Increased Transformation Efficiency of Simian Virus 40 in Rat Embryo Cells infected with Rauscher Leukaemia Virus

SIMIAN virus 40 (SV40) is oncogenic for hamsters¹ and Mastomys². In vitro studies have shown that SV40 is capable of transforming cells derived from hamster³, mouse⁴, rabbit⁴, pig⁴, cow⁵, monkey⁶, human⁷, guinea-pig⁸ and rat⁹. We have established and studied continuous lines of uninfected and Rauscher leukaemia virus (RLV) infected rat embryo (RE) cells¹⁰. Rat embryo cells exposed to RLV have produced infectious virus and complement-fixing (CF) antigen characteristic of the murine leukaemia-sarcoma virus complex for more than 18 months. This communication describes increased transformation efficiency of SV40 in RLV infected RE cells (RLV-RE) compared with uninfected RE cells.     

Selective Inhibition by Streptovaricin of Splenomegaly Induced Rauscher Leukaemia by Virus

STREPTOVARICINS, inhibitors of the RNA dependent DNA polymerase of oncogenic RNA viruses¹, inhibit Moloney sarcoma virus-induced transformation². If selective inhibition of virus-mediated oncogenesis can be extended to the whole animal it could provide a mode of chemotherapy which does not depend on the non-selective action of most oncolytic drugs.     

Inhibition of Mitosis and Macromolecular Synthesis in Rat Embryo Cells by Kilham Rat Virus

The effects of Kilham rat virus multiplication were studied in cultured rat embryo cells to examine the mechanisms by which virus infection might be related to developmental defects in rats and hamsters. The virus was found to inhibit motosis and deoxyribonucleic acid (DNA) synthesis within 2 to 10 hr after infection. However, total ribonucleic acid synthesis was relatively unaffected until about 20 hr after infection, and total protein synthesis did not decline significantly until loss of viable cells was apparent in the cultures. No effect on chromosomes was detected. The effect of Kilham rat virus on DNA synthesis appears to be due to inhibition of macromolecular synthesis rather than to an inhibition of uptake of precursors into cells. The effect of the virus on mitosis may be an addition to the effect on DNA synthesis, since mitosis is inhibited even in cultures in which cells are able to divide at the time of infection and which have presumably completed DNA synthesis.     

Enhanced Virus Transformation of Hamster Embryo Cells In Vitro

Since transformation of hamster cells in vitro by simian virus 40 (SV40) is a rare event in a homogeneously infected cell population, physiochemical studies of the events of virus transformation are difficult. Similarly, other deoxyribonucleic acid-containing oncogenic viruses produce transformed-cell foci in vitro with low efficiency. Sublethal doses of X-ray irradiation, as well as preincubation of hamster embryo cells with the radiomimetic analogue, 5-iododeoxyuridine, markedly sensitized hamster embryo cells to SV40 in vitro. Agents were used at dosages which neither produced lethality nor caused neoplastic transformation in the absence of virus. Embryo cells maintained in vitro for long periods of time became increasingly more sensitive to SV40 transformation. Radiation also stimulated transformation by adenovirus 31. Delay in the addition of virus to preirradiated cells reduced the susceptibility to transformation by SV40 which was observed for cells infected immediately after irradiation, suggesting that radiation repair mechanisms or, possibly, release from radiation-induced "mitotic delay" may interfere with the process of neoplastic conversion by SV40.     

Protein Kinase and Phosphate Acceptor Proteins in Rauscher Murine Leukaemia Virus

Rauscher murine leukaemia virus contains both a protein kinase and substrate proteins. The proteins phosphorylated seem to include the major structural components of the virus. The enzyme and substrate proteins are also found in other membrane-maturing viruses, including vesicular stomatitis virus.     

In Vitro Transformation of Rat and Mouse Cells by DNA from Simian Virus 40

Primary rat kidney cells and mouse 3T3 cells can be transformed by DNA of simian virus 40 when use is made of the calcium technique (Graham and van der Eb, 1973). The transformation assay in primary rat cells is reproducible, but the dose response is not linear.     

Transformation of Rat Liver Cells with Chicken Sarcoma Virus B77 and Murine Sarcoma Virus

Rat liver cells in vitro were transformed with chicken sarcoma virus B77, giving RL(B77) cells, and with murine sarcoma virus (Harvey), giving RL(MSV) cells. Rat liver cells transformed spontaneously in vitro were designated RL cells. In addition, the RL(MSV) cell line was adapted for growth in culture fluid containing 25 mug of 5-bromodeoxyuridine per ml. All cell lines were tumorigenic in 1-wk-old rats. The number of cells needed for induction of tumor growth was 1,000-fold higher in the case of RL(B77) cells in comparison with RL(MSV) cells and RL cells. No production of viral particles from any of the cell lines investigated was detected by plating concentrated supernatant fluid of the cultures on different secondary embryo cells with and without fusion by Sendai virus, by labeling with uridine-5-(3)H, or by assay for deoxyribonucleic acid polymerase activity. The viral genome was rescued by fusion of RL(B77) cells with chicken cells. Chicken sarcoma virus rescued from (RL(B77) cells differed in plating efficiency on duck cells from B77 virus rescued from transformed rat embryo cells. No virus was rescued after fusion of RL(MSV) and RL cells with mouse, rat, or chicken embryo cells. Infectious murine sarcoma virus can be induced by 5-bromodeoxyuridine from RL(MSV) cells.     

