Comparative Sensitivity of Various Cell Culture Systems for Isolation of Viruses from Wastewater and Fecal Samples

In efforts to define the most sensitive cell culture systems for recovery of viruses from wastewaters, 181 samples were inoculated in parallel into tube cultures of various cell types and were plaqued in bottle and petri dish cultures of three types of monkey kidney cells. Polioviruses were recovered most frequently in the RD line of human rhabdomyosarcoma cells, group A coxsackieviruses in RD and human fetal diploid kidney (HFDK) cells, group B coxsackieviruses in the BGM line of African green monkey kidney cells, echoviruses in RD and primary rhesus monkey kidney (RhMK) cells, and reoviruses in RhMK cells. BGM cells were unsatisfactory for recovery of viruses other than polioviruses and group B coxsackieviruses, and a line of fetal rhesus monkey kidney (MFK) was not a satisfactory substitute for primary RhMK. With RhMK cells, comparable numbers of virus isolations were made in tube cultures and in plaque assays conducted in bottle cultures, but with BGM and MFK cells, fewer isolations were made by plaquing than by inoculation of tube cultures. In comparative plaque assays on fecal samples under three different overlays in bottle and plate cultures of RhMK, BGM, and MFK cells, it was found that plaquing in the most sensitive system, RhMK, was less efficient for virus recovery than was inoculation of tube cultures of RhMK or HFDK cells. Overall, plaque assays performed in petri dishes in a CO₂ incubator yielded fewer virus isolates than did parallel plaque assays performed in closed bottle cultures. Other limitations of plaque assays for recovery of human enteric viruses are discussed.     

Relationship between group G chromosomes, especially chromosome 21, and the sensitivity of human cells to Coxsackie B viruses]

The R-method of differential chromosome staining by length was applied to comparative karyological studies on the culture of J 96 human cells susceptible to enteroviruses, and on the J 41 cell line derived from this culture and possessing high specific resistance to Coxsackie B viruses. Karyotype of the J 41 cell line was shown to be deprived of chromosome G21 (P less than 0.0001). The number of other chromosomes varied from cell to cell, but they are constantly present in the majority of cells of both the J 96 and J 41 cell lines. A conclusion is drawn that chromosome G21 incorporates gene(s) which controls the human cells susceptibility to Coxsackie B viruses.     

Comparison of Different Cell Substrates on the Measurement of Human Influenza Virus Neutralizing Antibodies

Eight cell lines were systematically compared for their permissivity to primary infection, replication, and spread of seven human influenza viruses. Cell lines were of human origin (Caco-2, A549, HEp-2, and NCI-H292), monkey (Vero, LLC-MK2), mink (Mv1 Lu), and canine (MDCK). The influenza viruses included seasonal types and subtypes and a pandemic virus. The MDCK, Caco-2, and Mv1 Lu cells were subsequently compared for their capacity to report neutralization titers at day one, three and six post-infection. A gradient of sensitivity to primary infection across the eight cell lines was observed. Relative to MDCK cells, Mv1 Lu reported higher titers and the remaining six cell lines reported lower titers. The replication and spread of the seven influenza viruses in the eight cell substrates was determined using hemagglutinin expression, cytopathic effect, and neuraminidase activity. Virus growth was generally concordant with primary infection, with a gradient in virus replication and spread. However, Mv1 Lu cells poorly supported virus growth, despite a higher sensitivity to primary infection. Comparison of MDCK, Caco-2, and Mv1 Lu in neutralization assays using defined animal antiserum confirmed MDCK cells as the preferred cell substrate for influenza virus testing. The results observed for neutralization at one day post-infection showed MDCK cells were similar (<1 log₂ lower) or superior (>1 log₂ higher) for all seven viruses. Relative to Caco-2 and Mv1 Lu cells, MDCK generally reported the highest titers at three and six days post-infection for the type A viruses and lower titers for the type B viruses and the pandemic H9N2 virus. The reduction in B virus titer was attributed to the complete growth of type B viruses in MDCK cells before day three post-infection, resulting in the systematic underestimation of neutralization titers. This phenomenon was also observed with Caco-2 cells.     

