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.     

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.     

Variants of Defective Simian Papovavirus 40 (PARA) Characterized by Cytoplasmic Localization of Simian Papovavirus 40 Tumor Antigen

Three isolates of PARA (particle aiding replication of adenovirus)-adenovirus 7 out of a total of 112 clonal progeny derived by two successive plaque purifications in green monkey kidney cells (GMK) were found to induce the synthesis of simian papovavirus40 (SV 40) tumor (T) antigen in the cytoplasm of infected cells. The variant viruses induced plaque formation in human embryonic kidney cells which followed one-hit kinetics. In GMK cells, plaque formation followed two-hit kinetics which converted to first-order kinetics in the presence of additional helper adenovirus type 7. Analysis of plaque progeny from human cells showed that the progeny could replicate only in human cells, whereas progeny from monkey cells could multiply in both human and monkey cells. Heterologous human adenoviruses were able to enhance plaque formation by the variant viruses in monkey kidney cells. Neutralization tests indicated that both components of the populations had a type 7 adenovirus capsid. All three viruses were capable of inducing SV40 transplantation immunity in weanling hamsters. These results indicate the three variants are PARA-adenovirus 7 populations. Response of the induction of the synthesis of the cytoplasmic antigen to metabolic inhibitors was the same as for the synthesis of the nuclear SV40 T antigen. Different pools of sera which reacted with the intranuclear SV40 T antigen also detected the cytoplasmic antigen induced by the variant viruses. An adsorption experiment with cells containing either nuclear or cytoplasmic T antigen to remove tumor antibody from hamster sera also indicated that it is probably SV40 T antigen which is responsible for the cytoplasmic reaction. The species of the host cell-human, simian, or rabbit-appeared to play no role in the altered localization of this antigen. It is postulated that these PARA variants are further defective in some virus-mediated transport mechanism which shifts the T antigen from the cytoplasm to the nucleus.     

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.     

Passive Hemagglutination Assays for the Detection of Antibodies to Herpes Viruses

A simple and effective method for the detection of antibodies to herpes simplex virus (HSV), human cytomegalovirus (HCMV) and varicella-zoster virus (VZV), has been established using the passive hemagglutination assay (PHA) in combination with viral specific glycoproteins. The results obtained with the PHA were compared with those from neutralization (NT) and complement fixation (CF) tests. The PHA test for each of the herpes viruses appears to compare favorably with the other assays tested. The specificity and sensitivity of HSV PHA to NT were 100%, whereas the specificity and sensitivity of HSV CF test to NT were 98% and 100%, respectively. For HCMV, the specificity and sensitivity of PHA to NT and PHA to CF were 100%. Similarly, the specificity and sensitivity of VZV PHA to NT were 100%. Because of the low sensitivity of the VZV CF, the sensitivity of CF to NT was 83%. Furthermore, the range of antibody titers and their absolute levels obtained in the PHAs were significantly greater than those in the NT and CF tests.     

Herpes simplex virus type 1 infection of endothelial, epithelial, and fibroblast cells induces a receptor for C3b

We recently demonstrated that herpes simplex virus type 1 (HSV 1) induces a receptor on human umbilical vein endothelial cells for complement component C3b (C3bR). We assigned this receptor function to HSV 1 viral glycoprotein C (gC) based on several observations: tunicamycin, which prevents glycosylation and expression of N-linked glycoproteins on the surface of infected cells, markedly reduced expression of the C3bR; monoclonal antibodies to HSV 1 gC blocked detection of the C3bR, whereas monoclonal antibodies to other HSV 1 glycoproteins (gB, gD, gE) had no effect; and the MP mutant of HSV 1, which fails to express gC, did not induce C3bR. We now report that HSV 1 induces C3bR on a wide variety of cell types including bovine thoracic aorta and pulmonary artery endothelial cells, human embryonic lung and embryonic foreskin fibroblasts, and human embryonic kidney cells. To date, all cells studied that are permissive to HSV 1 express C3bR, although the pattern of rosetting of C3b-coated erythrocytes varies among the cell strains examined. We also demonstrate that C3bR expression is not a general response of human umbilical vein endothelial cells to injury, because three other viruses (adenovirus 7, measles, and mumps) do not induce C3bR after infection of these cells. Previously we had shown that among herpes simplex viruses, a variety of HSV 1 strains induce C3bR, whereas HSV 2 strains do not. We now demonstrate that other herpes family viruses (CMV and VZV) do not express C3bR. Therefore, C3bR expression appears to be unique for HSV 1 and occurs on a wide variety of cells permissive to this virus.     

