Kinetic analysis of megakaryocyte numbers and ploidy levels in developing colonies from mouse bone marrow cells

Abstract. The kinetics of megakaryocyte formation from mouse bone marrow cells in semi-solid medium was studied directly in the culture dish by staining the cells for acetylcholinesterase after drying the cultures. A WEHI-3 cell-conditioned medium (WEHI-3 CM) was used as a general source of stimulus for megakaryocyte colony formation. The addition of peritoneal exudate supernatant as well as WEHI-3 CM increased the frequency of megakaryocyte colonies detected. Colonies containing acetylcholinesterase-positive cells were first detected at day 3. Maximum numbers of 25–40 megakaryocyte colonies per 10⁵ nucleaet mouse bone marrow cells were observed from days 7 to 11. The mean number of cells within each colony increased progressively with time of culture, and a modal range of 11–20 cells was obtained by day 7. Between 3 and 200 cells per colony were generally detected. A continuous distribution of the number of megakaryocytes per colony suggests that the clonable precursor cells are not synchronized either with respect to maturation stage or with respect to their capability to undergo nuclear endoreduplication. The addition of peritoneal exudate supernatant to the cell cultures increased the DNA levels of megakaryocytes grown in the presence of WEHI-3 CM but did not affect the number of cells per colony. The DNA content of colony megakaryocytes was measured after staining the cells with Feulgen reagent. A modal DNA value of 8 N was observed between days 4 and 7 for megakaryocytes stimulated with WEHI-3 CM. In the presence of both WEHI-3 CM and peritoneal exudate supernatant, the DNA content of megakaryocytes increased with the time of cell culture. Modal DNA values increased from 8 N at days 4 and 5, to 16 N by day 6. In these optimally stimulated cultures, 44% of colony megakaryocytes were 32 N or greater, a proportion higher than in normal bone marrow, but similar to that seen in the marrow of acutely thrombocytopenic animals. It is concluded that megakaryocytopoiesis in cell cultures is not a strictly controlled process with respect to cell division and endomitosis and that when certain culture conditions are employed, megakaryocyte development in vitro might reflect that seen in a stressed animal condition.     

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.     

Myxococcal predation of the cyanobacterium Phormidium luridum in aqueous environments

Two strains of Myxococcus xanthus, and a strain of Myxococcus fulvus were compared with respect to their ability to entrap and lyse trichomes of the cyanobacterium Phormidium luridum var. olivaceae. All of these isolates form colonial aggregates and spherules in either axenic culture with a tryptone-salts medium or in a mixed culture with viable cyanobacterial cells as the sole source of nutrients. Light microscopy showed evidence of swarming activity on the surface of all three myxococci with the accompanying formation of fruiting structures. Extended incubation of mixed cultures showed the myxococci to be capable of long-term control of the cyanobacterial population with predator-prey population cycling occurring on average every 9 days. Serial transfer of mixed cultures into either fresh autotrophic medium or cyanobacterial cultures of 10⁷ per ml showed the persistence of predatory activity. Myxococcal densities were shown to return repeatedly to initial virulent levels. Predator inoculum levels could be reduced to 50 cells per 100 ml in a cyanobacterial culture of 10⁷ per ml. These in vitro data enhance the potential of the myxococcus predatory colony as a biological control agent for in situ cyanobacteria.     

Accumulation of Extracellular Amino Acids by Euglena gracilis

SYNOPSIS. Normal Euglena gracilis , strain z, growing in the light in defined medium (initial nitrogen concentration 140 μ/ml) depletes the medium of all ninhydrin-positive N by the time a cell density of 2 million per ml is reached. A further 2- to 3-fold increase in the cell number takes place in the absence of exogenous N. The N content of an early log phase cell is about 100 picograms but decreases very rapidly as the culture continues to grow, reaching 22 picograms in the stationary phase. When grown in the dark, normal cells take up N somewhat more slowly but the supernatant fluid from saturation cultures is again devoid of N.
At modest cell densities, the permanently bleached strains examined contain less N per cell than do normal strains. The cultures of the bleached strains achieve a maximum density of about 1 to 2 million per ml rather than the 4 to 5 million reached by the normal strain. As a result, supernates from stationary phase cultures of bleached cells still contain a large proportion of the total N supplied.
Paper chromatographic analysis of these supernates reveals several ninhydrin-positive compounds. Most of these have been identified as common amino acids. Some of the properties of two unidentified, ninhydrin-positive compounds are described.     

