12 hr following medium change; β interferon inhibits the enhanced uptake of [³H]-thymidine and labeling of DNA in a dose-dependent manner. Some reduction in these processes is observed at a concentration as low as 1 u/ml, and ～ 75% inhibition at 640 u/ml. Kinetic analysis has revealed that the rate of labeling of the acid-soluble pool with [³H]-thymidine, measured either at 22°C, or 37°C, is reduced in interferon-treated (640 u/ml, 24 hr) HeLa-S3 cells. At 22°C, the initial rate of thymidine transport at a high (500 μM) thymidine concentration, determined within the first 30 sec of [³H]-thymidine addition was depressed by 44% in interferon-treated HeLa cells. At 37°C, labeled precursors accumulate in acid-soluble material for ～ 8 min after the addition of [³H]-thymidine, after which an apparent equilibrium level is attained. At this temperature, the rate of thymidine uptake and the apparent equilibrium level attained were depressed by 70% in interferon-treated HeLa cells. The reduced incorporation of [³H]-thymidine into DNA in interferon-treated HeLa-S3 cells can be largely explained by interferon inhibition of thymidine transport and phosphorylation.     

QUANTIFICATION OF ENTRY INTO AND EXIT FROM THE CELL CYCLE IN HUMAN LYMPHOCYTE CULTURES

A mathematical model is presented for the analysis of transition between cycling and non-cycling compartments by cells responding to a growth stimulus. the cellular age distribution as a function of time is derived from sequential [³H]thymidine pulse labeling indices. Rates of entry into and exit from the cycling compartment are determined on the basis of labeling indices obtained after instantaneous and long duration [³H]thymidine pulses. Analysis of an experiment involving sequential measurements over the whole lifespan of a human lymphocyte culture stimulated by phytohemagglutinin is presented as an example of the application of this method.     

Ligand-dependent modulation of membrane phospholipid metabolism in ConA-stimulated lymphocytes

Human peripheral lymphocytes were activated by ConA in serum-free culture medium, supplemented by BSA. Incorporation of [³H]thymidine into DNA, of [³H]uridine into RNA and of oleate or acetate into membrane phospholipids was investigated. DNA synthesis could be completely inhibited by αMM or by anti-ConA-IgG. Fab and F(ab)₂ fragments of the anti-ConA were equally active. When αMM or anti-ConA was added to cultures at different times after stimulation with ConA, incorporation of [³H]thymidine into DNA (measured after 72 h) could be prevented up to 6–8 h completely and up to 20–30 h partially. Incorporation of [³H]uridine into RNA could be arrested at any time of the culture up to 40 h at the level it had reached but did not reverse to the level of unstimulated cells for a long time. In contrast, incorporation of oleate into lecithin returned to the level of unstimulated cells within 2–3 h after removal of ConA. This suggests that the activation of the phospholipid turnover in stimulated cells is a direct consequence of the presence of the mitogen at the membrane and thus may be a critical initial event in lymphocyte activation.     

[3H]thymidine incorporation in bovine lymphocytes treated with the tumor promoter, 12-O-tetradecanoyl phorobol-13-acetate

Treatment of bovine lymph node lymphocytes with the tumor promoter, 12-O-tetradecanoyl phorbol-13-acetate (TPA) leads to depressed [³H]thymidine incorporation in response to phytohemagglutinin (PHA). Radioautographic and morphological analyses showed that depression was at the level of blast-cell formation. Isotope-dilution experiments, and the use of [³H]deoxycytidine to label DNA indicated that the inhibition was not due to a block in thymidine transport in the treated cells. These experiments, as well as a bioassay designed to measure thymidine in the culture medium, showed that the apparent inhibition of [³H]thymidine incorporation and DNA synthesis was not the result of production of cold thymidine in the cultures. The results taken together support the idea that most TPA-treated cells are inhibited from responding to the mitogenic lectins. Those cells which do respond appear to form blast cells and synthesize DNA at the same rate as do untreated cells.     