Hemagglutinating Activity of Enteroviruses Recovered in Two Primary Cell Lines and a Stable Cell Line

A microhemagglutination technique was used to detect hemagglutinating properties of enteroviruses recovered in two primary cell lines, monkey kidney (MK) and human amnion (HAm), and in a continuous cell line, human embryonic lung (HEL). During a 3-year period, 1,528 isolations of enteroviruses were tested for hemagglutinating activity and hemagglutination inhibition response; 96.3% of the viruses were also identified by virus neutralization tests. Enteroviruses recovered in HEL were far less likely to develop hemagglutinins than viruses isolated in MK or HAm. Of the enteroviruses known to agglutinate human type O cells, 77.8% of the primary viral isolates from MK, 62.1% of the isolates from HAm, and 20.3% of the isolates from HEL exhibited this property. An additional 8.1% of the isolations obtained in HEL hemagglutinated human cells after a single passage in MK. The microhemagglutination technique using microtiter equipment was simple to perform, saved time and valuable typing sera, and helped to obtain identifications rapidly.     

水痘-带状疱疹病毒分离和鉴定

本文报告了用7份水痘或带状疱疹病人的皮肤病变水泡液,在人胚肺二倍体细胞(2BS)中培养传代,分离到7株病毒分离物,第一株是由带状疱疹病例分离到的,经细胞病变、核内包涵体和电镜形态学观察,认为此分离物属于疱疹病毒科成员;经血清学鉴定,证实为水痘-带状疱疹病毒(VZV),其宿主范围与疱疹病毒(HSV)不同,余6株分离物经ELISA、IFA及CF血清学试验鉴定均为VZV。     

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.     

Production of Reference Enteroviruses

Forty-five human enterovirus reagents of certified purity and quality were prepared for use as seed viruses and as immunizing antigens. One of the reagents was ampouled as "untreated" seed virus, whereas 14 were ampouled as "MgCl(2)-stabilized" reagents. The remaining 30 reagents were ampouled as "untreated" seed viruses and as "MgCl(2)-stabilized" reagents. Thirty of the reagents were propagated on primary African green monkey kidney cells, 3 on primary baboon kidney cells, 3 on primary rhesus monkey kidney cells, and the remaining 9 on human amnion cells. Forty-two of the viral antigens were concentrated for use in the production of high-titered specific antisera in large animals.     

Anti-CeHV1 antibodies of two cynomolgus macaques cross-react with HSV2 but not HSV1 antigens in ELISA

BACKGROUND: The aim of the study was to compare the cross-reactivity of macaque anti-CeHV1 antibodies with type 1 and type 2 human herpes simplex viruses (HSV1 and HSV2). METHODS: We studied the serum of 344 animals which had been tested either positive (n = 39) or negative (n = 305) for the presence of CeHV1 antibodies by expert laboratories. Macaque serums were studied by means of two ELISA: one based on HSV1 antigen-coated wells, the other on polystyrene beads coated with HSV1 and HSV2 antigens in approximately equal proportions. RESULTS: In the serum of two animals originating from Vietnam, we found anti-CeHV1 antibodies cross-reacting with HSV2 but not with HSV1 antigens. For the serum with the highest titer, inhibition by soluble antigens confirmed the high affinity of the antibodies for HSV2 antigens. CONCLUSIONS: Tests using HSV1 and HSV2 in a combined way are better suited to macaque screening than tests using only HSV1 antigens.     