In vitro induction of numerical changes in the karyotype of normal and transformed Djungarian and Chinese hamster cells]

The comparative study of the frequency of colcemid-induced aneuploidy and polyploidy in cultured normal and transformed cells of Djungarian hamster is described. The occurrence of variants with changed chromosome number is much higher in populations of SV40-transformed cell line (4/21) than in normal embryonic cultures. In transformed lines of Djungarian and Chinese hamsters (4/21 and V-79) the frequency of cells with changed chromosome number was found to be dependent on the culture density: the percentage of polyploids was 4-5-fold higher when the number of seeded cells was 2-fold lower. The highest number (18-29%) of hypermodal cells was produced at drug concentrations of 0.02-0.025 mkg/ml. The percengate of polyploids under these conditions reached 10-20. At further increase of colcemid concentrations the proportion of polyploid cells increased. In Djungarian hamster embryonic cell cultures there were single cells with changed chromosome numbers at a concentration of the drug of 0.015-0.1 mkg/ml.     

Survival of Tetrahymena thermophila at Low Initial Cell Densities. Effects of Lipids and Long-Chain Alcohols

ABSTRACT. Cells of the ciliate Tetrahymena thermophila failed to establish cultures in lipid-free standard synthetic nutrient medium if the initial population density was 250 cells per ml or less. These cells died within 10 h, but were saved and formed dense cultures if their medium was supplemented with 10 μg per ml of either certain phospholipids, 1,2-di-, 1-monoglycerides, fatty acids, long-chain alcohols, or sterols. Cell multiplication was followed in cultures in which the standard synthetic medium was supplemented with a selection of the compounds listed above. It was observed that the cells in the supplemented cultures in their exponential phases of growth had about the same average doubling times as control cells starting multiplication at 10-fold higher initial cell densities in lipid-free medium. These cells have been grown for decades in lipid-free synthetic nutrient media at short (ca. two-three h) doubling times. Therefore lipids have been considered nutritionally non-essential for growth and multiplication of these cells. We propose that those compounds that rescue the cells at low cell densities act as "proliferation signals," sensu lato . This effect of lipids and long-chain alcohols has so far remained unnoticed.     

Studies on the control of cell division in a green alga, Ankistrodesmus gracilis (Chlorococcales) III. Induction synchrony with controlled division patterns

When stagnant cells of Ankistrodesmus gracilis obtained froma standard culture were inoculated into the basal medium atcell densities lower than 1.0 ? 10⁷ cells/ml, cell proliferationoccurred stepwise at time intervals of about 30 hr. At a densityof 5.5 ? 10⁴cells/ml, the increase in cell number per step wasabout 2.7-fold. When inoculated into a glutamine medium thetime interval was 24 hr, and the average increase of cell numberwas about 4-fold. When cells were preincubated at about 5.0? 10⁵ cells per ml in the basal medium for 30 hr, then transferredinto a glutamine or arginine medium at about 7.0 ? 10⁶ cells/ml,synchronous division occurred about 18 hr later with binaryfission or about 33 hr later with multiple fission, respectively. (Received May 16, 1979; )     

Genetic study of the resistance of mouse somatic cells to colchicine (high resistance level)

The studies of the high level of colchicine resistance of mouse L cells have shown that two mutagens (EMS and NMM) do not induce cell variants resistant to 8 microgram/ml of colchicine in the population of mouse heteroploid L-53 cells (subline of L cells, the level of colchicine resistance 140) and that colchicine resistance of L-53 cells gradually diminishes when cells are propagated in non-selective conditions: after 1 month it diminishes 2-fold, after 3 month--9-fold. The extent of the decrease of the drug resistance was the same in 6 independent cultures obtained from the inoculum of 200 cells and in control cultures propagated by large quantities of cells. These data coincide with the results of the previous studies of lower level of colchicine resistance. In both studies the frequency of the occurrence of colchicine resistant variants in selective medium was about 2.10(-4). These data are consistent with the hypothesis that colchicine resistance of mouse L cells is not due to a gene mutation.     