[H]thymidine incorporation in bovine lymphocytes treated with the tumor promoter, 12-O-tetradecanoyl phorobol-13-acetate

Treatment of bovine lymph node lymphocytes with the tumor promoter, 12-O-tetradecanoyl phorbol-13-acetate (TPA) leads to depressed [³H]thymidine incorporation in response to phytohemagglutinin (PHA). Radioautographic and morphological analyses showed that depression was at the level of blast-cell formation. Isotope-dilution experiments, and the use of [³H]deoxycytidine to label DNA indicated that the inhibition was not due to a block in thymidine transport in the treated cells. These experiments, as well as a bioassay designed to measure thymidine in the culture medium, showed that the apparent inhibition of [³H]thymidine incorporation and DNA synthesis was not the result of production of cold thymidine in the cultures. The results taken together support the idea that most TPA-treated cells are inhibited from responding to the mitogenic lectins. Those cells which do respond appear to form blast cells and synthesize DNA at the same rate as do untreated cells.     

[3H]Thymidine Incorporation To Estimate Growth Rates of Anaerobic Bacterial Strains

The incorporation of [³H]thymidine by axenic cultures of anaerobic bacteria was investigated as a means to measure growth. The three fermentative strains and one of the methanogenic strains tested incorporated [³H]thymidine, whereas the sulfate-reducing bacterium and two of the methanogenic bacteria were unable to incorporate [³H]thymidine during growth. It is concluded that the [³H]thymidine incorporation method underestimates bacterial growth in anaerobic environments.     

Primary cultures of heart cells from the scallp Pecten maximus (mollusca-bivalvia)

Summary Primary cultures of Pecten maximus heart cells, isolated by an enzymatic procedure, were routinely obtained with a high level of reproducibility in a simple medium based on sterile seawater. Cells attached to the plastic substratum without the need to add a special factor. The number of adhering cells gradually increased with the time of culture. Two types of adhering cells were observed: epitheliallike cells and fibroblastlike cells, which were more numerous. The latter cells were identified as myocytes by electron microscopy and immunofluorescent staining. Results obtained by autoradiography, after incorporation of [¹⁴C]leucine, [³H]thymidine, and [¹⁴C]acetate, confirmed functional activity of the cells. These cultures were maintained viable in vitro during at least 1 mo.     

Stimulation of albumin synthesis in mouse hepatoma cells by Bt2cAMP: cell cycle specificity

Addition of 1 mm dibutyryl cyclic AMP (Bt₂cAMP) to cultures of mouse hepatoma cells, Hepa, specifically stimulates the synthesis of serum proteins including albumin. This stimulation is accompanied by an inhibition of cell proliferation. We have investigated these phenomena in synchronous cultures of Hepa. Proliferation of Hepa was arrested by isoleucine starvation. Synchronous growth was initiated by addition of complete growth medium or complete growth medium supplemented with 1 mm Bt₂cAMP. S phase and mitosis were estimated by determinations of [³H]thymidine incorporation and by cell numbers. The rate of albumin synthesis relative to total protein synthesis was measured by pulse labeling cultures for 30 min with [³H]leucine and comparing amounts of immunoprecipitable label with trichloroacetic acid-precipitable label. Treatment of synchronous cultures with Bt₂cAMP did not alter the duration of S phase or the onset of mitosis. The relative rate of albumin synthesis in Bt₂cAMP-treated culture began increasing after mitosis. The timing of the Bt₂cAMP stimulation of albumin synthesis was further investigated by adding Bt₂cAMP to cultures of Hepa at various times after the initiation of synchronous growth. The relative rate of albumin synthesis was then measured at a fixed postmitotic time. An increased relative rate of albumin synthesis was observed only in cultures exposed to Bt₂cAMP before or during S phase. Thus the postmitotic increase in the synthesis of albumin requires the presence of Bt₂cAMP during S phase.     

Effects of inhibition of protein synthesis on DNA replication in cultured mammalian cells

