Toxoplasma gondii antigens: recovery analysis of tachyzoites cultivated in Vero cell maintained in serum free medium

Vero cells have been used successfully in Toxoplasma gondii maintenance. Medium supplementation for culture cells with fetal bovine serum is necessary for cellular growth. However, serum in these cultures presents disadvantages, such as the potential to induce hypersensitivity, variability of serum batches, possible presence of contaminants, and the high cost of good quality serum. Culture media formulated without any animal derived components, designed for serum-free growth of cell lines have been used successfully for different virus replication. The advantages of protozoan parasite growth in cell line cultures using serum-free medium remain poorly studied. Thus, this study was designed to determine whether T. gondii tachyzoites grown in Vero cell cultures in serum-free medium, after many passages, are able to maintain the same antigenic proprieties as those maintained in experimental mice. The standardization of Vero cell culture in serum-free medium for in vitro T. gondii tachyzoite production was performed establishing the optimal initial cell concentration for the confluent monolayer formation, which was 1×10(6) Vero cell culture as initial inoculum. The total confluent monolayer formatted after 96 h and the best amount of harvested tachyzoites was 2.1×10(7) using parasite inoculum of 1.5×10(6) after 7 days post-infection. The infectivity of tachyzoites released from Vero cells maintained in serum-free medium was evaluated using groups of Swiss mice infected with cell-culture tachyzoites. The parasite concentrations were similar to those for mice infected with tachyzoites collected from other infected mice. The data from both in vivo and in vitro experiments showed that in at least 30 culture cell passages, the parasites maintained the same infectivity as maintained in vivo. Another question was to know whether in the several continued passages, immunogenic progressive loss could occur. The nucleotide sequences studied were the same between the different passages, which could mean no change in their viability in the lysate antigen. Thus, the antigen production by cell culture has clear ethical and cost-saving advantages. Moreover, the use of culture media formulated without any human or animal derived components, designed for serum-free growth of cell lines, successfully produced tachyzoites especially for antigen production.     

Autoclavable low cost serum-free cell culture media: the growth of established cell lines and production of viruses.

Five cell lines (BSC-1, CHO, Balb/c 3T3, HeLa, and KB) have been grown in serum-free media for several months with regular schedules of media changing and subculturing. The medium found to be successful in all cases was MEM-alpha (without the ribosides and deoxyribosides) supplemented with 1% bacteropeptone, although simple MEM (minimum essental medium (Eagle) with bacteropeptone (BP) gave fairly good growth in the case of BSC-1 and 3T3 cells. The addition of insulin was necessary for CHO, 3T3, HeLa, and KB cells. Only the BSC-1 cells grew exclusively as a stationary suspensions and the 3T3 cells growing as a combination of monalayer and suspension depending on the age of the culture and the nature of the growth surface. SV40 was produced in BSC-1 cells grown and infected in the MEM-alpha, bactopeptone medium and adenovirus-2 was produced in spinners of HeLa and KB cells grown in MEM-alpha, bactopeptone, PVP-360, and insulin. The yield of virus and infectivity of the viruses produced were about the same as those produced in conventional serum-containing systems.     

Defectiveness of Interferon Production and of Rubella Virus Interference in a Line of African Green Monkey Kidney Cells (Vero)

Vero cells, a line of African green monkey kidney cells, failed to produce interferon when infected with Newcastle disease, Sendai, Sindbis, and rubella viruses, although the cells were sensitive to interferon. Further, infection of Vero cells with rubella virus did not result in interference with the replication of echovirus 11, Newcastle disease virus, or vesicular stomatitis virus, even in cultures where virtually every cell was infected with rubella virus. Under the same conditions, BSC-1 cells and other cells of primate origin produced interferon and showed rubella virus interference. The results indicate that the presence of rubella virus in the cell does not in itself exclude multiplication of other viruses and that rubella virus interference appears to be linked to the capability of the cell to produce interferon.     

Propagation of recombinant vaccinia virus in HeLa cells: adsorption kinetics and replication in batch cultures.