Quantification of cell culture factors affecting recombinant protein yields in baculovirus-infected insect cells

An experimental study was undertaken to quantify the effects of infection cell density, medium condition, and surface aeration on recombinant protein yields in insect cells. In the absence of surface aeration and fresh medium, insect cells generated higher product yields (on a per cell basis) when infected with recombinant baculovirus at low cell densities, LCD (3 x 10(5)-4 x 10(5) cells/mL), than at high cell densities, HCD (>0.9 x 10(6) cells/mL), for two distinct baculovirus types. Surface aeration of a HCD culture infected in spent medium improved beta-glactosidase yields 5-fold over the nonaerated case. Surface aeration and medium replenishment improved beta-galactosidase yields of a HCD culture by 20-fold (compared to a 1.6-fold improvement for a LCD culture), resulting in cultures with productivties that were independent of the cell density at infection.     

Characterization of the growth responses of hamster fibroblasts and chondrogenic cells to fibroblast growth factor

The effects of fibroblast growth factor (FGF) on hamster dermal fibroblasts and chondrogenic cells, both of mesodermal origin, were compared with special reference to growth stimulation and morphological changes in monolayer cultures, and colony formation in semisolid medium. FGF (10 to 200 ng/ml) caused appreciable cell proliferation of dermal fibroblasts but not of chondrogenic cells, while FGF (50-200 ng/ml) caused very marked dose-dependent morphological changes in monolayer cultures and colony formation in semisolid medium of both fibroblasts and chondrogenic cells. It is suggested that FGF is the same type of growth factor as the transforming growth factor(s) because, like the latter, it induces drastic morphological changes of normal mesodermal cells in monolayer cultures and their colony formation in semisolid medium.     

Plant regeneration from protoplasts of <Emphasis Type="Italic">Musa acuminata</Emphasis> cv. Mas (AA) via somatic embryogenesis

A protocol for plant regeneration from protoplasts of Musa acuminata cv. Mas (AA) via somatic embryogenesis was developed. Viable protoplasts were isolated from embryogenic cell suspensions at a yield of 1.2 × 10⁷ protoplasts/ml packed cell volume (PCV). Liquid and feeder layer culture systems with medium-A and medium-B were used for protoplast culture. In liquid culture system, medium-B was more efficient for inducing cell division (17.5% at 14 days) and colony formation (6.7% at 28 days) than medium-A. However, all protoplast-derived cell colonies (PDCC) obtained from liquid culture system could not develop further. In feeder layer culture system, there was no significant difference between medium-A and medium-B on cell division and colony formation of the cultured protoplasts, and the cell division frequency at 14 days and colony formation frequency at 28 days were 24.5% and 11.2%, respectively, in medium-B. Comparative study on the effects of BAP (2.2 μM, 4.4 μM, 8.8 μM), zeatin (0.4 μM, 0.8 μM, 1.2 μM) and TDZ (0.2 μM, 0.4 μM, 0.6 μM) on embryo formation of PDCC from feeder-layer culture indicated that TDZ was best. TDZ at 0.4 μM induced 7906 mature embryos per ml PCV PDCC, which was 4-fold the frequency as with BAP at 4.4 μM, 7.5-fold as with zeatin at 0.8 μM and 150-fold as control medium (no mentioned cytokinins) after 45 days on M3 medium. About 44% of the mature embryos were converted into plantlets with poor root system after subculture on M4 medium. Root further development of regenerated plantlets was promoted by addition of activated charcoal (AC) to MS basal medium.     

