UMLS:C0035412 - FACTA Search

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Query: UMLS:C0035412 (rhabdomyosarcoma)
6,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The RD cell line, derived from a human rhabdomyosarcoma, supported replication of a number of group A coxsackieviruses, including types A5 and A6 which heretofore have been propagable only in suckling mice. A number of the group A coxsackievirus types which replicated in RD cells had higher titers in this cell line than in other cell culture systems. In tests on a limited number of clinical specimens, RD cells were slightly less sensitive than suckling mice for isolation of group A coxsackieviruses, but they did permit the recovery of certain virus types which previously could be isolated only in suckling mice. Group B coxsackieviruses replicated poorly or not at all in RD cells.
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PMID:Propagation and isolation of group A coxsackieviruses in RD cells. 117 25

Infection of rhabdomyosarcoma (RD) cells by coxsackie B5 virus (CBV5) was non-cytopathic, although low titres of infectious virus were produced after 24 h post-infection. The extent of CBV5 replication in RD cells increased after sequential passage of the virus in these cells. The RD cells from the first cycle of CBV5 infection were recovered and maintained in culture for 3 months (equivalent to 21 passages) releasing infectious virus throughout this period; these cells were considered to be persistently infected with CBV5 and were designated piRD cells. Coxsackie virus antigen was demonstrated in a small proportion of piRD cells by immunofluorescence staining. High resolution two-dimensional polyacrylamide gel electrophoresis was used to analyse the intracellular proteins prepared from piRD cells, three proteins were detected which were absent in uninfected RD cells. These new proteins were similar in charge to virus proteins induced during CBV5 lytic infection of HEp-2 cells. Quantitative densitometry of 2-dimensional protein profiles of piRD and uninfected cells showed no significant disruption of RD cell protein synthesis by the persistent virus infection. Three cloned cell lines were recovered from piRD cells, none of which showed evidence of infectious virus or virus-induced protein synthesis suggesting that the parental cell line was a carrier culture for CBV5.
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PMID:Non-cytopathic infection of rhabdomyosarcoma cells by coxsackie B5 virus. 132 61

The RD variants of group B coxsackieviruses differ from their parental strains in having the ability to replicate in a human rhabdomyosarcoma cell line, RD. The nucleotide sequence of the P1 region of the RD variant of coxsackievirus B3 strain Nancy (CB3NRD) was determined by sequencing cloned cDNAs, obtained by PCR amplification. A comparison between the established nucleotide sequence and that of the P1 region from the parental virus revealed 12 point mutations which corresponded to six amino acid replacements. To identify if the P1 region is responsible for the phenotype of CB3NRD, a chimeric virus was constructed, using an infectious cDNA clone of CB3. The P1 region of the infectious cDNA was replaced by cDNA fragments from CB3N (parental strain Nancy) or CB3NRD and the resulting recombinants were assayed for their ability to infect and replicate in RD cells. The results showed that the RD phenotype of CB3NRD maps in the P1 region. Furthermore, a chimera which only contained the 5' part of the P1 region derived from CB3NRD and the remaining P1 sequence from CB3N was able to replicate in RD cells, suggesting that the VP2 polypeptide contains at least one determinant for the RD phenotype.
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PMID:Mapping of the RD phenotype of the Nancy strain of coxsackievirus B3. 132 28

The limited supply of the Lim Benyesh-Melnick antiserum pools for the typing of enteroviruses has made this test inappropriate for routine use in most clinical laboratories. We studied the correlation between the enterovirus groups and the cell lines on which they displayed cytopathic effect in order to make identifications without using the neutralization test. This study indicated that a presumptive identification of the enterovirus group could be made on the basis of characteristic cytopathic effect displayed after passage into rhabdomyosarcoma (RD), HEp-2, and primary rhesus monkey kidney (RMK) cells. Echoviruses and group A coxsackieviruses could be isolated in RD and RMK cells but not HEp-2 cells. Group B coxsackievirus could be isolated in RMK and HEp-2 cells but not RD cells. Poliovirus could be isolated in all three cell lines. We recommend the use of these cell lines to make presumptive enterovirus group identifications for routine viral isolates.
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PMID:Presumptive identification of enteroviruses with RD, HEp-2, and RMK cell lines. 216 64

