Effect of prostaglandins on cell function and multiplication of parainfluenza 3 viruses in WISH cells.

Cytotoxic effect of prostaglandins E2 and F2alpha on cells grown in vitro and the influence of these compounds on multiplication of myxovirus parainfluenza 3 were investigated. The prostaglandins were added to culture medium (0-01-10 mug/ml) 24 hr before virus infection, or for 2 and 48 hr after inoculation with viruses. WISH cells and monkey kidney cell cultures were used. No direct cytotoxic effect of prostaglandins at concentrations 0-01-1 mug/ml was found (viability, supravital staining, phase-contrast system, Nitro-BT reduction and succinic dehydrogenase tests), whereas the concentration of 10 mug/ml within 48 hr led to reduction and succinic dehydrogenase tests), whereas the concentration of 10 mug/ml within 48 hr led to partial injury of the cell population with symptoms of damage to mitochondria. Prostaglandins E2 and F2alpha inhibited multiplication of parainfluenza 3 virus at concentrations 0-1-10 mug/ml. The inhibitory effect was most pronounced if prostaglandins were added to medium for the whole period of virus multiplication i.e. for 48 hr but little or no effect was found if they were added prior to inoculation or for 2 hr after it. Inhibitory effect of prostaglandins on replication phase of viruses is suggested.     

Effects of cycloheximide on virus RNA replication in an inducible line of polyoma-transformed rat cells.

In this article, we describe two distinct effects of cycloheximide (CH), a potent inhibitior of protein synthesis, on the replication of polyoma virus (PV) DNA in an inducible line of PV-transformed rat cells (LPT cells). Exposure of LPT cells to CH causes up to an 8 fold increase in the cellular concentration of PV DNA determined by molecular hybridization. The same treatment inhibits cell division and chromosomal DNA replication. However, the amount of chromosomal DNA per cell is not affected by the drug. In LPT cells treated with mitomycin C (MMC), PV DNA replication is enhanced after 7 hr. During the period extending from 7 hr to 24 hr, the concentration of virus DNA increases at least 100 fold. CH added to the cells 0-7 hr after treatment with MMC inhibits the replication of PV DNA by 90-100%. The inhibition is less effective in cells exposed to CH from 7 hr and on. The inhibitory effect is reversible: virus DNA synthesis is resumed after removal of CH from the growth medium. Thus CH acts as an inducer of virus DNA synthesis in cells whose resident viral genome is repressed, but inhibits the autonomous replication of the activated genome following induction with MMC.     

GnRH induced LH release in suckled beef cows. II. The effects of exogenous corticoids and estradiol benzoate on luteinizing hormone release by GnRH

In Experiment 1, 24 suckled beef cows were assigned to 4 treatment groups (6 cows/group). Group I cows calved spontaneously. Parturition was induced in Groups 2, 3 and 4 with 20 mg dexamethasone (DEX) 8 to 12 days prior to expected calving date. Additionally, cows in Groups 3 and 4 received 8 mg triamcinalone acetonide (TA) 6 days prior to DEX treatment. Animals in Group 4 also received 10 mg estradiol benzoate (EB) with TA, and on alternate days until DEX, when 20 mg EB was given. Gonadotropin releasing hormone (GnRH, 100 mug) was given intramuscular (IM) to all cows on days 2 or 3 postpartum. Plasma LH increased (P< .05) following GnRH treatment in Groups 2, 3 and 4, but not in Group 1. LH release (area under the curve) following GnRH was greater (P< .05) for cows in Group 4 compared to cows in Groups 1, 2 or 3, and differences in LH release between Groups 1, 2 or 3 were not significant. In Experiment II, 36 mature Hereford cows were assigned to a 2 x 3 factorial experiment (6 cows/group). Groups 1 and 2, 3 and 5, and 4 and 6 received 0, 100, or 200 mug GnRH (IM) at 78 hr postpartum, respectively. In addition, cows in Groups 2, 5 and 6 received 5 mg EB at 36 hr postpartum. Plasma LH concentrations were not different (P <.05) among groups from 36 to 78 hr postpartum. A surge of LH in response to EB treatment was not detected at 54 to 62 hr (18 to 26 hr post EB), indicating a lack of response by the positive feedback mechanism at this early time postpartum. Mean plasma LH concentrations were elevated 78 to 82 hr postpartum for Groups 3 through 6. Treatment with EB at 36 hr caused a significantly greater (P< .05) response to GnRH with 200 mug of GnRH releasing more LH than 100 mug of GnRH.     

