JOURNAL TRANSCRIPT
Bulletin of the World Health Organization, 58 (3): 423-428 (1980)
Routine enterovirus diagnosis in a human rhabdomyosarcoma cell line ELEANOR J. BELL 1 & BONNIE P. COSGROVE2 For many years a substitute cell line has been sought to replace monkey kidney cell cultures for the diagnosis of enterovirus infections. Reports by various workers have shown that the RD cell line, derived from a human rhabdomyosarcoma, will support the replication of most of the prototype strains of enterovirus. The present study shows that, with the exception of the group B coxsackieviruses, RD cells are more sensitive than cynomolgus monkey kidney cultures for the isolation of a wide variety of enteroviruses from clinical specimens. Since regular access by many diagnostic laboratories to supplies ofprimary cell cultures is often difficult because of distance from source or cost factors, a simple cell culture system is proposed which should prove usefulfor the diagnosis of most of the important enterovirus infections. Although monkey kidney is the cell system most widely used for the isolation of enteroviruses, its cost limits its use in many diagnostic laboratories. Added to this there is now great uncertainty regarding future supplies of monkeys, and this shortage may eventually make it impossible to use monkey tissue at all. Repeated researches over the last two decades have failed to provide an acceptable substitute in the form of a continuous cell line equal to monkey kidney for the detection and growth of enteroviruses. Recently, however, various workers (1-3) have reported the multiplication of prototype strains of polioviruses, most of the group A coxsackieviruses, and many of the echoviruses in RD cells, a cell line established by McAllister et al. (4) from a human rhabdomyosarcoma. Their studies on the isolation of these enteroviruses from clinical specimens were limited but promising. We decided therefore to investigate the practical value of RD cells by comparing their use in the iso' Head, Enterovirus Reference (Scotland) Laboratory, Ruchill Hospital, Glasgow G20 9NB, Scotland. 2 Medical Laboratory Scientific Officer, Regional Virus Laboratory, Ruchill Hospital, Scotland.
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lation of a variety of enteroviruses from clinical specimens with that of secondary cynomolgus monkey kidney cells. We also incorporated RD cells into our routine enterovirus isolation cell culture system (5) during the period May-December 1978. On the basis of our results, together with previous reports (1-3), a simple and inexpensive cell culture system is proposed which may greatly facilitate the diagnosis of most important human enteroviruses. MATERIALS AND METHODS
Cell cultures RD cells, derived from a human rhabdomyosarcoma (4), were obtained directly from the American Type Culture Collection at the 40th passage. They were grown in bottles in Eagle's minimum essential medium (MEM) supplemented with 100 ml of fetal calf serum per litre and with antibiotics. Tube cultures were seeded with approximately 100 000 cells/ml and incubated at 36 'C. When confluent (usually 2 days) the cultures were maintained in
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E. J. BELL & B. P. COSGROVE
Leibovitz medium No. 15, supplemented with 20 ml of fetal calf serum per litre and antibiotics. The cells were used between the 60th and 137th passages. Cynomolgus monkey kidney (CMK) cells were obtained commercially in bottles. Tube cultures of secondary CMK were prepared as described elsewhere (5); the maintenance medium was Eagle's MEM supplemented with 5 ml of fetal calf serum per litre and added antibiotics. Human embryo lung (HEL) cells were obtained from the lung of an aborted embryo and used between the 14th and 27th passages. Tube cultures were maintained in Eagle's MEM with 10 ml of fetal calf serum and 1.5 ml of tryptose phosphate broth per litre and added antibiotics. Clinical specimens and virus isolation Comparative susceptibility of RD and CMK cells. A total of 140 faecal extracts that had been stored for various lengths of time between 1960 and 1977 and had previously yielded enteroviruses in routine cell cultures were selected for testing in RD and CMK cells, 0.1 ml of each extract being inoculated in parallel into duplicate tubes of RD and CMK cell cultures and examined microscopically, daily for 21 days, for the development of cytopathic effects (CPE). Cultures showing CPE were frozen at -20 °C and passaged to a further two tubes of the respective cell culture in preparation for virus identification. If no CPE was detected, a total of three blind passages was made at intervals of 7-8 days after which results were regarded as negative. Practical usefulness of RD cells for enterovirus diagnosis. Altogether, 504 specimens of faeces or eye swabs and 227 specimens of cerebrospinal fluid (CSF) received between May and December 1978 were tested in RD, CMK, and HEL cultures. At least half the specimens were from cases of aseptic meningitis, the rest from patients with various neurological conditions, heart disease, conjunctivitis, respiratory disease, or undiagnosed pyrexia. First, 0.2 ml of each specimen (faecal extract, eye swab in virus transport medium, or CSF) was inoculated in parallel into duplicate tubes of RD, CMK, and HEL cultures. The tubes were then examined daily for the appearance of CPE for 14-21 days, with one or two blind passages at intervals of 7-8 days.