Adenovirus Transformation of Hamster Embryo Cells

Inoculation of hamster embryo cell cultures with human adenovirus type 12 (Ad12) or simian adenovirus (SA7) resulted in the formation of foci of morphologically transformed cells within 12 days. The rapid appearance of well-defined foci was dependent upon the transfer of cells into new plates, with sufficient dilution after virus adsorption, and was independent of virus dose. Dose-response studies showed linearity of focus formation with dilution of Ad12 or SA7. Results averaged from several experiments show plaque-forming unit to focus-forming unit ratios of approximately 1.8 x 10(6) for Ad12 and 2.6 x 10(5) for SA7. Other experiments showed that most of the adenovirus involved in transformation was adsorbed by 3 hr. Cell lines derived from SA7 transformed cells produced tumors within 19 days when inoculated intradermally into young adult hamsters. Such cell-induced tumors histologically resembled SA7 virus-induced hamster tumors. Formation of tumors with SA7 transformed cells was inhibited by prior immunization of test animals with SA7 or Ad12 virus.     

Morphological Transformation of Human Astrocytes by Visna Virus with Complete Virus Production

VISNA, a medium-sized RNA virus, is comparable in mode of maturation and a number of other properties with the RNA tumour viruses^1,2. The virion also carries RNA-dependent DNA polymerase^3–5. This enzyme was first discovered in RNA tumour viruses and thought perhaps unique to them^6–9; but it was subsequently found in a very few other RNA viruses^3,10, where tumorigenicity was not a known attribute. The question whether RNA-dependent DNA polymerase is a hallmark of malignancy therefore remains entirely open.     

Latent Period in Leukaemia Induction by the Radiation Leukaemia Virus

IN C57BL/6 mice, infection with the radiation leukaemia virus is age dependent and leukaemogenesis is highly effective only when the virus is inoculated shortly after birth^1,2, but several months elapse before the disease is actually manifested. Why is there such a long latent period before the leukaemic cells proliferate into a palpable tumour, especially as in the newborn mouse the target organ for the development of the disease, the thymus, is still in a proliferative stage, with abundance of immature lymphoid cells and an incompetent immunological system?     

Studies on Morphological Transformation of BALB/3T3-Derived Clones by Murine Leukemia Virus

We have described a cell line, UC1-B, derived spontaneously from BALB/3T3 mouse embryo cells, which, unlike the standard BALB/3T3, are morphologically transformed and produce bizarre viral forms in response to murine leukemia virus. Although UC1-B and BALB/3T3 are morphologically similar, and both form contact-inhibited monolayers at confluence, the UC1-B cells are partially transformed because: they grow to a slightly higher saturation density than 3T3 cells, they grow in medium lacking serum growth factors, and they produce tumors in mice. Another clone, 12A-3, derived from BALB/3T3, also transforms and produces bizarre viral forms after infection with murine leukemia virus. Unlike UC1-B cells, the 12A3-8 cells are identical in growth properties to BALB/3T3; therefore, a partially altered morphology is not required for the induction of transformation by murine leukemia virus.     

Rat C-Type Virus induced in Rat Sarcoma Cells by 5-Bromodeoxyuridine

HALOGENATED derivatives of uridine are highly effective inducers of latent C-type RNA viruses^1,2 and have been successfully used to induce viruses identical to, or similar to, the C-type RNA tumour viruses in mouse, rat and human cells^3–6. In previous experiments we used 5-bromodeoxyuridine (BrUdR) for induction of focus-forming virus in non-productive rat cells that have been transformed by mouse sarcoma virus². We describe here the induction of a C-type RNA virus in the cells of the rat tumour cell line XC, which contains the Rous sarcoma virus genome⁷. The induced virus possesses the group specific (gs) antigens of rat C-type viruses but not those of chicken C-type viruses.     

Oncogenic Transformation of Hamster Embryo Cells After Exposure to Inactivated Herpes Simplex Virus Type 1

The in vitro transformation of hamster embryo fibroblasts by herpes simplex virus type 1 (HSV-1) after exposure of the virus to UV irradiation is described. Cell transformation was induced by 2 out of 12 strains of HSV-1 that were tested for transforming potential. Cells transformed by the KOS strain of HSV-1 were not oncogenic when injected into newborn Syrian hamsters. However, cells transformed by HSV-1 strain 14-012 induced tumors in 47% of the newborn hamsters injected. HSV-specific antigens were found in the cytoplasm of cells transformed by both virus strains. Sera from tumor-bearing hamsters contained HSV-1- and HSV-2-neutralizing antibodies as well as antibodies which reacted specifically with HSV antigens by the indirect immunofluorescence technique. Hamster oncornavirus antigens were not detected by immunofluorescence methods. These observations represent the first evidence of the oncogenic potential of HSV-1.     