The effects of incubation of marrow in tissue fragments in vitro on the growth of adherent cells from this marrow

Femoral marrow was either cultured as a single cell suspension immediately following collection from the donor mouse or following 4 day incubation in vitro of the whole marrow shaft. Several parameters of growth of adherent, i.e. composed of fibroblastoid cells and macrophages, colonies were determined following 14 day culture in Dulbecco medium at 37 degrees C. These included: number and diameter of macroscopic colonies, number of macrophages per fibroblastoid cell inside the colonies and per eyefield in intercolony spaces, number of cells in supernatant from the culture. The 4 day incubation of marrow fragments in vitro (Dulbecco medium, 37 degrees C) doubled the number of adherent colonies grown from this marrow and, moreover, the colonies formed were increased in size. Other parameters of cell growth in these cultures were unchanged. These data suggest that under conditions of in vitro incubation of marrow shaft (close cell-to-cell contact) marrow fibroblastoid colony forming units (MF-CFU) are stimulated to self-renewal.     

Altered growth properties of normal human cells induced by phorbol 12,13-didecanoate

The tumor promoter phorbol 12,13-didecanoate (PDD) significantly altered the growth properties of early passage normal human skin cells in vitro in culture medium supplemented with elevated concentrations of selected amino acids. Continuous treatment of cells with 10(-7) or 10(-8) M PDD resulted in a 5 to 10-fold increase in saturation density at early passages followed by a long-term two- to fourfold increase. The PDD-treated cultures remained in exponential growth at cell densities greater than 10-fold higher than the control cultures. Removal of PDD from the culture medium while the cells were at a high cell density resulted in a return to near-normal saturation density by the subsequent passage. Anchorage independent growth of normal human cells in methylcellulose was also promoted by PDD in a dose dependent manner, with prior subculturing in the presence of PDD being required for maximal colony formation. The structural analog 4 alpha-phorbol 12,13-didecanoate failed to elicit similar cellular responses.     

Evaluation of the new serum-free medium (MDSS2) for the production of different biologicals: Use of various cell lines

The presence of serum in cell culture raises safety problems for the production of biologicals, thus a new serum-free medium (MDSS2) was developed. The evaluation of this medium for the growth of different cell lines (BHK-21 C13, BSR and Vero) has shown that cells grew in this medium similarly to standard serum-containing medium, independently of the culture system used: in static (as monolayer) as well as in agitated systems (in suspension in spinner and perfusion reactors). BHK-21 and BSR cells grew as aggregate cultures and could proliferate in both static and agitated culture systems. Vero cells stayed attached to a substrate and proliferated equally in static and in agitated microcarrier-culture systems. The cell densities obtained with BHK-21 cells depended only on the culture system used. They ranged from 2–3×10⁶ to 6–12×10⁶ cells per ml for static batch and perfusion reactor cultures respectively. The cell concentration was 3 to 6 times higher than in classical cultures performed in serum-containing medium. The cell densities obtained with Vero cells were indistinguishable from those obtained in serum-containing medium, whatever the cell culture system used. These cell lines have been used for the production of rabies virus. With respect to BHK-21 and BSR, similar production rates of rabies glycoprotein have been found as in the standard roller bottle process. The production of rabies virus and of viral glycoprotein by Vero cells cultivated in serum-free medium was augmented 1.5-fold and 2.5-fold, respectively, when compared to serum-containing medium.A recombinant BHK-21 cell line, producing human IL-2, can also proliferate in MDSS2, after addition of insulin. The specific IL-2 production rate was augmented 3–4 fold in comparison to serum-containing medium.For the cells tested, the MDSS2 serum-free medium is a good growth and production medium. Its use for cultivating other cell lines and/or for the production of other biologicals is discussed.     