Identification of isolates Virus recovered was identified in the respective cell line by tube neutralization tests (5) using WHO equine enterovirus antiserum pools A-H (6) or homotypic monkey antisera.
RESULTS
Comparative susceptibility of RD and CMK cells From the 140 faecal extracts, selected because they had previously yielded enteroviruses on routine cell culture, 64 and 66 enteroviruses were reisolated in RD and CMK cells, respectively (Table 1). Details of the poliovirus and coxsackievirus isolations are given in Table 2. The three types of poliovirus tested were isolated equally readily in both cell systems; CMK cells were marginally better for the isolation of the two group A coxsackieviruses tested (A9, A16). Not unexpectedly (1), BI -B5 viruses were recovered only in CMK.
Table 1. Comparison of results with RD and CMK cells in reisolation of viruses from 140 faecal specimens Poliovirus
Coxsackievirus A
B
Echovirus
Total
No. RD-positive No. CMK-positive
2 2
5 6
0 6
57 52
64 66
Total no. of specimens tested
2
12
10
116
140
Since little was known about the susceptibility of RD cells to the echovirus group, our comparative investigations concentrated particularly on this aspect. Twenty-seven different echovirus serotypes were tested, of which 23 were recovered in RD and 21 in CMK (Table 3). Echoviruses 11, 21, and 27 were recovered only in RD, and echovirus 1 was recovered only in CMK. We failed to reisolate echoviruses 2, 24, and 33 in either cell system. RD was superior to CMK for the isolation of echoviruses 3, 6, 11, 12, 13, 19, 21, 22, 27, 30, and 31, a useful property, since epidemics, particularly of echovirus 6, 11, 19, and 30, are common in many parts of the world. Echovirus 9 (or coxsackievirus A23), another frequent cause of epi-
demics of aseptic meningitis, although isolated in both cell systems, was slower in producing CPE in RD (mean 8.2 days) compared with CMK (mean 3.5 days). The recovery rate of echovirus 16 and, to a lesser extent, echoviruses 17 and 18 was poorer in RD than in CMK. The remainder of the echoviruses studied were recovered with equal facility in both cell systems.
ROUTINE ENTEROVIRUS DIAGNOSIS
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Table 2. Comparative sensitivity of RD and CMK cells for reisolation of certain polioviruses and coxsackieviruses from faecal extracts RD cells
CMK cells
Days to complete CPE Virus type
No. positive/ no. examined
range
Polioviruses 1, 2, and 3 1
1/1 1/1
Coxsackieviruses A9 A16 B1 B2 B3 B4 B5 B6
3/8 2/4 0/2 0/2 0/2 0/1 0/2 0/1
Days to complete CPE
mean
No. positive/ no. examined
range
mean
2 3
2 3
1/1 1/1
2 2
2 2
6-15 9-15 0 0 0 0 0 0
10 12 0 0 0 0 0 0
3/8 3/4 1/2 1/2 1/2 1/1 2/2 0/1
4-11 7-21 5 5 6 2 4-5 0
6.3 12.3 5 5 6 2 4.5 0
Practical usefulness of RD cells in enterovirus diagnosis The results of testing a total of 731 clinical specimens in parallel in RD, CMK, and HEL cell cultures between May and December 1978 are given in Table 4. Both poliovirus serotypes were detected best in RD. Again the coxsackie B2 infection was detected only in CMK. Of the total of 44 echoviruses isolated (representing 8 different serotypes) 37, 29, and 36 were recovered in RD, CMK, and HEL cultures, respectively. RD proved superior to both CMK and HEL for the isolation of echoviruses 11 and 33 which were the predominant echoviruses in the United Kingdom in 1978. Overall, RD and HEL cells were similar in their pattern of susceptibility for those echoviruses detected. Irrespective of the enterovirus type isolated, the CPE produced in RD cells was very pronounced. DISCUSSION
In the course of this study, a total of 871 clinical specimens were inoculated into RD cells. Toxicity, especially of faecal extracts, was no more troublesome in this cell line than in the other cell cultures used. The pronounced CPE produced by enteroviruses in RD was readily distinguishable from non-specific toxicity or aging of the cultures.