Mechanism by Which Fiber Antigen Inhibits Multiplication of Type 5 Adenovirus

Purified fiber antigen of type 5 adenovirus inhibited the multiplication of type 5 adenovirus by 50% when 35 mug of fiber antigen protein was added to 10(6) KB cells in suspension culture. Although the fiber antigen reduced the number of virions adsorbed per cell when a multiplicity of infection of 50,000 plaque-forming units (PFU)/cell was employed, the number of cells infected was not diminished under these conditions. If a low multiplicity of infection (1.1 PFU/cell) was used, viral adsorption was not detectably decreased. The fiber antigen did not reduce the capability of virions to liberate their viral deoxyribonucleic acid (DNA). The biosyntheses of DNA, ribonucleic acid (RNA), and protein were blocked about 20 to 25 hr after the addition of fiber antigen to cultures of uninfected or type 5 adenovirus-infected KB cells. Most of the fiber antigen protein became cell-associated between 22 and 36 hr after it was added to cells. The hexon antigen neither inhibited viral multiplication nor blocked the biosynthesis of DNA, RNA, or protein. Moreover, the hexon did not attach to KB cells. The profound effects of the fiber antigen were not due to the induction of an interferon-like substance, for actinomycin D did not reduce the ability of the fiber to inhibit multiplication of type 1 poliovirus.     

Nature of Col E1 Plasmid Replication in Escherichia coli in the Presence of Chloramphenicol

The colicinogenic factor E(1) (Col E(1)) in Escherichia coli continues to replicate by a semiconservative mechanism in the presence of chloramphenicol (CAP) for 10 to 15 hr, long after chromosomal deoxyribonucleic acid (DNA) synthesis has terminated. Following CAP addition, the rate of synthesis of plasmid DNA gradually increases to an extent dependent on the medium employed. Within 2 to 4 hr after the addition of CAP, replication in a glucose-Casamino Acids medium approaches a maximum rate representing approximately eight times an average rate which would be required for a net doubling of DNA per cell in one generation. The number of copies of Col E(1) DNA molecules that accumulate under these conditions approaches about 3,000 copies per cell, representing a 125-fold increase over the normal level of 24 copies per cell. The system is particularly convenient for studying the mechanism of DNA replication.     

Hybridization of polyuridylic acid to human DNA immobilized onto nitrocellulose filters.

The level of deoxyadenylate (da) regions in human DNA was estimated from formation of poly(U)-poly(da) triplexes on nitrocellulose filters that were RNAase resistant. The (dA) rich sequences were determined following mild ribonuclease treatment of the poly(U)-DNA hybrids (5 mug/ml at 25 degreesC for 30 min), where as exhaustive ribonuclease treatment (5 mug/ml at 25 degrees C for 6 hr) estimated the more (dA) pure sequences. The level of (dA) rich regions was 0.39% of the DNA and for the more (dA) pure regions it was 0.07%. The (dA) regions were widely distributed throughout human DNA regardless of base composition or sequence repetition. However, a concentration of (dA) regions into main band CsC1 gradient fractions of DNA and into repeated DNA was observed.     

Suppression of the in vitro secondary antibody response of rabbit lymphoid cells by Concanavalin A.