The influence of various culture parameters on infection and replication of recombinant vaccinia virus in HeLa cells was examined during various phases of viral replication. A modified form of the model of Valentine and Allison (Biochim. Biophys. Acta 1960, 40, 393-399) model was used to predict successfully the viral adsorption rates in cell suspensions. An experimentally determined aggregation factor, epsilon, was included in the model to account for deviations of the observed adsorption rates from those predicted by the earlier model. It was also shown that the ionic strength, ionic species, and serum proteins present in the medium significantly altered the adsorption kinetics of the virus. The lysosomotropic base chloroquine was found to enhance viral infection more than 2-fold during the penetration step of viral infection. It was also demonstrated that cells infected during the exponential growth phase gave higher viral yields than those infected during the lag or stationary growth phases and the initial viral MOI did not significantly alter viral yields. Finally, it was demonstrated that viral infection of HeLa cells grown in 4-L bioreactor batch cultures resulted in increased death and glucose uptake rates and significantly lower growth rates.     

Inhibition of thymidine uptake in asynchronous HeLa cells by nitrobenzylthioinosine

Nitrobenzylthioinosine (NBMPR), an inhibitor of nucleoside transport by human erythrocytes, was found to be a potent inhibitor of thymidine uptake by asynchronous monolayer cultures of HeLa cells. Rates of thymidine uptake by the cultures at 20 °C were constant between 10 and 40 sec after thymidine addition and were assayed during this interval; TTP was the principal metabolite of thymidine and the thymidine phosphates accumulated at constant rates which extrapolated through time zero. The lack of an effect of NBMPR on thymidine kinase activity, or on the relative proportions of thymidine metabolites in cell extracts, indicated that NBMPR inhibited thymidine transport. When mediated entry (transport) was eliminated by 2 μM NBMPR, a significant diffusional component of thymidine entry was apparent. The mediated component of thymidine uptake exhibited Michaelis-Menten kinetics and apparent K_m and V_max values of 0.5 μM and 10–21 pmoles/min/10⁶ cells were obtained. When NBMPR-treated cells were transferred to NBMPR-free medium, inhibition of thymidine uptake persisted, suggesting that NBMPR was firmly bound to the transport inhibitory sites.     

Susceptibility of continuous lines of monkey kidney cells to influenza and parainfluenza viruses in the presence of trypsin

LLC-MK2, GMK AH-1, BSC-1, and Vero cells were compared in titrations of recent isolates and laboratory strains of influenza A and B and parainfluenza types 1, 2, and 3 viruses. About the same titres, as determined by haemadsorption in cell cultures, were obtained in LLC-MK2, GMK AH-1, and BSC-1 cells when trypsin had been added to the medium, whereas the Vero cells were less sensitive to the influenza virus strains tested. Virus titres were usually low in the absence of trypsin. A laboratory strain of parainfluenza 2 virus reached about the same titres in medium without as in medium with trypsin, possibly owing to prior adaptation by passages in Vero cells. Comparative titrations of influenza A, and parainfluenza 1 and 3 viruses suggested the same susceptibility of LLC-MK2 cells with trypsin as of primary monkey kidney cells. Re-isolation experiments from 38 clinical specimens showed LLC-MK2 cells to be as efficient as primary monkey kidney cells for isolation of influenza and parainfluenza viruses, whereas the susceptibility of the other cell lines to clinical material has not yet been tested on a larger scale. It is concluded that a continuous line of monkey kidney cell culture may be acceptable as an alternative to primary monkey kidney cells for the isolation of influenza and parainfluenza viruses from patients.     

Latency of Human Measles Virus in Hamster Cells

A latent system employing measles virus (Schwarz strain) was developed in hamster embryo fibroblasts (HEF). Measles virus-specific antigen was detected by immunofluorescence in 30 to 50% of HEF cells, and these cells released infectious virus when co-cultivated with a susceptible monkey cell line, BSC-1 cells. No infectious virus could be detected in the cells when measures were taken to exclude passage of viable latent cells onto the indicator BSC-1 cells. Infectious center assays demonstrated that about 1 in 10 of the latently infected cells in the population could release infectious virus. Infectious virus appeared within 6 hr after co-cultivation of the HEF cells with BSC-1 cells, as compared to 24 hr required for normal replication of measles virus in the BSC-1 cells. Furthermore, labeling of progeny virus ribonucleic acid (RNA) by using tritiated uridine, and inhibition of RNA or protein synthesis by 5-azacytidine or cycloheximide suggested that neither additional RNA nor protein synthesis is required after co-cultivation of the cells to effect early virus release. It can therefore be postulated that there is a block at a late step in virus replication in the latently infected hamster cells. The most obvious site would concern maturation of infectious virions at the cell membrane.     