C-type lectins do not act as functional receptors for filovirus entry into cells

Cellular C-type lectins have been reported to facilitate filovirus infection by binding to glycans on filovirus glycoprotein (GP). However, it is not clearly known whether interaction between C-type lectins and GP mediates all the steps of virus entry (i.e., attachment, internalization, and membrane fusion). In this study, we generated vesicular stomatitis viruses pseudotyped with mutant GPs that have impaired structures of the putative receptor binding regions and thus reduced ability to infect the monkey kidney cells that are routinely used for virus propagation. We found that infectivities of viruses with the mutant GPs dropped in C-type lectin-expressing cells, parallel with those in the monkey kidney cells, whereas binding activities of these GPs to the C-type lectins were not correlated with the reduced infectivities. These results suggest that C-type lectin-mediated entry of filoviruses requires other cellular molecule(s) that may be involved in virion internalization or membrane fusion.     

Herpes simplex-RAJI(A44), a new cell line for serologic testing by immunofluorescence.

An IF technique for the detection of HSV antibodies by using a lymphoblastoid cell line, Raji(A44), which continuously produce a constant amount of HSV antigen, is described. IF and IH tests were found to be similar with respect to sensitivity and reproducibility. Sero-conversions detected by the CF test were detected with this cell line. The Raji(A44) line (cells in suspension) can be routinely used for the diagnosis of HSV infection.     

Role of mannose-6-phosphate receptors in herpes simplex virus entry into cells and cell-to-cell transmission.

Herpes simplex virus (HSV) glycoprotein D (gD) is essential for virus entry into cells, is modified with mannose-6-phosphate (M-6-P), and binds to both the 275-kDa M-6-P receptor (MPR) and the 46-kDa MPR (C. R. Brunetti, R. L. Burke, S. Kornfeld, W. Gregory, K. S. Dingwell, F. Masiarz, and D. C. Johnson, J. Biol. Chem. 269:17067-17074, 1994). Since MPRs are found on the surfaces of mammalian cells, we tested the hypothesis that MPRs could serve as receptors for HSV during virus entry into cells. A soluble form of the 275-kDa MPR, derived from fetal bovine serum, inhibited HSV plaques on monkey Vero cells, as did polyclonal rabbit anti-MPR antibodies. In addition, the number and size of HSV plaques were reduced when cells were treated with bovine serum albumin conjugated with pentamannose-phosphate (PM-PO4-BSA), a bulky ligand which can serve as a high-affinity ligand for MPRs. These data imply that HSV can use MPRs to enter cells; however, other molecules must also serve as receptors for HSV because a reasonable fraction of virus could enter cells treated with even the highest concentrations of these inhibitors. Consistent with the possibility that there are other receptors, HSV produced the same number of plaques on MPR-deficient mouse fibroblasts as were produced on normal mouse fibroblasts, but there was no inhibition with PM-PO4-BSA with either of these embryonic mouse cells. Together, these results demonstrate that HSV does not rely solely on MPRs to enter cells, although MPRs apparently play some role in virus entry into some cell types and, perhaps, act as one of a number of cell surface molecules that can facilitate entry. We also found that HSV produced small plaques on human fibroblasts derived from patients with pseudo-Hurler's polydystrophy, cells in which glycoproteins are not modified with M-6-P residues and yet production of infectious HSV particles was not altered in the pseudo-Hurler cells. In addition, HSV plaque size was reduced by PM-PO4-BSA; therefore, it appears that M-6-P residues and MPRs are required for efficient transmission of HSV between cells, a process which differs in some respects from entry of exogenous virus particles.     

