Inhibition of Sindbis Virus Release by Media of Low Ionic Strength: an Electron Microscope Study

Release of Sindbis virus from infected cells is inhibited by lowering the ionic strength of the medium. To determine the nature of the inhibited step, we examined, by electron microscopy, both freeze-etched and thin-sectioned preparations which had been fixed with either glutaraldehyde or formaldehyde. Inhibitory medium had two different effects on Sindbis virus release: virus budding was partially inhibited, and those virions which did mature were precipitated on the surface of the cell. Freeze-etched, inhibited cells showed very few viral buds. After shift to normal medium, the number of budding virions increased dramatically, far exceeding the quantity found in normal controls. Thus, low ionic strength medium clearly inhibited an early stage of virus maturation. The results were the same regardless of the fixative. Thin sections of glutaraldehyde-fixed, inhibited cells contained large extracellular aggregates of mature virus which were not present in similar, formaldehyde-fixed preparations. Fixation of radioactively-labeled, inhibited cultures revealed that approximately half of the virus that could be released from inhibited cells by raising the ionic strength of the medium could also be released by formaldehyde, but not by glutaraldehyde. This fraction probably represents mature virus attached to the cell surface by the ionic conditions.     

Vanadium stimulates the (Na+,K+) pump in friend erythroleukemia cells and blocks erythropoiesis

Friend murine erythroleukemia cells underwent apparently normal erythropoiesis when treated with dimethyl sulfoxide. One of the earliest events associated with this induction was a decrease in ouabain sensitive 86Rb+ uptake, an assay of the plasma membrane Na,K(ATPase). Ammonium vanadate (10 microM) blocked differentiation of these cells without affecting cell viability. Vanadium was taken up by Friend cells and prevented the dimethyl sulfoxide-induced decrease in ouabain sensitive 86Rb+ uptake. Vanadate reactivated 86Rb+ transport previously inhibited by dimethyl sulfoxide treatment but had no affect on 86Rb+ transport in untreated cells. These results suggest an essential role for the (Na,K)ATPase in cell differentiation.     

Relationship of Friend murine leukemia virus production to growth and hemoglobin synthesis in cultured erythroleukemia cells.

The factors that control oncornavirus formation were analyzed in Friend leukemia cells that undergo hematopoiesis when treated with dimethyl sulfoxide. Suspension cultures of Ostertag FSD-1 cell line were found to enter a G or resting state at the end of their proliferative phase and to simultaneously cease producing helper and dependent components of Friend virus. Whereas the decline in virus production is at least 100-fold, rates of cellular RNA and protein synthesis are only slightly lower in resting than in growing cells. Both resting and growing cells contain similarly large concentrations of the viral proteins P(30) and P(12). Dimethyl sulfoxide induces hemoglobin synthesis in growing cells, but its effects on virus production appear to be indirect results of its action to inhibit cell growth and thus to delay entry of cells into the G resting state. Furthermore, variant cell lines were obtained with differing abilities to synthesize virus or hemoglobin. Some lines no longer produce infectious virus, although they all harbor murine leukemia virus genes which are expressed to varying extents. The major internal protein of these oncornaviruses, P(30), is synthesized in large amounts by all of the cell lines. These results suggest that Friend virus production is not coinduced with erythroid differentiation, as had been proposed, but rather is controlled by a cellular growth cycle.     

Inhibition of Sindbis Virus Production by Media of Low Ionic Strength: Intracellular Events and Requirements for Reversal

Incubation of Sindbis virus-infected cultures in medium with an ionic strength of 0.105 reduced the virus yield more than 99%. This inhibition was rapidly reversed by exposing the cultures to normal medium: within 20 min the previously inhibited cultures had released as much infectious virus as normal controls had produced during hours of incubation. The following intracellular processes were essentially normal in inhibited, infected monolayers: protein and phospholipid synthesis, the synthesis of infectious viral ribonucleic acid and its incorporation into nucleocapsids, and viral modification of the cell membrane. Accelerated virus production was detected within 20 sec after exposure of inhibited cultures to normal medium. It required an ionic strength greater than 0.145, a pH above 6.7, and a temperature above 21 C. It was not dependent on osmotic pressure, de novo protein synthesis, or a functional energy metabolism. Virus release also occurred in sonic-treated materials of inhibited cells under the same conditions as in living cells. Potential applications of the inhibition to concentration of virus stocks or to obtaining virus in nonphysiological solutions are noted. Preliminary studies with Semiliki Forest virus, Newcastle disease virus, and vesicular stomatitis virus suggest that this phenomenon may be limited to arboviruses.     