Formation of Viral Ribonucleic Acid and Virus in Cells that are Permissive or Nonpermissive for Murine Encephalomyelitis Virus (GDVII)

GDVII virus growth in BHK-21 cells, a permissive host for the virus, resembled productive infections with other picornaviruses. Virus yields ranged from 100 to 600 plaque-forming units (PFU)/cell. Virus replication in HeLa cells, a nonpermissive host for GDVII virus, was characterized by virus yields of only 0.1 to 5 PFU/cell. Similar low yields of virus have been obtained from HeLa cells at all multiplicities of input up to 6,000 per cell. The progeny particles from HeLa cells were, like the infecting particles, restricted in the HeLa cell host. Despite the great difference in final yields of virus from BHK-21 and HeLa cells, the times when maximal yields were reached were similar. GDVII virus stock grown in BHK-21 cells was designated HeLa(-). A variant of GDVII virus which is capable of extensive growth in HeLa cells was obtained. This variant, designated HeLa(+) GDVII virus, was passaged serially in HeLa cells. Virus yields of 50 to 150 infective virus particles per cell were obtained from infection of HeLa cells with HeLa(+) GDVII virus. The major species of HeLa(+) virus-specific ribonucleic acid (RNA) produced was single stranded and sedimented with an S value of 35S. The rate of accumulation of HeLa(+) virus-specific RNA in HeLa cell cultures was about four times that of HeLa(-) RNA. The amount of virus-specific HeLa(+) RNA formed in HeLa cells was several-fold greater than that of HeLa(-) RNA. With HeLa(-) parent GDVII virus undergoing productive replication in BHK-21 cells or abortive replication in HeLa cells, the major species of virus-specific RNA produced was single stranded and sedimented with an approximate S value of 35S. The amount of HeLa(-) virus-specific RNA extracted from BHK-21 cells was several-fold greater than the amount obtained from HeLa cells.     

Roles for endocytosis and low pH in herpes simplex virus entry into HeLa and Chinese hamster ovary cells

Herpes simplex virus (HSV) infection of many cultured cells, e.g., Vero cells, can be initiated by receptor binding and pH-neutral fusion with the cell surface. Here we report that a major pathway for HSV entry into the HeLa and CHO-K1 cell lines is dependent on endocytosis and exposure to a low pH. Enveloped virions were readily detected in HeLa or receptor-expressing CHO cell vesicles by electron microscopy at <30 min postinfection. As expected, images of virus fusion with the Vero cell surface were prevalent. Treatment with energy depletion or hypertonic medium, which inhibits endocytosis, prevented uptake of HSV from the HeLa and CHO cell surface relative to uptake from the Vero cell surface. Incubation of HeLa and CHO cells with the weak base ammonium chloride or the ionophore monensin, which elevate the low pH of organelles, blocked HSV entry in a dose-dependent manner. Noncytotoxic concentrations of these agents acted at an early step during infection by HSV type 1 and 2 strains. Entry mediated by the HSV receptor HveA, nectin-1, or nectin-2 was also blocked. As analyzed by fluorescence microscopy, lysosomotropic agents such as the vacuolar H(+)-ATPase inhibitor bafilomycin A1 blocked the delivery of virus capsids to the nuclei of the HeLa and CHO cell lines but had no effect on capsid transport in Vero cells. The results suggest that HSV can utilize two distinct entry pathways, depending on the type of cell encountered.     