A 50-kilodalton receptor protein (Rp-a) for the group B coxsackieviruses (CB) was isolated in a virus-receptor complex from detergent-solubilized HeLa cells (J. E. Mapoles, D. L. Krah, and R. L. Crowell, J. Virol. 55:560-566, 1985). It was used as an immunogen for preparation of a mouse monoclonal antibody (RmcB) which protected HeLa cells and Buffalo green monkey kidney cells from infection by all six serotypes of CB. RmcB did not protect HeLa cells from infection by poliovirus, echovirus 6, or coxsackievirus A18. This monoclonal antibody differed in receptor epitope specificity from a previously isolated antibody (RmcA) (R. L. Crowell, A. K. Field, W. A. Schleif, W. L. Long, R. J. Colonno, J. E. Mapoles, and E. A. Emini, J. Virol. 57:438-445, 1986) which blocked receptors only for type 1 CB (CB1), CB3, CB5, and echovirus 6. RmcA and RmcB recognized two distinct saturable receptors on HeLa cells, designated HR2 and HR1, respectively. Human rhabdomyosarcoma (RD) cells have the HR2 receptor for CB3-RD (a variant of CB3), but lack the HR1 receptor for CB3. Therefore, RD cells were resistant to infection by CB3. Although binding of CB3-RD to the HR2 receptor on RD cells can lead to infection, binding of CB3-RD to the HR2 receptor on HeLa cells did not lead to infection. Apparently, both CB3 and CB3-RD use only the HR1 receptor for infection of HeLa cells. Thus, a given virus may use two distinct receptors to bind to cells when only one virus-receptor interaction leads to infection.
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PMID:A monoclonal antibody specific for the cellular receptor for the group B coxsackieviruses. 245 56

Forty-two difficult-to-cultivate group A coxsackieviruses (i.e., group A types other than A7, A9, and A16), collected primarily from throat swab specimens of patients suffering from fever, pharyngitis, lymphadenopathy, and cough during the 1986 enterovirus season, were isolated in less than 24-h-old suckling mice. Thirty-six moribund mice were sacrificed and autopsied, and then their brains and back musculature were inoculated into rhabdomyosarcoma (RD), guinea pig embryo (GPE), rhesus monkey kidney (RhMk) and human carcinoma of the larynx (HEp-2) cell cultures. Twelve of the 36 suckling mice isolates were adapted to grow in RD and GPE cells after two passes and have been identified in RD cells by type-specific antisera as group A coxsackievirus types A2, A4, and A8. Three passes in RhMk or HEp-2 cell cultures were insufficient to affect a discernible cytopathic effect. Coxsackievirus types A1, A19, and A22, unable to grow in any of the four cell cultures tested, were identified by virus neutralization in suckling mice. These data denote the efficacy of suckling mice for the isolation of difficult-to-cultivate group A coxsackieviruses.
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PMID:Sensitivity of rhabdomyosarcoma and guinea pig embryo cell cultures to field isolates of difficult-to-cultivate group A coxsackieviruses. 284 70

BALB/c mice were immunized with HeLa cells, and their spleen cells were fused with myeloma cells to produce hybridomas. Initial screening of culture fluids from 800 fusion products in a cell protection assay against coxsackievirus B3 (CB3) and the CB3-RD virus variant yielded five presumptive monoclonal antibodies with three specificities: protection against CB3 on HeLa, protection against CB3-RD on rhabdomyosarcoma (RD) cells, and protection against both viruses on the respective cells. Only one of the monoclonal antibodies (with dual specificity) survived two subclonings and was studied in detail. The antibody was determined to have an immunoglobulin G2a isotype and protected cells by blockade of cellular receptors, since attachment of [35S]methionine-labeled CB3 was inhibited by greater than 90%. The monoclonal antibody protected HeLa cells against infection by CB1, CB3, CB5, echovirus 6, and coxsackievirus A21 and RD cells against CB1-RD, CB3-RD, and CB5-RD virus variants. The monoclonal antibody did not protect either cell type against 16 other immunotypes of picornaviruses. The monoclonal antibody produced only positive fluorescence on those cells which were protected against infection, and 125I-labeled antibody confirmed the specific binding to HeLa and RD cells. The results suggest that this monoclonal antibody possesses some of the receptor specificity of the group B coxsackieviruses.
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PMID:Monoclonal antibody that inhibits infection of HeLa and rhabdomyosarcoma cells by selected enteroviruses through receptor blockade. 300 76