Comparative sensitivity of various cell culture systems for isolation of viruses from wastewater and fecal samples.

In efforts to define the most sensitive cell culture systems for recovery of viruses from wastewaters, 181 samples were inoculated in parallel into tube cultures of various cell types and were plaqued in bottle and petri dish cultures of three types of monkey kidney cells. Polioviruses were recovered most frequently in the RD line of human rhabdomyosarcoma cells, group A coxsackieviruses in RD and human fetal diploid kidney (HFDK) cells, group B coxsackieviruses in the BGM line of African green monkey kidney cells, echoviruses in RD and primary rhesus monkey kidney (RhMK) cells, and reoviruses in RhMK cells. BGM cells were unsatisfactory for recovery of viruses other than polioviruses and group B coxsackieviruses, and a line of fetal rhesus monkey kidney (MFK) was not a satisfactory substitute for primary RhMK. With RhMK cells, comparable numbers of virus isolations were made in tube cultures and in plaque assays conducted in bottle cultures, but with BGM and MFK cells, fewer isolations were made by plaquing than by inoculation of tube cultures. In comparative plaque assays on fecal samples under three different overlays in bottle and plate cultures of RhMK, BGM, and MFK cells, it was found that plaquing in the most sensitive system, RhMK, was less efficient for virus recovery than was inoculation of tube cultures of RhMK or HFDK cells. Overall, plaque assays performed in petri dishes in a CO(2) incubator yielded fewer virus isolates than did parallel plaque assays performed in closed bottle cultures. Other limitations of plaque assays for recovery of human enteric viruses are discussed.     

Failure to detect interfering agents in febrile respiratory illnesses

Throat swab specimens from 57 military recruits with febrile respiratory illness in whom no virologic or serologic evidence of infection with respiratory viruses orMycoplasma pneumoniae was found were inoculated and passaged into fresh cultures of monkey kidney cells and continuous lines of human, simian and rabbit cells. Cultures of second passage were challenged with poliovirus type 2 or vaccinia virus and subsequently tested for interference by reading of cytopathic effect and titration of challenge virus. No interference was shown.     

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.     

Relative sensitivity of various cell cultures to the thermostable exotoxin of B. thuringiensis]

The "thermostable" B. thuringiensis exotoxin is active on cell cultures of Mammals "in vitro", except on the KB strain from a human tumor. The primary cultures are the most sensitive: first, with monkey kidney cells, the growth is inhibited by 0.1 mg of toxin per ml; next, the young rabbit kidney cells react to 0.25 mg of toxin per ml. The established lines of cells come last: human diploid cells (Lyon 4) and heteroploid cells (BHK21C13), with the same active dose of 1 mg of toxin per ml. No protection is obtained by adding ATP to monkey kidney cells at the same time as the exotoxin.     

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     

The hemagglutinating properties and adsorption on erythrocytes of Coxsackie B-3 viruses and their selected bentonite variants

The paper is devoted to the study of the Coxsackie B-3 viruses and their bentonite variants passaged on the primary and transplanted cell cultures for their hemagglutinating (HA) properties and a degree of adsorption on erythrocytes. It is shown possible to detect the HA activity of the Coxsackie B-3 viruses which are passaged on the transplanted cell cultures: the variant Abent has the hemagglutinating activity relative to human and rabbit erythrocytes. The variant Abent+ of the Coxsackie B-3 virus passaged on the cell culture Vero is established not to be absorbed on erythrocytes. The variant Abent and the initial population of the Coxsackie B-3 virus are adsorbed on the human erythrocytes by 90-99%. Coxsackie B-3 virus and its bentonite variants reproduced on the primary cell culture of human embryonic fibroblasts and possessing the hemagglutinating activity are 100-1000 times better adsorbed on human erythrocytes than the viruses passaged in the transplanted culture.     