Vero cells infected with the Lederle strain of canine distemper virus have increased Fas receptor signaling expression at 15 h post-infection

We evaluated the expression of the Fas receptor gene in Vero cells infected with the Lederle vaccine strain of canine distemper virus using RT-PCR. Vero cells were plated, and after being grown for 24 h in MEM with 5% FBS, 80-90% confluent monolayer cultures were infected with the virus. The cells were harvested at 3, 6, 9, and 15 h post-infection. Uninfected Vero cells were used as a control. Total RNA was isolated from Vero cells using 1 mL Trizol(?) LS, and RT was performed using 2 μg total RNA. Primer pairs for RT-PCR amplification for the canine distemper virus nucleocapsid gene, the S26 reference gene, and the Vero rFas gene were used to analyze expression in Vero cells. RT-PCR results revealed virus activity at 3, 6, 9, and 15 h in the virus-infected Vero cells. The S26 housekeeping gene was amplified in virus infected and control samples. However, expression of the cell death receptor Fas was detected in Vero cells only at 15 h post-infection. We suggest that the Lederle vaccine induces apoptosis by Fas receptor signaling, possibly through caspase-8 signaling rather than through mitochondrial signaling in the infected cells.     

Growth of Murine Cytomegalovirus in Various Cell Lines

Murine cytomegalovirus (MCMV) was capable of infecting and replicating in both primary and continuous cell lines obtained from various species. In African green monkey kidney (BSC-1) cells, primary rabbit kidney cells, and baby hamster kidney (BHK-21) cells, there were cytopathic effects (CPE) and virus replication upon initial exposure of cells to virus. In primary fetal sheep brain (FSB) cells, L cells, and rabbit kidney (RK-13) cells, it was necessary to subculture the infected cells one or more times before appearance of CPE and replication of virus. In the case of the infected FSB cultures, it was found that the virus effect could be induced if subculturing were accomplished by trypsinization but did not occur if cells were subcultured by scraping. FSB-grown virus replicated better in FSB than in mouse embryo fibroblast (MEF) cells. The CPE produced in all of the above cell lines was similar to that observed in MEF infected with MCMV. The virus grown in different cell lines was completely neutralized when mixed with several reference sera prepared in rabbits or mice. The populations of virions released from infected MEF and FSB cells were compared by isopycnic centrifugation in potassium tartrate, and no differences were revealed in the buoyant densities of the populations. Human embryonic brain cells, human embryonic kidney cells, a human lung fibroblast cell strain (WI-38), HeLa, and Hep-2 were not susceptible to MCMV.     

Cell-substratum and cell-cell adhesion forces and single-cell mechanical properties in mono- and multilayer assemblies from robotic fluidic force microscopy

The epithelium covers, protects, and actively regulates various formations and cavities of the human body. During embryonic development the assembly of the epithelium is crucial to the organoid formation, and the invasion of the epithelium is an essential step in cancer metastasis. Live cell mechanical properties and associated forces presumably play an important role in these biological processes. However, the direct measurement of cellular forces in a precise and high-throughput manner is still challenging. We studied the cellular adhesion maturation of epithelial Vero monolayers by measuring single-cell force-spectra with high-throughput fluidic force microscopy (robotic FluidFM). Vero cells were grown on gelatin-covered plates in different seeding concentrations, and cell detachment forces were recorded from the single-cell state, through clustered island formation, to their complete assembly into a sparse and then into a tight monolayer. A methodology was proposed to separate cell-substratum and cell-cell adhesion force and energy (work of adhesion) contributions based on the recorded force-distance curves. For comparison, cancerous HeLa cells were also measured in the same settings. During Vero monolayer formation, a significantly strengthening adhesive tendency was found, showing the development of cell-cell contacts. Interestingly, this type of step-by-step maturation was absent in HeLa cells. The attachment of cancerous HeLa cells to the assembled epithelial monolayers was also measured, proposing a new high-throughput method to investigate the biomechanics of cancer cell invasion. We found that HeLa cells adhere significantly stronger to the tight Vero monolayer than cells of the same origin. Moreover, the mechanical characteristics of Vero monolayers upon cancerous HeLa cell influence were recorded and analyzed. All these results provide insight into the qualitative assessment of cell-substratum and cell-cell mechanical contacts in mono- and multilayered assemblies and demonstrate the robustness and speed of the robotic FluidFM technology to reveal biomechanical properties of live cell assemblies with statistical significances.     

