The Incorporation of Sv40 Genetic Material Into Adenovirus 7 as Measured by Intranuclear Synthesis of Sv40 Tumor Antigen

Rapp, Fred; Melnick, Joseph L.; Butel, Janet S.; Kitahara, Tsunehiro

doi:10.1073/pnas.52.6.1348

Cited by 113 publications

(49 citation statements)

References 15 publications

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“…The interaction among these harbored viruses may be crucial to the pathological state and may be of particular significance with regard to latent virus infection. Indeed, the replication of numerous viruses has been shown to be affected by the presence of coinfecting viruses such as human adenoviruses and simian virus 40 (12,13) or simian adenovirus SV15 (14), Marek's disease virus and avian leukosis virus (15), and Moloney sarcoma and leukemia viruses (16). To rescue potentially defective HSV in neurons, Brown and coworkers (17) To establish latent infection of HEL cells with HSV-2, we followed previously described protocols (18,19).…”

mentioning

confidence: 99%

Reactivation of herpes simplex virus type 2 from a quiescent state by human cytomegalovirus.

Colberg-Poley¹,

Isom²,

Rapp³

1979

Proc. Natl. Acad. Sci. U.S.A.

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The ability of human cytomegalovirus to stimulate replication of herpes simplex virus type 2 (HSV-2) was examined. The system used involved HSV-2-infected human embryonic lung cells under conditions (39.5-40°C) in which HSV-2 remains undetectable. Reactivation of HSV-2 was maximal and persisted for the longest duration when cultures were superinfected with 0.02 plaque-forming unit of human cytomegalovirus per cell. Infectious HSV-2 appeared 2 days after superinfection with human cytomegalovirus and ranged from 102 to 106 plaque-forming units per culture. Virus reactivated from these cultures was neutralized by rabbit immune serum produced against HSV-2. The specificity of this interaction was demonstrated by various criteria: production of HSV-2 was not observed in cultures treated with mock infecting fluid, and inactivation of human cytomegalovirus by heat, ultraviolet irradiation, or immune serum prior to superinfection eliminated its ability to induce HSV-2 replication. These results suggest that interaction between these two human herpesviruses may be of importance in herpesvirus latency in vivo.Herpes simplex virus (HSV) is maintained in a latent state (1) within the neural tissue of humans (2-6). The establishment of latency, the state of the virus, and the conditions leading to reactivation of virus are the current foci of research in this area. HSV virions and antigens in latently infected neural tissues were not detected by electron microscopy and immunofluorescence studies (1, 7). Later studies, however, demonstrated the expression of an HSV-specified enzyme, thymidine kinase (8), in the dorsal root ganglia of latently infected mice (9). This evidence suggested that the HSV genome was at least partially expressed during latency. Ganglia from latently infected mice (10) and humans (11) have also been examined by solution hybridization; HSV DNA was detected in neurons during both the acute and latent (or chronic) states (10). In contrast, virus mRNA was not detected during latent infection (10). The lack of detectable HSV mRNA contrasted strongly with the finding of HSV-specified thymidine kinase in the ganglia of latently infected mice. This paradoxical situation was resolved when in situ hybridization methods detected HSV mRNA in a small percentage (0.4-8%) of neurons in human sensory ganglia (11), substantiating that transcription of at least some regions of the HSV genome occurs during latency.We were interested in studying the reactivation of HSV type 2 (HSV-2). Frequently, under natural conditions, the human host is simultaneously a reservoir for multiple animal viruses. The interaction among these harbored viruses may be crucial to the pathological state and may be of particular significance with regard to latent virus infection. Indeed, the replication of numerous viruses has been shown to be affected by the presence of coinfecting viruses such as human adenoviruses and simian virus 40 (12, 13) or simian adenovirus SV15 (14), Marek's disease virus and avian leukosis virus (15), and Molon...

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mentioning

confidence: 99%

Reactivation of herpes simplex virus type 2 from a quiescent state by human cytomegalovirus.

Colberg-Poley¹,

Isom²,

Rapp³

1979

Proc. Natl. Acad. Sci. U.S.A.