A coxsackievirus B3 variant, CB3-RD, isolated on rhabdomyosarcoma (RD) cells is known to bind HeLa cells at two different receptor protein sites, HR1 and HR2. Since HR2 occurs in almost 50 fold excess of HR1 in HeLa cells, purification of HR2 was attempted, to obtain its partial N-terminal amino acid sequence and its further characterization. This study describes the purification of HR2 from octylthioglucoside solubilized HeLa cell membranes (HeLa-OTG) by preparative isoelectric focusing (IEF) followed by either preparative sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) or affinity chromatography on immobilized receptor monoclonal antibody, RmcA (RmcA-agarose). IEF of HeLA-OTG showed that both HR2 and HR1 could be well separated by this technique and focused with peak maxima around pH 3.7 and 6.7, respectively. Both RmcA and CB3-RD recognized HR2 as doublet bands (60 kD major polypeptide and a minor 55 kD polypeptide) on electroblots under non-reducing conditions. Preparative SDS-PAGE of the pool of IEF fractions containing HR2 (IEF pool) and simultaneous elution of polypeptides from the bottom of the gel during electrophoresis, is shown to be a useful technique in purifying HR2 with only one contaminating polypeptide (65 kD). However, affinity chromatography of the IEF pool on RmcA-agarose yielded HR2 without any detectable contaminating polypeptide. A quantitative chemiluminescence assay was developed to estimate the amount of HR2 on HeLa cells and in solution, when dot blotted on polyvinylidene difluoride (PVDF) membranes and probed with RmcA. Assays revealed that about 1.2% of the total HR2 present on HeLa cells could be obtained by IEF followed by affinity chromatography. Efforts are continuing to obtain sufficient quantities of purified HR2 for partial N-terminal amino acid sequencing.
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PMID:Attempts to purify a second cellular receptor for a coxsackievirus B3 variant, CB3-RD from HeLa cells. 823 13

Previously we showed for coxsackievirus A9 (CAV-9) that specific interactions between the RGD motif of capsid protein VP1 and the alpha v beta 3 integrin are involved in virus binding and entry into green monkey kidney cells (GMK) and some other cell lines. The RGD-recognizing alpha v beta 3 integrin is known as the vitronectin receptor (VNR). During replication in the gut, CAV-9 like all other enteroviruses are exposed to host proteolytic enzymes, and we showed previously that the RGD-containing 15 amino acids long carboxy terminal extension of VP1 is cleaved off by trypsin. The trypsin-treated CAV-9 was still infectious, although at an apparently reduced level as assessed in GMK cells. This indicated that the virus was able to bypass the RGD-dependent entry and possibly use an alternative receptor. We have now found that in RD cells, a human rhabdomyosarcoma cell line, neither RGD-containing oligopeptides nor polyclonal antiserum to VNR are able to protect the cells from CAV-9 infection suggesting that the RGD motif is not involved in binding or entry of the virus into these cells. This result was further confirmed by demonstrating that, in RD cells, the trypsin-treated CAV-9 lacking the RGD-containing insert appeared to be as infectious as the untreated virus. The most striking difference between the virus receptors in the RD and the GMK cells was seen when the rate of virus uncoating was studied. For virus particles bound to the RD cells, the uncoating step started already at 18-20 degrees C and the process went on rapidly at 36 degrees C resulting in complete disintegration of cell-bound virions. In contrast, alpha v beta 3-bound virus particles in the GMK cells appeared to uncoat slowly even at 36 degrees C and during the 90 min observation period only a small, hardly visible fraction was found to be disintegrated. Trypsin-cleaved CAV-9 showed the rapid disintegration kinetics in GMK cells as well suggesting that these cells contain both types of receptor specificity. These results indicate that CAV-9 is able to use two different entry routes into host cells depending on the target cells and on phenotypic properties of the virus regulated by host proteases.
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PMID:Efficient RGD-independent entry process of coxsackievirus A9. 892 Aug 24

Exploiting the lytic life cycle of viruses has gained recent attention as an anticancer strategy (oncolysis). To explore the utility of adenovirus (Ad)-mediated oncolysis for rhabdomyosarcoma (RMS), we tested RMS cell lines for Ad gene transduction and infection. RMS cells were variably transduced by Ad. Compared with control cells, RMS cells were less sensitive or even resistant to oncolysis by wild-type virus. RMS cells expressed the Ad internalization receptors, alpha(v) integrins, but had low or undetectable expression of the major attachment receptor, coxsackievirus-Ad receptor (CAR). Mutant Ads with ablated CAR binding exhibited only 5-20% of transgene expression in RMS cells seen with a wild-type vector, suggesting that residual or heterogeneous CAR expression mediated the little transduction that was detectable. Immunohistochemical analysis of archived clinical specimens showed little detectable CAR expression in five embryonal and eight alveolar RMS tumors. Stable transduction of the cDNA for CAR enabled both efficient Ad gene transfer and oncolysis for otherwise resistant RMS cells, suggesting that poor CAR expression is the limiting feature. Gene transfer to RMS cells was increased >2 logs using Ads engineered with modified fiber knobs containing either an integrin-binding RGD peptide or a polylysine peptide in the exposed HI loop. The RGD modification enabled increased oncolysis for RMS cells by a conditionally replicative Ad, Ad delta24RGD, harboring a retinoblastoma-binding mutation in the E1A gene. Thus, the development of replication-competent vectors targeted to cell surface receptors other than CAR is critical to advance the use of Ad for treating RMS.
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PMID:Fiber knob modifications overcome low, heterogeneous expression of the coxsackievirus-adenovirus receptor that limits adenovirus gene transfer and oncolysis for human rhabdomyosarcoma cells. 1130 73

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