Effect of benzo(a)pyrene and methyl(acetoxymethyl) nitrosamine on thymidine uptake and induction of aryl hydrocarbon hydroxylase activity in human fetal oesophageal cells in culture.

Primary cultures of human fetal oesophageal cells were set up and maintained for 45 days. Epithelial cells were the dominant cell type in the culture for the first four weeks. Thereafter, both epithelial cells and fibroblasts were seen with the fibroblasts becoming the dominant cell type by the 6th week and until the cultures degenerated. The tritiated thymidine uptake showed an upward trend from day 10 up to day 30, with peak uptake at day 30 in the untreated, B(a)P treated and OAc treated cultures and decreased thereafter. The thymidine uptake levels were significantly higher in the B(a)P treated cultures when compared with levels in the untreated cultures. A concurrent increase/decrease was also seen in the cell number in all the three groups of cultures. Cultures with B(a)P and DMN-OAc showed significantly higher AHH levels as compared with untreated cultures. These results indicate that the human fetal oesophageal cells could be viably maintained under in vitro conditions for long periods of time and also showed capacity to metabolise the carcinogens through aryl hydrocarbon hydroxylase activity.     

The development of mouse spinal cord in tissue culture

Summary Neural tubes of mouse embryos at Theiler Stages 14, 15, and 16 were grown in cultures for 21 d with 0.5 μCi/ml tritiated thymidine or cold growth medium. It was found that 50 to 60% of the neurons formed in the outgrowth zone were labeled, indicating that they formed from precursor cells that proliferated in the cultures. The unlabeled neurons must have formed from cells that were already postmitotic when the cultures were started. By comparing the total number of neurons per neuromere formed in vivo and in vitro, it seems that the postmitotic precursor cells survive better in cultures and only a small percentage of proliferative precursor cells in cultures enter the postmitotic stage and form neurons. This work was supported by Grant MT4235 from the Medical Research Council of Canada.     

Activation of metastatic potential in african green monkey kidney cell lines by prolongedin vitro culture

Summary Studies on the tumorigenicity of Vero kidney cells ofCercopithecus aethiops monkey origin were extended to various passage levels of BSC-1 aneuploid cells and to low passage CV-1 diploid cells (derived also fromC. aethiops monkey kidney). It was found that BSC-1 cells—like Vero cells—showed increased tumorigenicity with increasing passage level in antitymocyte globulins (ATG) treated newborn rats and in nude mice. Cells passaged over 250 times in cultures formed invasive adenocarcinomas in newborn rats. Their malignant tumor growth was further demonstrated around the 500 passage level when tumor metastases were detected in the lungs of four of the 14 inoculated rats. Vero cells induced such lung metastases in rats already at passage 227. CV-1 diploid cells at low passage level produced small nodules of epithelioid cells in newborn rats at 6th day after inoculation that had disappeared by the 21st day, and caused no local invasion nor lung metastasis. In vitro tumorigenicity tests on BSC-1 and CV-1 cells, using chick embryo skin, human muscle and colony formation in agarose, confirmed the animal test results. The results of this study indicate that BSC-1 and Vero cell lines at low and high passage levels may prove to be useful tools to study the molecular basis of malignancy. Editor's Statement In this paper Contreras et al. document the increased malignancy of commonly-used monkey cell lines upon long-term culture. These observations have implications for the use of these cell lines in studies of cancer cell biology, as well as the use of these lines for the production of biologicals. David W. Barnes     

Growth of Rio Bravo Virus in Cell Cultures

The growth of Rio Bravo virus (RBV) in eight cell culture systems was studied. Highest yields of virus were produced in BHK-21 (C13), L, and Vero cell lines, but L cells were resistant to low doses of virus. LLC-MK(2), HeLa, and human embryo skin cells produced moderate amounts of virus, but FL amnion and primary chick embryo fibroblasts supported little virus growth. Virus was rapidly inactivated by exposure to pH values below 7.0. Single-cycle growth in BHK-21, L, and LLC-MK(2) cell monolayers was characterized by a latent period of about 12 hr followed by rapid virus production that peaked at 36 to 48 hr. Vero cell cultures can remain chronically infected with RBV for more than 100 days. Such cultures show evidence of cell destruction, and their supernatant fluids contain virus at 10(4) to 10(5) log(10) per ml.     