Studies on Parainfluenza Virus Infections among Infants and Children in Sendai

A cell line sensitive enough for the recovery of all parainfluenza viruses and free of simian virus contamination frequently occurring in monkey kidney cells was sought. The VERO cell obtained from African monkey kidney was found suitable for the initial isolation of types 1, 2 and 3 parainfluenza viruses, although the cells did not always allow the successive transfer. Mixed cultures of VERO and HEp-2 cells were also useful in the recovery of various respiratory viruses including parainfluenza viruses. The characteristics of hemagglutinins of parainfluenza viruses were examined, and type 2 parainfluenza and SV5 viruses agglutinated both guinea pig and green monkey erythrocytes at 36 C, whereas types 1 and 3 parainfluenza viruses agglutinated only guinea pig erythrocytes. Thus parainfluenza viruses were divided into two groups by the presence or absence of hemagglutinins for green monkey erythrocytes. Identification of these parainfluenza isolates, employing HI microtechnique was simple and reliable, even with the first passage harvest, when guinea pig erythrocytes were used and the test read at 36 C. Specific standard antisera for these parainfluenza viruses were prepared by immunizing chickens intravenously and bleeding within a short period. These type-specific antisera were useful for the identification of parainfluenza isolates by HI test.     

Prostaglandin metabolism. II. Identification of two 15-hydroxyprostaglandin dehydrogenase types.

Homogenates of several mammalian tissues were measured by radioimmunoassay for 15-hydroxyprostaglandin dehydrogenase activity. Two types of enzyme activity were detected. One, which used NAD-plus as cofactor much more effectively than NADP-lus, was found in monkey lung, heart, liver, kidney, and spleen and in chicken heart and dog lung. A second type, which uses NADP-plus as a cofactor more effectively than NAD-plus, was found in monkey and human brain and red blood cells and in swine kidney. These two types of 15-hydroxyprostaglandin dehydrogenase were partially purified from monkey brain and chicken heart. In addition to different cofactor requirements, the two partially purified enzymes could be distinguished by chromatographic properties, their relative affinities for prostaglandin I2 and F2alpha, and their sensitivities to inhibition by reduced pyridine nucleotides, thyroid hormones, and prostaglandin B2.     

Changes in hydroxy and carboxylic acid compositions in the supernatant fluids of mosquito cell cultures infected with dengue viruses

Hydroxy and carboxylic acids in the supernatant fluids of mosquito cell cultures infected with four serotypes of dengue viruses (DEN) were analyzed by frequency-pulsed electron capture gasliquid chromatography. The hydroxy acid profiles of all virus-infected cell cultures differed qualitatively and quantitatively from the profile of normal cell culture. Furthermore, the profiles of hydroxy acids in the DEN 1- and DEN 4-infected cultures were type specific. Although quantitative differences of a few peaks could be found between the hydroxy acid profiles of DEN 2- and DEN 3-infected cultures, in the absence of clear qualitative differences the two profiles were considered to be essentially indistinguishable. The carboxylic acid profiles of virus-infected cultures differed from the profile of a normal cell culture, but none of the four serotypes of DEN viruses induced type-specific profiles. Thus, these findings contrasted to previous results with rhesus monkey kidney cell cultures (LLC-MK₂), in which serotype-specific sets of hydroxy acids and a DEN 1-specific set of carboxylic acids were released in the supernatant fluids by the infection with dengue viruses.     

Association of Virus with Cases of Rubella Studied in Toronto: Propagation of the Agent and Transmission to Monkeys

Using an interference test with indicator virus Echo 11, a virus has been isolated in nine of 18 specimens from cases of typical rubella. The virus will interfere with the development of cytopathology in green monkey kidney cells with viruses Echo 11, Coxsackie B1 and B4, Poliovirus I and III (Sabin strains) and simian virus SV4. In four of five paired sera this virus was neutralized by convalescent but not by the acute phase serum, tested by interference inhibition. No cytopathology was observed in unstained cultures or in sequential cultures stained with acridine orange or fluorescent antibody. The virus was destroyed by exposure to 56° C. for 30 minutes and 15% ether at 4° C. for 24 hours, but survived with some reduction in titre at 4° C. for 24 hours. Green monkeys infected by this virus developed a macular rash, lymphadenopathy and modest rise in white blood cell count.     