We have investigated the effects of inhibiting protein synthesis on the overall rate of DNA synthesis and on the rate of replication fork movement in mammalian cells. In order to test the validity of using [³H]thymidine incorporation as a measure of the overall rate of DNA synthesis during inhibition of protein synthesis, we have directly measured the size and specific radioactivity of the cells' [³H]dTTP pool. In three different mammalian cell lines (mouse L, Chinese hamster ovary, and HeLa) nearly complete inhibition of protein synthesis has little effect on pool size (±26%) and even less effect on its specific radioactivity (±11%). Thus [³H]thymidine incorporation can be used to measure accurately changes in rate of DNA synthesis resulting from inhibition of protein synthesis.Using the assay of [³H]thymidine incorporation to measure rate of DNA synthesis, and the assay of [¹⁴C]leucine or [¹⁴C]valine incorporation to measure rate of protein synthesis, we have found that eight different methods of inhibiting protein synthesis (cycloheximide, puromycin, emetine, pactamycin, 2,4-dinitrophenol, the amino acid analogs canavanine and 5-methyl tryptophan, and a temperature-sensitive leucyl-transfer tRNA synthetase) all cause reduction in rate of DNA synthesis in mouse L, Chinese hamster ovary, or HeLa cells within two hours to a fairly constant plateau level which is approximately the same as the inhibited rate of protein synthesis.We have used DNA fiber autoradiography to measure accurately the rate of replication fork movement. The rate of movement is reduced at every replication fork within 15 minutes after inhibiting protein synthesis. For the first 30 to 60 minutes after inhibiting protein synthesis, the decline in rate of fork movement (measured by fiber autoradiography) satisfactorily accounts for the decline in rate of DNA synthesis (measured by [³H]thymidine incorporation). At longer times after inhibiting protein synthesis, inhibition of fork movement rate does not entirely account for inhibition of overall DNA synthesis. Indirect measurements by us and direct measurements suggest that the additional inhibition is the result of decline in the frequency of initiation of new replicons.     

HUMAN VASCULAR ENDOTHELIAL CELLS IN CULTURE : Growth and DNA Synthesis

Human endothelial cells, obtained by collagenase treatment of term umbilical cord veins, were cultured using Medium 199 supplemented with 20% fetal calf serum. Small clusters of cells initially spread on plastic or glass, coalesced and grew to form confluent monolayers of polygonal cells by 7 days. Cells in primary and subcultures were identified as endothelium by the presence of Weibel-Palade bodies by electron microscopy. A morphologically distinct subpopulation of cells contaminating some primary endothelial cultures was selectively subcultured, and identified by ultrastructural criteria as vascular smooth muscle. Autoradiography of endothelial cells after exposure to [³H]thymidine showed progressive increases in labeling in growing cultures beginning at 24 h. In recently confluent cultures, labeling indices were 2.4% in central closely packed regions, and 53.2% in peripheral growing regions. 3 days after confluence, labeling was uniform, being 3.5 and 3.9% in central and peripheral areas, respectively. When small areas of confluent cultures were experimentally "denuded," there were localized increases in [³H]thymidine labeling and eventual reconstitution of the monolayer. Liquid scintillation measurements of [³H]thymidine incorporation in primary and secondary endothelial cultures in microwell trays showed a similar correlation of DNA synthesis with cell density. These data indicate that endothelial cell cultures may provide a useful in vitro model for studying pathophysiologic factors in endothelial regeneration.     

Role of serum and hormones during the growth and development of rat mammary tumor epithelial cells in collagen gel culture

Summary The characteristics of hormone-dependent rat mammary tumors in response to serum and hormones were determined in collagen gel matrix culture. Epithelial cells from 7,12-dimethylbenz[a]anthracene (DMBA)-induced mammary adenocarcinomas were embedded in collagen gel and the effect of estrogen, progesterone, prolactin, insulin, and serum was tested. The total cell number and [³H]thymidine incorporation were used to determine the growth pattern of the cells in culture. It was found that in medium containing 20% porcine serum and supplemented with insulin, estrogen, progesterone and prolactin, both the cell number and [³H]thymidine labeling index increased with time, after an initial lag. Serum seemed to be essential to maintain growth of the tumor cells, because hormones alone, in the absence of serum, were unable to sustain growth of the cells. When estrogen, progesterone, prolactin, and insulin were tested individually in the presence of 20% porcine serum, only estrogen demonstrated a significant stimulatory effect.     