Registration of spontaneous photon emission from virus-infected cell cultures: development of experimental system

Detection of spontaneous photon emission from virus-infected cells was attempted using cell monolayer cultures prepared from the established cell lines differing by origin and sensitivity to viruses. The experimental system was elaborated permitting maintenance of the cell monolayer cultures grown upon quartz slides placed inside quartz cuvettes within the photomultiplier chamber during prolonged time periods (till 24-36 hr) covering the whole virus multiplication cycle. Rich nutritive medium was employed, providing undisturbed cell viability and virus-induced cytopathic effect (CPE) development during such prolonged experiment, each ingredient of the medium being checked as potential parasitic emitter or extinguisher of the cell-specific emission. As presupposed 'positive control', the in vivo cultivated chorio-allantoic membranes (CAM) of 10-days-old chick-embryonated eggs were used. The virus-infected CAMs showed specific peculiarities of the emission dynamics as compared to monotonous dynamics shown by non-infected CAMs. Similar dynamic regularities were observed in cell monolayer cultures containing much lesser (by order) number of cells per exposed sample. Using the elaborated system, some specific changes in the virus-infected cells were found, being correlated with two stages of virus replication cycle: the initial stage, synchronous penetration of the pre-adsorbed virus inside the cell, and a later stage, characterized by intensive CPE manifestations.     

Quantitative Growth of Naegleria in Axenic Culture

A strain of Naegleria gruberi, isolated from a Vero cell culture and designated TS-1, was axenically cultivated in monolayer and mass aerating suspension culture. Cultural conditions for constant growth parameters and high-exponential cell densities were defined. Serum or other supplemented fractions were found essential in both Trypticase-yeast extract-glucose (TYG) and Casitone (CAS)-based media. Monolayer cultures grown in the CAS medium required lower levels of serum to reach maximum stationary densities of amoebae than cultures grown in the TYG medium. Heat-killed (121 C, 10 min) whole cell and cell lysate bacterial fractions were capable of replacing the serum in both the TYG and CAS media. Heat-killed bacterial fractions provided the same levels of growth as attained with serum in TYG medium, whereas the bacterial lysate supported only minimal growth in the same medium. In the CAS medium, both bacterial fractions resulted in the same level of growth which was equal to that obtained in reduced serum content. Strain TS-1 was established in suspension culture with the CAS medium used in monolayer culture. The addition of sheep red blood cells (RBC) or RBC lysate greatly enhanced growth responses. Further modifications resulted in a final medium for suspension culture consisting of Casitone-yeast extract-glucose-vitamin base, supplemented with serum and RBC lysate. This medium supported growth with a mean generation time of 9 h at 30 C and a stationary phase yield of greater than 5 x 10(6) amoebae per ml.     

Isolation and characteristics of HeLa surface proteins

HeLa 71 and 65 cells grown in attached culture possess a coat of extracellular proteins that can be released from the cell by mild EDTA-detachment, with no significant effect on cellular integrity. This suggests that these surface proteins are weakly associated with the cell, possibly through divalent cations. The high affinity of surface proteins for critical divalent cations, shown by their high precipitability by Zn²⁺, Ca²⁺ and Mg²⁺, supports this assumption. Since surface proteins appear to be phosphoproteins, as suggested by significant incorporation of ³²Pi in vitro, it is possible that binding occurs through The amount of surface protein on HeLa 65 cells grown in suspension culture is greatly reduced compared with cells grown in monolayer culture. This may be related to impaired availability of Ca²⁺ in suspension culture medium. In monolayer grown HeLa cells surface proteins are predominantly distributed underneath the cells. The highest amount of these proteins is found on cells prior to growth initiation and steadily decreases as cells approach confluency. As shown by radioactive leucine protein labeling, surface proteins are primarily comprised of proteins synthesized within HeLa cells and released to the outer cell surface. The presence of serum proteins in surface protein matrix is physiologically significant.