Antiviral activity and metal ion-binding properties of some 2-hydroxy-3-methoxyphenyl acylhydrazones

Here we report on the results obtained from an antiviral screening, including herpes simplex virus, vaccinia virus, vesicular stomatitis virus, Coxsackie B4 virus or respiratory syncytial virus, parainfluenza-3 virus, reovirus-1 and Punta Toro virus, of three 2-hydroxy-3-methoxyphenyl acylhydrazone compounds in three cell lines (i.e. human embryonic lung fibroblast cells, human cervix carcinoma cells, and African Green monkey kidney cells). Interesting antiviral EC₅₀ values are obtained against herpes simplex virus-1 and vaccinia virus. The biological activity of acylhydrazones is often attributed to their metal coordinating abilities, so potentiometric and microcalorimetric studies are here discussed to unravel the behavior of the three 2-hydroxy-3-methoxyphenyl compounds in solution. It is worth of note that the acylhydrazone with the higher affinity for Cu(II) ions shows the best antiviral activity against herpes simplex and vaccinia virus (EC₅₀ ~ 1.5 µM, minimal cytotoxic concentration = 60 µM, selectivity index = 40).     

Rapid authentication of animal cell lines using pyrolysis mass spectrometry and auto-associative artificial neural networks

Summary Pyrolysis mass spectrometry (PyMS) was used to produce biochemical fingerprints from replicate frozen cell cultures of mouse macrophage hybridoma 2C11-12, human leukaemia K562, baby hamster kidney BHK 21/C13, and mouse tumour BW-O, and a fresh culture of Chinese hamster ovary CHO cells. The dimensionality of these data was reduced by the unsupervised feature extraction pattern recognition technique of auto-associative neural networks. The clusters observed were compared with the groups obtained from the more conventional statistical approaches of hierarchical cluster analysis. It was observed that frozen and fresh cell line cultures gave very different pyrolysis mass spectra. When only the frozen animal cells were analysed by PyMS, auto-associative artificial neural networks (ANNs) were employed to discriminate between them successfully. Furthermore, very similar classifications were observed when the same spectral data were analysed using hierarchical cluster analysis. We demonstrate that this approach can detect the contamination of cell lines with low numbers of bacteria and fungi; this approach could plausibly be extended for the rapid detection of mycoplasma infection in animal cell lines. The major advantages that PyMS offers over more conventional methods used to type cell lines and to screen for microbial infection, such as DNA fingerprinting, are its speed, sensitivity and the ability to analyse hundreds of samples per day. We conclude that the combination of PyMS and ANNs can provide a rapid and accurate discriminatory technique for the authentication of animal cell line cultures.     

Species identification and confirmation of human and animal cell lines: a PCR-based method

Misidentification and cross-contamination of cell lines are major problems of cell cultures that can make scientific results and their reproducibility unreliable. This paper describes a PCR-based method for easily identifying or confirming the species of origin of cell lines by using a panel of oligonucleotides specific for the nine animal species most common in cell culture laboratories. A panel of 35 human and animal cell lines, whose species of origin were previously confirmed by isoenzyme assay, was studied with nine species-specific primer pairs that specifically anneal to DNA sequences codifying for human, cat, dog, mouse, rat, horse, rabbit, African Green monkey cytochrome c oxidase subunit I (cox I), and one primer pair specific for the cytochrome b gene of Chinese hamster. The amplified fragments were analyzed by electrophoresis in ethidium bromide-stained 2% agarose gels. The method is simple, rapid, highly sensitive, and useful for routinely monitoring the species identity of cell cultures.     