In the comparative isolation studies carried out, RD proved as useful as CMK for the isolation of the polioviruses and the two coxsackievirus A types investigated. It was superior to CMK for the isolation of many of the echoviruses associated with aseptic meningitis (types 3, 6, 11, 12, 13, 19, 27, 30). As expected from other observations (1), we failed to detect any of the coxsackie Bl-B5 isolates in RD cells. The incorporation of RD cells into our routine enterovirus diagnostic regime showed that RD cells were far superior to CMK for the detection of most of the enteroviruses encountered during May- December 1978. Both RD and HEL cultures were similar in their pattern of susceptibility, especially for the echoviruses. However HEL cells have the great disadvantage that they are more fastidious to maintain in culture, their number of passages in a diagnostic laboratory is usually limited to 35-40, and enterovirus CPE can often be confused with non-specific toxicity or aging of the cultures. RD cells have none of these disadvantages; in fact they have been cultured continuously for more than 200 passages without any apparent alteration in virus sensitivity (N. J. Schmidt, personal communication, 1978). Because of the many advantages listed above, RD cells have been incorporated in our routine enterovirus diagnostic system since January 1979. On the basis of our observations on the isolation of a wide variety of enteroviruses from clinical speci-
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E. J. BELL & B. P. COSGROVE
Table 3. Comparative sensitivity of RD and CMK cells for reisolation of certain echoviruses from faecal specimens RD cells
CMK cells
Days to complete CPE Echovirus type 1 2 3 4 5 6 7 8 9 11 12 13 14 15 16 17 18 19 20 21 22 24 25 27 30 31 33
No. positive/ no. examined
0/3 0/5 2/2 3/5 2/5 2/3 3/3 4/5 4/4 2/3 3/3 4/6 4/4 2/5 1/7 1/5 2/4 4/4
2/8 1/5 1/4 0/2 1/6 1/5 6/7 2/2 0/1
range
mean
0 0 2-3 4-8 9-20 2-3 2-10 6-8 4-14 3-6 1-2 2-4 4-16 6-8 12 6 6 3-4 2 8 7 0 6 3 4-8 5-11 0
0 0 2.5 5.3 14.5 2.5 5 7.2 8.2 4.5 1.7 2.7 7.5
mens, taken in conjunction with the reports of Schmidt et al. (1) and Wecker & ter Meulen (3), we suggest the adoption of the simple and inexpensive cell culture system discussed above for enterovirus diagnosis. This should not only help to broaden the scope of enterovirus detection by smaller peripheral laboratories, but should also be suitable for laboratories in developing countries where the regular importation of primary or semi-continuous cell lines is precluded by distance from source, transport delays,
Days to complete CPE No. positive/ no. examined
range
mean
1/3 0/5 2/2 3/5 2/5 2/3 2/3 4/5 4/4 0/3 3/3 4/6 4/4 2/5 4/7 2/5 3/4 2/4 2/8 0/5 1/4 0/2 1/6 0/5 3/7 1/2 0/1
4 0 5-11 5-6 5-9 4-7 4 2 3-4 0 3-11 6-12 4-9 4-6 5-9 6-14 7-8 4-10 2 0 13 0 8 0 4-8 5 0
4 0 8 5.3 7 5.5 4 2 3.5 0 6 8.7 5.7 5 7.5 10 7.3 7 2 0 13 0 8 0 6 5 0
7 12 6 6 3.5 2 8 7 0 6 3 5.7 8 0
or cost factors.
The combined use of RD and HeLa continuous cell lines permits the isolation of most of the important enteroviruses (including group B coxsackieviruses) and, in addition, many adenoviruses and herpes simplex virus. Because of the pronounced CPE produced by enteroviruses in both RD and HeLa cell cultures, serological investigations of individual cases or community surveys are possible using the simple micrometabolic inhibition test (7).
427
ROUTINE ENTEROVIRUS DIAGNOSIS
Table 4. Comparative sensitivity of RD and other cell lines for isolation of enteroviruses from clinical specimens submitted May-December 1978
0 8
0/1 0/2
0 0
0 0
7-9
8
0/2
0
0
5-9 5-6 3 1-13 10 0 0 7-9
6.7 5.7 3 6.7 10 0 0 8
3/5 2/3 1/1 20/23 0/1 2/2 1/1 7/8
3-9 4-7 3 1-14 0 8-18 2 2-7
6 5.5 3 5.7 0 13 2 4.7
9 4.5
0/1 2/2
0 4-12
0
0
2/2
5-7 4-6 0 1-11 20 0 9 2-11
6 5 0 5.2 20 0 9 5.6
4/5 3/3 1/1 18/23 1/1 0/2 0/1 2/8
1/1 2/2
9 2-7
Coxsackievirus B2
0/2
3/5 2/3 0/1 22/23 1/1 0/2 1/1 8/8
mean
mean
Polioviruses 2 3
Echoviruses 3 7 8 11 15 17 21 33
range
range
range
no.