Enhanced induction of SV40 replication from transformed rat cells by fusion with UV-irradiated normal and repair-deficient human fibroblasts

Fusion of SV40-transformed rat (BRKSV) cells which do not spontaneously produce infectious virus, with permissive monkey cells resulted in a low level of production of infectious virus in the heterokaryons. UV-Irradiation of the BRKSV cells prior to fusion did not result in increased virus production, but irradiation of the monkey cells prior to fusion did result in enhanced induction (EI) of SV40, as compared to control experiments in which neither cell type was irradiated. This indicated that rat cells lack the ability to initiate replication of integrated SV40 upon UV-irradiation and do not contain "permissiveness" factors that are required to support SV40 replication. In contrast, monkey cells do contain such permissiveness factors which seem to be temporally enhanced by UV-irradiation, and thus may be responsible for the EI phenomenon. Expression of EI was dose-dependent and reached maximum values approximately 24 h after UV-irradiation. The kinetics of EI resembled that of EI previously established for SV40 induction in semi-permissive cells, and of enhanced reactivation (ER) and enhanced mutagenesis (EM) of SV40 in monkey cells. Similar kinetics of EI were obtained when human diploid fibroblasts were used for fusion with BRKSV cells. Similar levels of EI were found with normal human cells and repair-deficient xeroderma pigmentosum (XP) cells of complementation groups A and C, and XP variant cells. This suggests that expression of EI is not related to excision repair. Since EI is also normally expressed in XP cells which display an abnormal ER of HSV and in XP variant cells which show a delayed EM of HSV, we conclude that EI may occur independently of ER and EM. Finally it was shown that treatment of human cells with N-ethyl-N-nitrosourea results in similar induction of EI as irradiation with UV-light, and that addition of TPA in fusion experiments has no effect on EI.     

Herpes simplex virus type 1 strain HSV1716 grown in baby hamster kidney cells has altered tropism for nonpermissive Chinese hamster ovary cells compared to HSV1716 grown in vero cells

Chinese hamster ovary (CHO) cells are traditionally regarded as nonpermissive cells for herpes simplex virus type 1 (HSV-1) infection as they lack the specific entry receptors, and modified CHO cells have been instrumental in the identification of HSV-1 receptors in numerous studies. In this report we demonstrate that the HSV-1 strain 17+ variant HSV1716 is able to infect unmodified CHO cells but only if the virus is propagated in baby hamster kidney (BHK) cells. Infection of CHO cells by BHK-propagated HSV1716 results in expression of immediate-early, early, and late viral genes, and infectious progeny virions are produced. In normally cultured CHO cells, up to a maximum of 50% of cells were permissive for BHK-propagated HSV1716 infection, with 24 h of serum starvation increasing this to 100% of CHO cells, suggesting that the mechanism used by BHK-propagated virus to infect CHO cells was cell cycle dependent. The altered tropism of HSV1716 was also evident in another nonpermissive mouse melanoma cell line and is an exclusive property resulting from propagation of the virus using BHK cells, as viruses propagated on Vero, C8161 (a human melanoma cell line), or indeed, CHO cells were completely unable to infect either CHO or mouse melanoma cells.     

Synthesis of herpes simplex virus DNA in isolated chromatin.

Herpes simplex virus DNA synthesis was studied in isolated chromatin (HSV chromatin) of African green monkey kidney (RC-37) cells after HSV type 1 infection. After optimizing the in vitro system, HSV chromatin was shown to synthesize both viral and cellular DNA at ratios identical with those seen in vivo. After 30 min of DNA synthesis in vitro, the DNA products were identical in size to the prelabeled parental DNA. More than 60% of the newly synthesized single-stranded DNA fragments sedimented with a sedimentation constant of greater than 10 S. HSV DNA polymerase was found to be responsible for the synthesis of 80% of all in vitro made viral and most likely also cellular DNA sequences.     