Effect of medium of lowered NaCl concentration on virus release and protein synthesis in cells infected with reticuloendotheliosis virus.

When cultures producing reticuloendotheliosis virus were incubated for 24 h in medium of lowered NaCl concentration, virus production was inhibited. The extent of inhibition increased as the salt concentration of the medium was decreased. The inhibition was rapidly reversed by replacement of low-salt medium with normal medium. During the first hour after the inhibited cultures were returned to normal medium, virus was released at an accelerated rate, making the total amount of virus released by inhibited and control cultures the same. After 1 h in normal medium, the rate of virus production in the previously inhibited cultures was the same as in the control cultures. Incubation of infected cells in low-salt medium resulted in a 60% decrease in the overall rate of protein synthesis. Although returning the cells to normal medium rapidly reversed the inhibition of virus production, it did not rapidly increase the rate of protein synthesis. These results suggest that host cell-directed protein synthesis is preferentially inhibited by the low-ionic-strength medium, whereas that required for virus production continues.     

Virus production and hemoglobin synthesis in variant lines of dimethyl sulfoxide-treated Friend erythroleukemia cells.

Variant Friend erythroleukemia cell clones were compared in regard to their response to dimethyl sulfoxide and in their abilities to synthesize virus and hemoglobin. Clear evidence was obtained that cellular growth is required for virus production. The effects of dimethyl sulfoxide on virus production were not observed in cell lines that were resistant to growth perturbation by the compound. Studies of cell variants that were defective in either hemoglobin or virus synthesis indicate that these activities are independently regulated.     

Effects of monensin on morphogenesis and infectivity of Friend murine leukemia virus.

The transport of the gp70 glycoprotein to the cell surface and concomitant release of infectious virus was inhibited by treatment of Friend murine leukemia virus-infected Eveline cells with the sodium ionophore monensin. Virus yields were reduced more than 50-fold by 10(-5) M monensin, whereas particle production was reduced by 50% in monensin-treated cells. The resulting particles failed to incorporate newly synthesized gp70 and p15(E), whereas the other structural proteins, p30, p15, p12, and p10, were incorporated into virions. However, monensin did not inhibit the incorporation into virions of preformed gp70. A reduction in the efficiency of cleavage of the PrENV glycoprotein precursor and a defect in the processing of simple endo-H-sensitive to complex endo-H-resistant oligosaccharides suggest that intracellular transport of gp70 may be blocked before its entry into the Golgi apparatus. Fewer particles were found to bud from the cell surface, but intracellular vacuoles with budding virions were detected. Ferritin labeling and pulse-chase studies suggested a cell surface origin for these vacuoles. These experiments indicate that monensin inhibits the transport of Friend murine leukemia virus glycoproteins at an early stage, with a resultant block in the assembly and release of infectious virus.     

Delaying virus maturation for a higher yield of cell associated virus antigens

Negligible amounts of virus were released when infected cells were maintained in low ionic strength medium. The cells accumulated a high titre of virus and its specific antigenic proteins, detected by complement-fixation test. The procedure has potential for production of virus subunit vaccines.     

Inhibition of chemically induced erythrodifferentiation in friends erythroleukemia cells by d,1-Propranolol

Dimethyl sulfoxide (2%), hexamethylene bisacetamide (4mM) and butyric acid (2mM) were potent inducers of erythrodifferentiation in Friend erythroleukemia cell lines, 5–18 and C19TK. Hydrocortisone (1μM) markedly inhibited dimethyl sulfoxide induced hemoglobin production in both 5–18 and C19TK cells. d,1-Propranolol (25–50μM) markedly inhibited both dimethyl sulfoxide and hexamethylene bisacetamide induced erythrodifferentiation in 5–18 cells but not in C19TK cells. Addition of either hydrocortisone or propranolol as late as 48 hrs after dimethyl sulfoxide addition still resulted in significant inhibition of hemoglobin synthesis in 5–18 cells. Although the mechanism of action of propranolol is not known, modulation of the β adrenergic receptor is apparently not involved since practolol failed to inhibit either dimethyl sulfoxide or hexamethylene bisacetamide induced erythrodifferentiation in 5–18 cells nor did isoproternol induce hemoglobin synthesis.     