No. positive/ examined
No. positive/ examined
No. positive/ examined
type
mean
Days to complete CPE
Days to complete CPE
Days to complete CPE Virus
HEL cells
CMK cells
RD cells
no.
no.
ACKNOWLEDGEMENTS
We wish to thank Mr T. Coutts, Managing Director, Gibco-Europe, Scotland, for providing the RD cells for this study and the National Institutes of Health, Bethesda, MD, USA, for supplies of equine and monkey enterovirus antisera.
RESUME PROCtDE COURANT DE DIAGNOSTIC DES ENTtROVIRUS EN LIGNtE CELLULAIRE DE RHABDOMYOSARCOME HUMAIN
Les rapports etablis par divers auteurs montrent que la lignee cellulaire RD, deriv&e d'un rhabdomyosarcome humain, permet d'entretenir la multiplication de la plupart des souches prototypes d'enterovirus. Cet article presente les resultats d'etudes faites en utilisant les cellules RD pour l'isolement de divers enterovirus provenant de specimens cliniques. La sensibilite comparee des cultures faites sur cellules RD et sur cellules renales primaires de singes Macaca cynomolgus (CMK) pour l'isolement des ent&rovirus a e etudiee en inoculant en parallele 140 extraits fecaux, qui avaient e conserves entre 1960 et 1977, et dans lesquels on avait anterieurement decouvert un enterovirus. Les cellules RD se sont revelees aussi utiles que les cellules CMK pour l'isolement des poliovirus et des deux types de virus Coxsackie du
groupe A eprouves, mais nous n'avons reussi A deceler aucun des groupes Bl-B5 de virus Coxsackie dans les cellules RD. Sur les 27 serotypes d'echovirus differents qui ont e eprouves, 23 ont e retrouves dans les cultures RD et 21 dans les cultures CMK. Les cellules RD se sont montrees superieures aux cellules CMK pour isoler un grand nombre des echovirus souvent rencontres en association avec une meningite A liquide clair (types 3, 6, 11, 12, 13, 19, 27, 30). Le taux de recuperation des echovirus types 16, 17 et 18 a et moindre dans les cellules RD que dans les cellules CMK. Le reste des echovirus etudies a ete recueilli avec une egale facilite dans les deux systemes de cultures cellulaires. L'interet pratique des cellules RD a &e etudie en inoculant au total 731 specimens cliniques, regus entre mai et decembre 1978, en parallele dans des cultures de cellules RD,
428
E. J. BELL & B. P. COSGROVE
CMK et des cultures semi-continues de cellules pulmonaires d'embryons humains (HEL). Les cellules RD se sont montr&es superieures aux cellules CMK et HEL pour l'isolement des poliovirus. L'isolat du virus Coxsackie B2 n'a e decele que dans les cultures CMK. Sur l'ensemble des 44 echovirus isoles (representant huit serotypes differents), 37, 29 et 36 ont et respectivement recueillis dans les cultures de cellules RD, CMK et HEL. Dans l'ensemble, les cellules RD et HEL ont presente une sensibilite similaire, mais les
cellules HEL ont l'inconvenient consid&rable d'etre plus difficiles a entretenir en culture et d'avoir une dur&e de vie limitee. Pour les laboratoires qui ne peuvent facilement avoir acces a des cultures de cellules primaires, nous estimons que l'emploi combine de lign&es cellulaires continues RD et HeLa fournirait un systeme de cultures cellulaires simple et peu couteux pour le diagnostic de la plupart des enterovirus interessant l'homme.
REFERENCES 1. SCHMIDT N. J. ET AL. Propagation and isolation of group A coxsackieviruses in RD cells. Journal of clinical microbiology, 2: 183-185 (1975). 2. WECKER, I. The use of RD cells in the isolation of ECHO type 30 virus from patients with aseptic meningitis. Medical microbiology and immunology, 163: 45-51 (1977). 3. WECKER, I. & MEULEN, V. TER. RD cells in the laboratory diagnosis of enteroviruses. Medical microbiology and immunology, 163: 233-240 (1977). 4. McALLISTER, R. M. ET AL. Cultivation in vitro of cells derived from a human rhabdomyosarcoma. Cancer, 24: 520-526 (1969).
5. GRIST, N. R. ET AL. Diagnostic methods in clinical virology, 3rd ed., Oxford, Blackwell, 1979, pp. 69-70. 6. SCHMIDT, N. J. ET AL. Evaluation of enterovirus immune horse serum pools for identification of virus field strains. Bulletin of the World Health Organization, 45: 317-330 (1971). 7. KYRIAZOPOULOU, V. G. & BELL, E. J. A micrometabolic inhibition test for the estimation of poliovirus neutralizing antibodies. Bulletin of the World Health Organization, 47: 171-175 (1972).