Morphological Aspects of the Uptake of Simian Virus 40 by Permissive Cells

After exposure of permissive cells to simian virus 40 (SV40), single particles were engulfed by the cell membrane and transported to the nucleus. The cell membrane closed tightly around the particles, increasing their diameter from 40 to 55 nm. The cell membrane was lost during interaction with the nuclear membranes, and particles of the original size were found in the nucleus 1 hr after infection. Uncoating of these nuclear particles occurred rapidly, and none could be found 4 hr after infection. Viral progeny appeared 24 hr after infection.     

Cell Line derived from Balb/3T3 that is Transformed by Murine Leukaemia Virus : a Focus Assay for Leukaemia Virus

Balb/3T3 derived cell line UC1-B transforms on MuLV infection, forming foci of transformants which can be used as an assay for MuLV. MuLV virus type C is produced as well as bizarre forms of uncertain origin.     

Enhancement of Murine Leukemia Virus Replication in Rat Tumor Cells Containing Rat C-Type Virus

The yield of Maloney leukemia virus (MLV) from MLV-infected rat cells was shown to be enhanced in rat cells containing rat C-type virus. The MLV produced in these cells was shown to be identical to murine-derived MLV and devoid of properties related to rat C-type virus.     

MIP-3α 联合成骨诱导因子诱导大鼠脂肪干细胞向成牙本质样细胞分化*

目的:观察巨噬细胞炎性蛋白-3α(MIP-3α)对大鼠脂肪干细胞(Adipose derived stem cells,ASCs)向成牙本质样细胞体外分化作用的影响。方法:分离、培养并鉴定大鼠ASCs;以MIP-3α联合成骨诱导因子(地塞米松,β-甘油磷酸钠,以及抗坏血酸)诱导第3代大鼠ASCs向成牙本质样细胞定向分化。诱导培养1、4、7d后,分别测定碱性磷酸酶(alkaline phosphatese,ALP)活性,并用RT-PCR及Western Blot检测成牙本质细胞的标志基因dspp及标志物牙本质涎蛋白(DSP)。结果:与单独加入成骨诱导因子相比,MIP-3α与成骨诱导因子联合应用能使ALP活性、dspp的mRNA表达以及DSP升高。结论:本研究显示MIP-3α与成骨诱导因子联合应用可以增强成牙本质细胞相关基因以及蛋白的表达,为牙齿再生种子细胞的寻找开辟了一条新思路。     

Virus-Specific Ribonucleic Acid in the Nucleus and Cytoplasm of Rat Embryo Cells Transformed by Adenovirus Type 2

Nuclei were isolated from rat embryo cells transformed by adenovirus type 2. Nuclear and cytoplasmic virus-specific ribonucleic acids (RNA) were characterized and quantitated by deoxyribonucleic acid (DNA)-RNA hybrid formation with adenovirus DNA. The results indicate that most, if not all, virus-specific RNA molecules are synthesized in the cell nucleus and subsequently transported into cytoplasm where they degrade with a half-life of 1 to 2 hr. No difference in base sequences between nuclear and cytoplasmic virus-specific RNA species can be detected by hybridization competition experiment with viral DNA.     

Inhibition of Leukaemia Virus Replication by Polyadenylic Acid

A PREVIOUS communication from this laboratory demonstrated that the DNA polymerase of the Rauscher leukaemia virus is strongly inhibited in vitro by unprimed, single stranded polyribonucleotides¹ as a result of competition between the polymers and the active template for the same enzyme binding site. This inhibition was apparently specific, since partially purified preparations of DNA polymerase from Escherichia coli and BALB/c mouse embryos were not inhibited in the same conditions. We attempted to determine therefore whether single stranded polyribonucleotides would have any effect on the activities of oncogenic RNA viruses in cultured cells.     

Avian Tumor Virus Proteins and RNA in Uninfected Chicken Embryo Cells

The content of proteins P19 and P15 (mol wt 19,000 and 15,000, respectively) of avian leukovirus in various types of uninfected chicken embryos has been determined by radioimmunoassay. All chicken embryos examined, including embryos which have thus far been classified as group specific (gs) antigen negative by complement fixation tests, contained these viral proteins as well as P27 as previously reported. The embryos known as “gs antigen-positive” type contained about five times as much of these viral proteins as did the “gs antigen-negative” type. The ratio of the three viral proteins was similar for all types of embryos, suggesting that the genes for these proteins are coordinately controlled. In contrast to the relatively high levels of viral internal proteins in gs antigen-negative cells, the amounts of virus-specific RNA detectable by molecular hybridization were extremely low. The levels of helper activity, which presumably reflect the level of viral envelope glycoprotein, were also generally low or undetectable in these cells. Thus, the expression of the gene for envelope glycoprotein does not appear to be controlled coordinately with the genes for viral internal proteins.