Increase in intracisternal A-type particles in Friend cells during inhibition of Friend virus (SFFV) release by interferon or azidothymidine.

Interferon or azidothymidine inhibition of Friend virus (FV-SFFV) release in Friend erythroleukemic cells results in a 10–20-fold increase in intracisternal A-type particle number within 3–4 days of treatment. Inhibition of Friend or Moloney helper virus by interferon in fibroblast producer cells does not result in a similar increase in intracisternal A-type particles. Friend cells with marginal FV production but with high levels of A-type particles do not change their A-type particle levels upon exposure to interferon. These data suggest that A-type particle expression in Friend cells may be linked to the presence of the transforming SFFV. No marked increase of viral RNA levels during inhibition of virus release is observed in Friend cells.     

The inhibitory effect of some lectins on the differentiation of Friend erythroleukemia cells

Growth and differentiation of Friend cells can be inhibited by treatment with concanavalin A and wheat-germ agglutinin. This inhibition is specific for cells that are in the early stages of the differentiation process (24–48 h after the addition of dimethyl sulfoxide) and is reversible upon treatment with the sugars competitive for these lectins. These results suggest a regulatory role for some plasma membrane-bound glycoproteins early in the differentiation of Friend erythroleukemia cells induced by dimethyl sulfoxide.     

A possible naturally occurring tumor promoter, teleocidin B from Streptomyces.

Dihydroteleocidin B, a derivative of teleocidin B, when painted on mouse skin, caused marked induction of ornithine decarboxylase within 4 hrs. This induction of ornithine decarboxylase was inhibited by painting the skin with 13-cis-retinoic acid one hour before dihydroteleocidin B. Dihydroteleocidin B induced cell adhesion of human promyelocytic leukemia cells (HL-60) to the surface of culture flasks, and inhibited terminal differentiation of Friend erythroleukemia cells induced by dimethyl sulfoxide. Its effective dose for these actions was comparable to that of the potent tumor promoter, 12-O-tetradecanoyl-phorbol-13-acetate. Teleocidin B seems to be a new type of promoter of carcinogenesis.     

INDUCTION OF ERYTHROID MATURATION BY DIMETHYL SULFOXIDE IN FRIEND LEUKEMIC CELLS

Enhancement of the erythroid maturation in Friend virus-induced leukemic cells has been examined in vitro by the treatment with dimethyl sulfoxide (DMSO). Although the cell growth was inhibited in the medium containing 2% DMSO, many cells remained viable for a week. By the 3rd day of the culture, the cells treated with DMSO became more strongly agglutinated by phytohemagglutinin than the cells incubated without DMSO. Mouse erythrocyte membrane-specific antigens were also detectable at the 4th day. At the 8th day of the culture hemoglobin synthesis was apparently demonstrated in the cells treated with DMSO, which could not be seen in the untreated cells. Maturation or differentiation along the erythroid pathway in Friend leukemic cells by DMSO is discussed on these markers.     

Stimulation of plasminogen activator production by dimethyl sulfoxide in Chinese hamster ovary cells

The production of plasminogen activator activity in an auxotrophic mutant of the Chinese hamster ovary cell line was found be greatly stimulated by low concentrations of dimethyl sulfoxide. The production of both cell-associated and excreted plasminogen activator activities was stimulated maximally by dimethyl sulfoxide at a concentration of 2.5%. The stimulation of plasminogen activator activity production was found to be completely inhibited by actinomycin D and cycloheximide but not by mitomycin C, implying that new protein and RNA syntheses were required for this process. Using specific antibodies against plasminogen activator, the presence of a tissue-type plasminogen activator could only be detected in dimethyl sulfoxide treated cells. The dimethyl sulfoxide induced plasminogen activator production was observed only in a mutant auxotrophic for adenosine, glycine, and thymidine but not in wild-type cells. The ability of dimethyl sulfoxide to induce the synthesis of plasminogen activator was lost when the cells were hybridized with another complementary auxotrophic mutant. This implies that the ability of dimethyl sulfoxide to stimulate the production of plasminogen activator may be related to the auxotrophic mutation in this cell.     