Steroidal and growth factor regulation of [3H]thymidine incorporation by cultured endosalpingeal cells of the bovine oviduct

Summary Cultured cells from the bovine endosalpinx were used to evaluate effects of estradiol-17β, progesterone, epidermal growth factor, and insulinlike growth factors I and II on [³H]thymidine incorporation. Cells were treated with hormones and growth factors when approximately 50% confluent. After 24 h, DNA synthesis was quantified by pulsing cells with [³H]thymidine for 12 h and determining uptake into DNA. Cells prepared by mechanical dispersal incorporated more [³H]thymidine than cells dispersed with collagenase. However, hormonal responses were the same for both types of cells. As compared to plastic, cells on a Matrigel substratum exhibited lower incorporation of [³H]thymidine and were unresponsive to hormones. Estradiol-17β increased [³H]thymidine incorporation slightly at 10⁻¹⁰ mol/liter and higher. Epidermal growth factor, insulinlike growth factor-I, and insulinlike growth factor-II also stimulated [³H]thymidine incorporation. Effects of insulinlike growth factor-I were greater for cells treated with estradiol-17β. In the absence of estradiol, progesterone inhibited [³H]thymidine incorporation at 1, 10, and 100 ng/ml. When estradiol-17β was present, progesterone stimulated [³H]thymidine incorporation at 1 ng/ml and reduced incorporation at 100 ng/ml. In conclusion, [³H]thymidine incorporation by cultured oviductal endosalpingeal cells can be regulated by ovarian steroids and growth factors. These molecules may represent signals through which the ovary, embryo, and oviduct regulate oviductal growth. Work conducted while on a sabbatical leave supported by the Deutsche Forschungsgemeinschaft.     

Endogenous Regulation of Endothelial Cell Proliferation

Bovine aortic endothelial cells (BAEC) in culture have the ability to regulate their own proliferation. We have found that a fraction below 100,000 daltons obtained from the media of confluent cultures of BAEC inhibits tritiated thymidine [³H]TdR incorporation as well as their proliferation. the inhibition is dose- and time-dependent; maximum inhibition of [³H]TdR incorporation occurs 8 hr after cells are released from synchronization and the inhibitory fraction is added. Inhibition is evident at concentrations as low as 50 μg/ml and reaches a maximum at 600 μg/ml. the blockage of [³H]TdR incorporation is reflected in the inhibition of cell proliferation. In the presence of 400 μg of endogenous inhibitor per ml of media, added at the time of plating, the average population doubling time increases from 19 to 41 hr. These findings indicate that, in culture, BAEC can regulate their own proliferation by synthesizing an endogenous inhibitor(s) of proliferation.     

Alterations of the incorporation of [3H]thymidine in cells in culture regulated by nucleoplasmic extract

Porcine skin nucleoplasmic extract (PSNE) was shown to alter the incorporation of [³H]thymidine into DNA of selected porcine, bovine, and human cell populations in culture. PSNE stimulated incorporation of [³H]thymidine into DNA of porcine and bovine dermal cells an average of 300 and 200% of control value, respectively. When porcine and bovine epidermal cells were exposed to PSNE the treatment inhibited [³H]thymidine incorporation into DNA by an average of 48 and 45%, respectively. Similar inhibitions were observed for porcine and bovine kidney, porcine lung, and human KB cells. Thus, the effect of PSNE on the incorporation of [³H]thymidine into DNA of various cultured cells was either stimulatory to dermal cells or inhibitory to a variety of other cell types, including skin epidermal cells. The stimulatory and inhibitory effects of PSNE were abolished by heating PSNE for 5 min in boiling water before its addition to cell cultures. This suggests that macromolecular structure is important in the action of PSNE. This project was supported by a grant from the Research Advisory Board, University of Nevada, Reno, NV.     

Proliferative capacity of cell cultures derived from the human placenta

Summary The placenta consists largely of fetal tissue, yet at term it displays histological signs of deterioration not apparent in the fetus. To determine whether the apparent degeneration of the placenta is genetically determined, the life-spans of placental cell cultures and the proportion of placental cells capable of incorporating [³H]thymidine for replicative DNA synthesis in vitro were measured. Under the culture conditions employed, the placental cells were removed from the influence of many extrinsic factors thought to play a role in the degeneration of the placenta in vivo. Cultures of fibroblast-like cells derived from the placenta exhibited a reduced life-span and correspondingly reduced proportion of cells able to incorporate [³H]thymidine for DNA synthesis in comparison to cultures derived from the fetal skin and the maternal decidua. These results suggest that intrinsic cellular processes may be involved in the apparent degeneration of the placenta. This work was supported by an NIH postdoctoral fellowship (R. A. V.) and grants from the National Institutes of Health, and the National Foundation/March of Dimes.