A New Candidate Type of Human Enterovirus (Drilon Strain) Isolated in the Philippines

A cytopathogenic agent was isolated in monkey kidney (MK) cell cultures from the stool specimen of a 3-month-old Filipina hospitalized with lower respiratory disease. The agent was designated the Drilon strain. It was characterized as an enterovirus on the basis of electron microscopic morphology, nucleic acid type (RNA), resistance to ether and acid (pH 3.0) treatments, stabilization by molar MgCl₂ against heat inactivation, and buoyant density in CsCl. The strain caused mild febrile illness in experimentally inoculated cynomolgus monkeys, but not in suckling mice. In addition to its effect in primary MK cells, the virus was cytopathogenic in primary and secondary human amnion or embryonic lung cell cultures and in WI-38 or HEp-2 cell lines, but not in primary bovine kidney, primary porcine kidney, primary embryonic mouse or primary embryonic chick cell cultures. The Drilon strain was not neutralized by reference antisera against the known enterovirus serotypes, and the antiserum prepared with the Drilon strain did not neutralize any of the recognized prototype enterovirus strains. Although the patient's sera were not available, antibodies against the Drilon strain were prevalent in normal Filipinos and Indonesians, but not in Japanese people. The Drilon strain fulfilled the criteria of human enterovirus and is considered a candidate for designation as a new type.     

Safe biotechnology (5). Recommendations for safe work with animal and human cell cultures concerning potential human pathogens

The benefits of using animal or human cell cultures have been clearly demonstrated in diagnostic and therapeutic research and in their application for manufacturing. Cell cultures serve as a tools for the production of vaccines, receptors, enzymes, monoclonal antibodies and recombinant DNA-derived proteins. They represent an integral part of drug development for which corresponding facilities, equipment and manufacturing processes are required. Although the cells themselves offer no particular risk to workers in laboratories and production areas or to the environment, the cell cultures may be contaminated with viruses, mycoplasma, bacteria, yeast and fungi or might contain endogenous viruses. The containment level for animal and human cells is therefore determined by the risk class of these agents. The history of animal and human cell cultures has proved that they can be handled safely. The recommendations in this publication concern the safe handling of cell cultures (tissue explants, primary cell cultures) and permanent cell lines of animal and human origin. A classification system of safety precautions has been elaborated according to the potential for contamination with the pathogenic agents involved. Correspondence to: DECHEMA, EFB Secretariate, Postfach 150101, W-6000 Frankfurt/Main 15     

CAP, a new human suspension cell line for influenza virus production

Forced by major drawbacks of egg-based influenza virus production, several studies focused on the establishment and optimization of cell-based production systems. Among numerous possible host cell lines from duck, monkey, canine, chicken, mouse, and human origin, only a few will meet regulatory requirements, accomplish industrial standards, and result in high virus titers. From primary virus isolation up to large-scale manufacturing of human vaccines, however, the most logical choice seems to be the use of human cell lines. For this reason, we evaluated the recently established CAP cell line derived from human amniocytes for its potential in influenza virus production in suspension culture in small scale shaker flask and stirred tank bioreactor experiments. Different human and animal influenza viruses could be adapted to produce hemagglutination (HA) titers of at least 2.0 log₁₀ HA units/100 μL without further process optimization. Adjusting trypsin activity as well as infection conditions (multiplicity of infection, infection medium) resulted in HA titers of up to 3.2 log₁₀ HA units/100 μL and maximum cell-specific virus productivities of 6,400 virions/cell (for human influenza A/PR/8/34 as a reference). Surface membrane expression of sialyloligosaccharides as well as HA N-glycosylation patterns were characterized. Overall, experimental results clearly demonstrate the potential of CAP cells for achieving high virus yields for different influenza strains and the option to introduce a highly attractive fully characterized human cell line compliant with regulatory and industrial requirements as an alternative for influenza virus vaccine production.     

Heterochromatinic segments in chromosomes of cultured human cells, sensitive and resistant to Coxsackie B viruses

Comparative karyological studies of C-heterochromatin have been made on line J-96 of human cells, which are susceptible to enteroviruses, and on cell line J-41 derived from this culture and possessing highly specific resistance to Coxsackie B viruses. It was shown that the development of specific resistance to Coxsackie B viruses was accompanied by the loss of one of the chromosomes of pairs 1 and 9, and by the dissapearance of two marker chromosomes. There appeared new marker chromosomes with additional C-heterochromatain regions. The data obtained are discussed with respect to a possible interrelationship between these chromosomal alterations and the specific resistance to Coxsakie B viruses.