An Adenovirus Isolated from the Feces of Mice

Cytopathogenic agents have been isolated in a search for viruses in the feces of apparently healthy mice (an inbred strain DK1) by using mouse kidney tissue culture. This report is concerned with the identification of strain K87, one of our isolates, as an adenovirus. Strain K87 was cytopathogenic to mouse kidney tissue culture but not to monkey kidney tissue culture, FL, and HeLa cells. The K87 strain was not able to grow in bacterial media and was resistant to penicillin, streptomycin and tetracycline. 5-Bromodeoxyuridine inhibited the occurrence of the cytopathogenic effect and virus replication in infected cells and the inhibitory effect was reversed by thymidine, suggesting that the virus contains DNA. Strain K87 was resistant to ethyl-ether but did not have the property of cationic stabilization to thermal inactivation. Electronmicroscopic observations of thin-sections of the K87-infected cells showed virus particles in crystalline array in the nuclei. Each virus particle was an icosahedron of about 75 mμ in diameter composed of 252 capsomeres, and without an envelope. By the complement fixation test, K87 was related serologically to a human adenovirus. All the facts indicate that strain K87 belongs to the adenovirus group. The problem whether strain K87 may be a new mouse adenovirus with pathogenicity and antigenicity different from that of a mouse adenovirus previously reported by Hartley and Rowe is discussed.     

Herpes simplex virus glycoproteins E and I facilitate cell-to-cell spread in vivo and across junctions of cultured cells.

Herpes simplex virus (HSV) glycoproteins E and I (gE and gI) can act as a receptor for the Fc domain of immunoglobulin G (IgG). To examine the role of HSV IgG Fc receptor in viral pathogenesis, rabbits and mice were infected by the corneal route with HSV gE- or gI- mutants. Wild-type HSV-1 produced large dendritic lesions in the corneal epithelium and subsequent stromal disease leading to viral encephalitis, whereas gE- and gI- mutant viruses produced microscopic punctate or small dendritic lesions in the epithelium and no corneal disease or encephalitis. These differences were not related to the ability of the gE-gI oligomer to bind IgG because the differences were observed before the appearance of anti-HSV IgG and in mice, in which IgG binds to the Fc receptor poorly or not at all. Mutant viruses produced small plaques on monolayers of normal human fibroblasts and epithelial cells. Replication of gE- and gI- mutant viruses in human fibroblasts were normal, and the rates of entry of mutant and wild-type viruses into fibroblasts were similar; however, spread of gE- and gI- mutant viruses from cell to cell was significantly slower than that of wild-type HSV-1. In experiments in which fibroblast monolayers were infected with low multiplicities of virus and multiple rounds of infection occurred, the presence of neutralizing antibodies in the culture medium caused the yields of mutant viruses to drop dramatically, whereas there was a lesser effect on the production of wild-type HSV. It appears that cell-to-cell transmission of wild-type HSV-1 occurs by at least two mechanisms: (i) release of virus from cells and entry of extracellular virus into a neighboring cell and (ii) transfer of virus across cell junctions in a manner resistant to neutralizing antibodies. Our results suggest that gE- and gI- mutants are defective in the latter mechanism of spread, suggesting the possibility that the gE-gI complex facilitates virus transfer across cell junctions, a mode of spread which may predominate in some tissues. It is ironic that the gE-gI complex, usually considered an IgG Fc receptor, may, through its ability to mediate cell-to-cell spread, actually protect HSV from IgG in a manner different than previously thought.     

Trypsin-treated Ma-104: a sensitive cell line for isolating enteric viruses from environmental samples

During a 1-year survey of enteroviruses in wastewater samples from the Lorraine area, three widely used continuous monkey kidney cell lines were tested: BGM, Vero, and trypsin-treated Ma-104. Decontaminated samples from secondary wastewater treatment plants (influent or effluent) were directly inoculated onto cells, and viruses were revealed after two passages with a liquid medium technique. Out of the total percentage of positive isolates with the three systems (32.7) 24.7% were found with Ma-104, 14.1% with BGM, and only 1.7% with Vero cells. Poliovirus was recovered more frequently with Ma-104 (12.3%) than with BGM (1.7%). Reovirus (3.5%) and echovirus (1.7%) were only found with Ma-104 cells; however, BGM cells allowed the isolation of a few group B coxsackieviruses (5.9%). It must be pointed out that 7.0% of samples with an unconfirmed cytopathic effect were found with BGM against 3.4% found with Ma-104, but they did not have significant differences. Because of its large spectrum of sensitivity, easy maintenance, and resistance to toxic effects, trypsin-treated Ma-104 may be recommended in conjunction with other cell lines for the detection of viruses from environmental samples, especially with the use of a liquid method.