DNA-mediated gene transfer in Friend leukemia cells by cotransfection of simian virus 40 DNA with herpes simplex virus thymidine kinase DNA.

Thymidine kinase-negative Friend leukemia cells were cotransfected with simian virus 40 (SV40) DNA and thymidine kinase gene DNA of herpes simplex virus type 1. The transfected thymidine kinase-positive cells were selected in HAT medium, and SV40 T-antigen expression was observed over many months in cells cultured under selective conditions, and after adaptation to normal growth medium under nonselective conditions. It was shown by Southern blot hybridization that SV40 DNA was integrated in multiple copies in the chromosomal DNA of several clones. All SV40 DNA-containing Friend leukemia cell clones analyzed were able to undergo induced erythroid differentiation. Induced cultures still expressed SV40 T-antigen to the same extent that untreated control cultures did.     

Induction of interferon and erythropoietic differentiation in cells transformed by Friend virus.

Two lines of Friend virus (FV)-transformed mouse spleen cells have been analyzed in respect to their interferon production capacity: neither F4 cells, which liberate infectious FV when kept under tissue culture conditions, nor the thymidine kinase-deficient B8 cells, which do not produce significant amounts of FV, release detectable amounts of autogenous interferon into cell supernatants. However, interferon is produced in these cells in amounts comparable to that in L-929 cells when interferon induction is initiated with UV-inactivated Newcastle disease virus. Conversely poly(I)-poly(C), a potent interferon inducer in L-929 cells, proved ineffective in this capacity in F4 or B8 cells. When erythropoietic differentiation is induced in these cells by dimethyl sulfoxide, no autogenous interferon production occurs, but with NDV-induction a four- to fivefode increase of interferon production is observed. A similar elevation of interferon production is achieved during 5-bromodeoxyuridine stimulation of differentiation in the thymidine kinase-deficient B8 cells. The refractiveness against poly(I)-poly(C) displayed in unstimulated cells is not overcome at any stage of differentiation, indicating major differences of Newcastle disease virus and poly(I)-poly(C) induction mechanisms.     

Lipid composition of Friend leukemia cells following induction of erythroid differentiation by dimethyl sulfoxide

The effects of dimethyl sulfoxide (DMSO)-induced differentiation of Friend leukemia cells in vitro on the lipid composition of these cells have been examined. DMSO had no early effect on the incorporation of either [¹⁴C] glycerol or [³H] methyl choline chloride into the total lipids or individual phospholipids of Friend cells up to 240 min after addition of the inducer. Examination of DMSO-diferentiated Friend cell phospholipids revealed a percentage composition which was similar to control cells, with phosphatidylcholine and phosphatidylethanolamine in both uninduced and differentiated cells accounting for over 75% of the total phospholipid. Sphingomyelin levels were significantly lower in Friend cells than in normal adult mouse erythrocytes, and differentiation of murine erythroleukemia cells resulted in a further lowering of this phospholipid. In contrast, a significant increase in the level of phosphatidylethanolamine occured as a result of maturation. Fatty acid analysis of major lipid classes of differentiated Friend cells showed significant reduction in saturation, but no alteration in chain length in comparison to undifferentiated cells. A pronounced decrease in the cellular content of both free and esterified cholesterol, which resulted in a 45% decrease in the ratio of cholesterol/phospholipids, occurred in cells differentiated by the polar solvent. The findings indicate that erythrodifferentiation induced by DMSO results in a variety of changes in the lipid composition of the membranes of Friend leukemia cells.     

Effects of interferon on hemoglobin synthesis and leukemia virus production in Friend cells

Establishment of the antiviral state by interferon does not impair differentiation of Friend cells. Interferon actually produces an increase in dimethylsulfoxide-induced hemoglobin synthesis. However, both the constitutive production and the induction of leukemia virus in these cells are inhibited by interferon.