Transfer of Thymidine Kinase to Thymidine Kinaseless L Cells by Infection with Ultraviolet-Irradiated Herpes Simplex Virus

Munyon, William; Kraiselburd, Edmundo; Davis, Daniel B.; Mann, Judith

doi:10.1128/jvi.7.6.813-820.1971

Cited by 247 publications

(66 citation statements)

References 23 publications

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“…One of the first and most convincing studies demonstrated the permanent transfer of genetic information to code for virus enzyme and virus antigen. Davis et al (1974) and Munyon et al (1971; demonstrated that mouse L-cells deficient in the enzyme thymidine kinase can be converted to a positive thymidine kinase phenotype by means of HSV-1 which had been inactivated with ultraviolet light; the new thymidine kinase in the cells has the distinct properties characteristic of the herpesvirus type used to infect the cells (Ogino and Rapp, 1971). Furthermore, the viral DNA coding for the TK enzyme remains stably associated with the cells' progeny and DNA fragments of approximately 10% of the HSV genome can be detected with DNA:DNA hybridization (D. Kingsbury, 1974, personal communication).…”

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confidence: 99%

Transformation of mouse cells after infection with ultraviolet irradiation‐inactivated herpes simplex virus type 2

Boyd

Orme

1975

Intl Journal of Cancer

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A transformed mouse cell line (H238) was obtained following the infection of 238 mouse cells with ultraviolet (UV) irradiation-inactivated herpes simplex virus type 2 (HSV-2). The transformed cells produced tumors with a 100% incidence within 8 weeks in 6-week-old syngeneic BALB/c mice at an inoculum of 1 times 10(6). Indirect immunofluorescence (IF) tests revealed the presence of HSV antigens in the transformed cells. Antibodies to HSV-2 were found in the sera of tumor-bearing animals by neutralization and IF techniques. Neither HSV-2 infectious virus nor viral antigens could be detected by the transfer of transformed-cell DNA into permissive cells.

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confidence: 99%

Transformation of mouse cells after infection with ultraviolet irradiation‐inactivated herpes simplex virus type 2

Boyd

Orme

1975

Intl Journal of Cancer

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“…Candidate plasmids were cleaved with restriction nucleases and analyzed by electrophoresis in 1 % agarose gels to verify that they contained both pAGO and SV40 DNAs. After cleavage by Cla I, the candidate plasmids were also utilized to biochemically transform LM(TK-) cells to TK+ in order to show that they contained a functional TK gene (Bacchetti and Graham, 1977;Kit et al, 1980~;Munyon et al, 1971;.…”

Section: Preparation Of Cellular Viral and Plasmid D N Amentioning

confidence: 99%

Expression of SV40 T antigen polypeptides in cells biochemically transformed by plasmids containing the herpes simplex virus thymidine kinase gene and the genome of an SV40tsA mutant

Kit

Otsuka

Qavi

et al. 1981

Intl Journal of Cancer

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To study the expression of SV40 tsA genomes that had been non-selectively introduced into mouse cells, SV40 tsA207 DNA was cleaved with BamH I and ligated to BamH I-cleaved plasmid pAGO DNA, which contains a functional HSV-1 thymidine kinase (TK) gene in the form of 2 kbp Pvu II fragment inserted at the Pvu II site of pBR322. Recombinant plasmids (11-12 kbp) were isolated and amplified in E. coli K12 strain RRI. Restriction nuclease analyses demonstrated that recombinant plasmids pSB15 and pSB10 contained intact SV40 genomes with the polarity of transcription oriented in the same direction (clockwise) or the opposite direction (counterclockwise), respectively, in relation to that of the HSV-1 TK gene. Cla I-cleaved pSB10 and pSB15 DNAs were used to transform LM(TK-) cells to TK+. Serological and disc PAGE analyses showed that clonal lines transformed by these plasmids all expressed the selected marker, HSV-1 TK. Molecular hybridization experiments showed that transformed clonal lines TF pSB10 C7 and TF pSB15 C10 had integrated intact SV40 genomes at one integration site, TF pSB10 C3 had integrated an SV40 genome with a small deletion near the BamH I site, but TF pSB15 Cl had integrated a plasmid from which most of the SV40 nucleotide sequences had been deleted. IF assays with hamster anti-SV40 tumor sera showed that TF pSB10 C7 and TF pSB15 C10 strongly expressed SV40 T antigens in over 90% of the cells, TF pSB10 C3 expressed SV40 T antigens in a minority of the cells, and TF pSB15 C1 did not express SV40 T antigens at all. [35S]-methionine labelling and immunoprecipitation experiments showed that, at 36.5 degrees C: (1) TF pSB10 C7 and TF pSB15 C10 expressed 92K and 20K mol. wt. species of SV40 T antigens and 50-55K cellular protein; (2) expression of all three was reduced in TF pSB10 C3 cells; and (3) TF pSB15 C1 expressed none of the SV40 T antigens, nor did parental LM(TK-) or TF 8-2 transformed cells (which contained the HSV-1 TK gene but not SV40 DNA). At 40 degrees C, labelling of the 50-55K cellular protein was markedly reduced in TF pSB10 C7 and pSB15 C10 cells. The results suggest that SV40 large T antigen (92K) induces and/or stabilizes the 50-55K cellular protein in these mouse cells.

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“…We have used a quantitative assay for herpesvirus transformation (Rapp and Buss, 1975/76; Rapp and Turner, 1978). Because HSV carries its own TK, the "biochemical transformation" of TK-cells by virus TK allows growth of the transformed cells in selective medium which kills the remaining TKcells (Littlefield, 1965;Munyon et al, 1971;Davis et al, 1974;Rapp and Buss, 1975/76). Transformation assays were carried out using the selective medium described by .…”

Section: Transformation Assaymentioning

confidence: 99%

A nonlytic transforming mutant of herpes simplex virus type 2

Howett

Rapp

1978

Journal of Medical Virology

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A small-plaque mutant (NO.69) of herpes simplex virus type 2 (HSV-2) strain 333 has been previously isolated and characterized in this laboratory. This mutant was shown to produce a high ratio of noninfectious to infectious particles when grown at the nonpermissive temperature in hamster embryo fibroblasts [Westmoreland D. and Rapp F. (1976). Journal of Virology [8:92--102]. In this study, we have demonstrated that it is possible to obtain noninfectious stocks of this virus which retain transforming ability in a biochemical transformation assay specific for detection of the HSV gene for thymidine kinase. This mutant contains a DNA genome that has a density identical to the DNA of wild-type virus. Virus and cell DNA synthesis after infection with the mutant at both the permissive and nonpermissive temperature are similar to that observed in cultures infected with the parental virus. Clones of mouse cells biochemically transformed by this virus contain HSV antigens and are presently being examined for oncogenicity.

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Transfer of Thymidine Kinase to Thymidine Kinaseless L Cells by Infection with Ultraviolet-Irradiated Herpes Simplex Virus

Cited by 247 publications

References 23 publications

Transformation of mouse cells after infection with ultraviolet irradiation‐inactivated herpes simplex virus type 2

Transformation of mouse cells after infection with ultraviolet irradiation‐inactivated herpes simplex virus type 2

Expression of SV40 T antigen polypeptides in cells biochemically transformed by plasmids containing the herpes simplex virus thymidine kinase gene and the genome of an SV40tsA mutant

A nonlytic transforming mutant of herpes simplex virus type 2

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