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“…The explanation for these failures became evident when it was found that the insidious SV40 and/or respective antigens originated from hybrid viruses carrying SV40 and HAdV DNA [77][78][79]. Ironically, it was the selection for these hybrid viruses that allowed the production of the vaccine material in the first place.…”

Section: Adenovirus Vectors: Backgroundmentioning

confidence: 95%

Adenovirus: from foe to friend

Gonçalves

Vries

2006

Reviews in Medical Virology

104

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Human adenoviruses (HAdVs) can cause mild respiratory, gastrointestinal, urogenital and ocular disease. Knowledge about HAdVs has been expanding for more than five decades putting them amongst the most-studied viruses. This continued interest stems, to a great extent, from the fact that these double-stranded DNA viruses have proven to be a versatile tool to probe the basic phenomena of eukaryotic cells. HAdV research has led to the discovery of, for instance, RNA splicing and greatly contributed to our knowledge of processes as fundamental as replication, transcription and translation. Moreover, the transformation of rodent cells by HAdVs has provided a system to unravel the molecular pathways that control cell proliferation. As a result, the genetic organisation of these agents is known in great detail allowing the straightforward manipulation of their genomes. In addition, the virus itself became renowned for its ability to produce large amounts of progeny and to efficiently infect mammalian cells regardless of their cell cycle status. These features contributed to the broad use of recombinant HAdVs as gene carriers particularly in in vivo settings where the vast majority of target cells are post-mitotic. The most advanced type of HAdV vectors can accommodate up to 37 kb of foreign DNA and are devoid of viral genes. With the aid of these high-capacity HAdV vectors large physiologically responsive transcriptional elements and/or genes can be efficiently introduced into target cells while minimising adaptive immune responses against the transduced cells. This article provides information on HAdV especially on the aspects pertinent to the design, production and performance of its recombinant forms. The development and characteristics of the main HAdV-based vector types are also briefly reviewed.

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“…The salient properties of the viruses employed in this study are summarized in table 1. The SV40-Ad 7 hybrid virus (E46 + , stock SP2, designated PARA-Ad 7) has been described in detail [2]. 2 additional passages of this virus were carried out in GMK cells prior to this study.…”

Section: Methodsmentioning

confidence: 99%

“…Cells infected with PARA synthesize SV40 tumor (T), U and trans plantation antigens, but no SV40 viral (V) antigen [2][3][4][5]. PARA-Ad 7 can induce SV40-typc tumors in vivo; it is highly oncogenic, whereas the parental Ad 7 is very weakly oncogenic in newborn hamsters [6,7], PARA also ex presses the SV40 function of enhancing human adenovirus replication in cells of simian origin [8].…”

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confidence: 99%

Genetic Evidence for a Temperature-Sensitive Lesion in the Adenovirus 7 Region of the PARA Genome

Estes¹,

Butel²

1978

Intervirology

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It has previously been shown that the helper adenovirus (Ad) present in the defective Ad 7-SV40 hybrid population is temperature-sensitive (ts) for replication in human cells. This study has shown that the replication of the defective hybrid virus (PARA) in green monkey kidney cells is also restricted at 40.5°. Complementation tests between the parental or transcapsidant PARA populations and SV40 or various Ad serotypes revealed that the ts lesion is located in the Ad region of the hybrid genome. Wild-type (wt) Ad type 7 and Ad type 21 were able to complement the replication of PARA while Ad type 31 was unable to do so. Complementation was more efficient after the PARA genome was transcapsidated to the wt isolates of helper Ad than during multiple infections with the parental hybrid population. The SV40 function which complements the replication of human adenoviruses in simian cells is not expressed by PARA at the nonpermissive temperature. However, the ts lesion does not affect the expression of SV40 functions coded for by PARA under other conditions, i.e., complementation of the replication of human adenoviruses in transformed monkey cells, and synthesis of T antigen in lytically infected or transformed cells. Although the exact nature of the mutated Ad 7 gene product is unknown, heat inactivation data suggest that it may be a structural protein.

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The Incorporation of Sv40 Genetic Material Into Adenovirus 7 as Measured by Intranuclear Synthesis of Sv40 Tumor Antigen

Cited by 113 publications

References 15 publications

Reactivation of herpes simplex virus type 2 from a quiescent state by human cytomegalovirus.

Reactivation of herpes simplex virus type 2 from a quiescent state by human cytomegalovirus.

Adenovirus: from foe to friend

Genetic Evidence for a Temperature-Sensitive Lesion in the Adenovirus 7 Region of the PARA Genome

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