Conditions increasing the adrenergic properties of dissociated chick superior cervical ganglion neurons grown in long-term culture

Neurons dissociated from the embryonic chick superior cervical ganglion (SCG) were separated from ganglionic nonneuronal cells using a density gradient formed with Percoll. The sympathetic neurons were then grown for 3-4 weeks in serum containing medium on a polyornithine substrate precoated with heart-conditioned medium. Both catecholamine (CA) and acetylcholine (ACh) are synthesized and accumulated by these neurons, but the amount of CA is higher and increases much more over time in culture than the amount of ACh. The cultures become therefore more adrenergic with time. We report here that the adrenergic properties of these cells can be enhanced. A 3-fold increase in CA synthesis, as expressed on a per neuron basis, is obtained by increasing neuron cell density 3- to 4-fold. ACh synthesis, however, is decreased at high neuronal density. Optimal CA production is obtained at densities of 120-150,000 neurons/cm2. This effect is due to direct cell contact since it cannot be transferred to low density cultures by medium conditioned by high density cultures. Nerve growth factor concentrations 5-10-fold higher than the amount necessary for optimal neuronal survival (1 microgram/ml 7S NGF) increases CA production but do not affect ACh synthesis. This effect is highest at low plating densities (20-30,000 neurons/cm2, 10-fold increase) and progressively decreases with increasing neuronal density. No increase is obtained in high density cultures where CA production is maximal. In addition, we made the novel observation that medium conditioned by chick liver cells in culture (LCM) increases CA production approximately 4-fold, whereas it does not increase ACh production by the SCG neurons. Work is in progress to biochemically characterize the active component(s) present in the LCM and to determine whether they favor the survival of a subpopulation of adrenergic neurons possible present in these ganglia. Alternatively, the adrenergic differentiation of neurons initially capable of synthesizing both CA and ACh could be selectively increased by LCM.     

Cell growth optimization in microcarrier culture

Summary Three monkey kidney cell lines and primary chicken embryo cells were grown in microcarrier culture. The carrier support was DEAE-Sephadex gel beads at low anion exchange capacity prepared according to a protocol developed at the Massachusetts Institute of Technology. The growth rate of the cells and the final cell density in microcarrier culture was dependent on the concentration of the beads in culture and on the size of the initial cell inoculum. A bead concentration of 1.0 to 2.0 mg of beads/ml of tissue culture medium and a cell inoculum of 20,000 cells/cm² of bead surface appeared to be optimal. The efficiency of the microcarrier culture system was compared to that of stationary and roller bottle cultures. Stationary flasks gave cell densities about twofold higher than maximal densities in roller bottles and about threefold and twofold higher than cell densities in microcarrier culture at a bead concentration of 2.5 and 1.0 mg/ml, respectively. In terms of cell yield per millitier of tissue culture medium, the microcarrier culture was superior to roller bottle and stationary cultures. An advantage of the microcarrier culture system is its suitability for a scale up into large volume production units.     

Shed Pollen Culture in Hordeum vulgare

Anthers of Hordeum vulgare cv. Sabarlis at the mid-unicellularpollen stage, pretreated in the excised spike for 14 d at 7°C, dehisce within 24 h of being floated on the surfaceof liquid medium. About half the pollen (1500 grains per anther)is liberated into the medium. If the anthers are then removedand the cultures re-incubated, calluses develop from the shedpollen in high yields. At low anther densities, 10p–20(1–3 x 10⁴ grains) per ml, medium preconditioned by anthersand supplemented with m-inositol (1000 mg 1^–1) is required,but at high densities, 120 anthers (2 x 10⁵ grains) per ml,preconditioning is less important, the cultured anthers themselveshaving a sufficient conditioning influence. Large-scale dissectionof anthers can be avoided by use of drops of medium, the volumebeing increased gradually as culture proceeds. Pollen remainingin the anthers after 3 d gives rise to calluses if isolatedmechanically and cultured in the inositol medium. The use ofshed pollen is seen as particularly valuable for culture inspecies whose anthers are small, tedious to dissect out anddifficult to process without severe damage.     

Cell growth optimization in microcarrier culture

Three monkey kidney cell lines and primary chicken embryo cells were grown in microcarrier culture. The carrier support was DEAE-Sephandex gel beads at low anion exchange capacity prepared according to a protocol developed at the Massachusetts Institute of Technology. The growth rate of the cells and the final cell density in microcarrier culture was dependent on the concentration of the beads in culture and on the size of the initial cell inoculum. A bead concentration of 1.0 to 2.0 mg of beads/ml of tissue culture medium and a cell inoculum of 20,000 cells/cm2 of bead surface appeared to be optimal. The efficiency of the microcarrier culture system was compared to that of stationary and roller bottle cultures. Stationary flasks gave cell densities about twofold higher than maximal densities in roller bottles and about threefold and twofold higher than cell densities in microcarrier culture at a bead concentration of 2.5 and 1.0 mg/ml, respectively. In terms of cell yield per milliliter of tissue culture medium, the microcarrier culture was superior to roller bottle and stationary cultures. An advantage of the microcarrier culture system is its suitability for scale up into large volume production units.     

Influence of hydrocortisone on the survival and cluster and colony forming characteristics of normal human granulocyte-macrophage progenitors

This study was performed to determine the colony and cluster forming ability of granulocyte-macrophage (CFU-GM) progenitors of normal human blood low density cells cultured in a liquid culture system in the presence and absence of physiological doses of hydrocortisone (Hc). The CFU-GM recovered from the liquid cultures were assayed in soft agar medium. The results of the assays indicated that time-related development of clusters and colonies over 1-16 days, proliferative responsiveness to a source of colony stimulating activity, number of cells developed per colony, and the cellular composition of clusters and colonies produced from CFU-GM recovered from 14-day-old liquid cultures with 1.0 microM Hc, were all similar to those that developed from the normal human blood low density cells. However, a higher fraction of the CFU-GM in day 14 liquid cultures with 1.0 microM Hc were in DNA synthesis phase compared with the CFU-GM from the peripheral blood. This study confirmed the results of previous studies showing lower numbers of recognizable neutrophilic granulocytes and improved survival/proliferation of CFU-GM at day 14 in liquid cultures with 1.0 microM Hc compared with cultures without Hc. The present results suggest that the normal human blood CFU-GM which persists and proliferates under the influence of Hc in a liquid culture system is similar in ontogeny to the blood CFU-GM, and that the recovery of CFU-GM from liquid cultures under the influence of Hc appears to be exerted through stimulation of proliferation and controlled differentiation.     

Interactions between purified GM-CSF, purified erythropoietin and spleen conditioned medium on hemopoietic colony formation in vitro.

Preincubation of C57BL adult marrow cells or CBA fetal liver cells with a 250-fold excess concentration of purified GM-CSF failed to reduce the frequency of cells forming eosinophil, megakaryocyte or erythroid colonies in subsequent agar cultures. When excess concentrations of purified GM-CSF were added to agar cultures stimulated by pokeweed mitogen-stimulated spleen conditioned medium (SCM), no reduction was observed in the frequency of eosinophil, megakaryocyte or erythroid colonies. Addition of 4 units of purified erythropoietin (EPO) to cultures of fetal liver or adult marrow cells stimulated by SCM increased the number of erythroid colonies but did not reduce the number of non-erythroid colonies or the non-erythroid content of mixed erythroid colonies. Although neither GM-CSF nor EPO alone was able to stimulate erythroid colony formation in agar cultures of fetal liver cells, small numbers of large erythroid colonies were stimulated to develop in cultures containing both purified regulators. Purified GM-CSF was also able to support the survival in vitro of a small proportion of erythroid colony-forming cells in fetal liver populations cultured initially in the absence of SCM and the survival of some eosinophil and megakaryocyte colony-forming cells in similar cultures of adult marrow cells. The results do not support the hypothesis that GM-CSF and EPO compete for a common pool of uncommitted progenitor cells. On the contrary, the data indicate that GM-CSF und EPO are able to collaborate in stimulating the proliferation of some erythropoietic cells. Furthermore, purified GM-CSF appears to be able to support temporarily the survival and/or initial proliferation of at least some cells forming erythroid, eosinophil and megakaryocyte colonies, even though GM-CSF is unable to stimulate the formation of colonies of these types.