The effect of various concentrations of concanavalin A (Con A) on the in vitro secondary antibody response of rabbit lymph node and spleen cells to sheep red blood cells (SRBC) was studied. Complete suppression of the IgM plaque-forming cell (PFC) response of both lymph node and spleen cultures was observed when 10 mug/ml of Con A was added at the time of initiation of the cultures whereas only partial suppression was observed when 1 mug/ml of Con A was added. Moreover, marked suppression of the immune responses of both spleen and lymph node cultures was observed when 10 mug/ml of Con A was added at 24 hr after antigenic challenge and to a lesser extent when added at 48 hr. Suppression of the IgM PFC response was also detected when spleen cultures were exposed to 10 mug/ml of Con A for as little as 2 hr after antigenic challenge. However, substantial increases in DNA synthesis were observed only in those cultures which were in contact with Con A for at least 24 hr. Finally evidence is presented that the Con A-induced suppression is mediated by a soluble substance(s).     

Induction of cell division in a temperature-sensitive division mutant of Escherichia coli by inhibition of protein synthesis.

Synchronous cells of the thermosensitive division-defective Escherichia coli strain MACI (divA) divided at the restrictive temperature (42 degrees C) if they were allowed to grow at 42 degrees C for a certain period before protein synthesis was inhibited by adding chloramphenicol (CAP) or rifampicin. The completion of chromosome replication was not required for such divA-independent division. Synchronous cells of strain MACI divided in the presence of an inhibitor of DNA synthesis, nalidixic acid, if they were shifted to 42 degrees C and CAP or rifampicin was added after some time; cells of the parent strain MC6 (div A+) treated in the same way did not divide. These data suggest that coupling of cell division to DNA synthesis depends on the divA function. The ability to divide at 42 degrees C, whether or not chromosome termination was allowed, was directly proportional to the mean cell volume of cultures at the time of CAP addition, suggesting that cells have to be a certain size to divide under these conditions. The period of growth required for CAP-induced division had to be at the restrictive temperature; when cells were grown at 30 degrees C, in the presence of nalidixic acid to prevent normal division, they did not divide on subsequent transfer to 42 degrees C followed, after a period, by protein synthesis inhibition. A model is proposed in which the role of divA as a septation initiator gene is to differentiate surface growth sites by converting a primary unregulated structure, with the capacity to make both peripheral wall and septum, to a secondary structure committed to septum formation.     

The immunoregulatory role of bone marrow. I. Suppression of the induction of antibody responses to T-dependent and T-independent antigens by cells in the bone marrow.

Bone marrow cells (BMC) from normal mice suppressed the in vitro IgM, but not the IgG, antibody (Ab) response of spleen cells. BMC were inhibitory only when added during the first 24 hr of culture, and inhibition was not due to an induced shift in the kinetics of the response. Addition of specifically activated T cells or nonspecific T-cell-replacing factors to normal or T-depleted spleen cell cultures did not abrogate suppression while the response to the T-independent antigen DNP-polymerized flagellin or lipopolysaccharide was also suppressed. BMC did not inhibit background Ab synthesis by normal or primed cells in the absence of antigen and did not inhibit, but stimulated, DNA synthesis in normal spleen cell cultures. In addition, high-avidity Ab synthesis was preferentially suppressed. A possible role for the bone marrow suppressor cell in the induction of B cell tolerance is discussed.     

Trypanosoma brucei brucei: regulation of ornithine decarboxylase in procyclic forms and trypomastigotes

Ornithine decarboxylase (ODC) activity was measured in procyclic forms of Trypanosoma brucei brucei grown in semidefined medium. ODC activity rapidly increased in late log-phase cells which were resuspended in fresh medium. A biphasic induction curve similar to that observed in mammalian cells was observed over an 18-hr period. ODC activity increased 4.5- to 25-fold over control levels measured at zero time. Actinomycin D and cycloheximide inhibited induction by greater than 90%. Polyamines at a level not inhibitory to growth (10 microM) inhibited ODC induction, but only by 30-50%, late in the induction period. Putrescine inhibited the first peak of induction and suppressed activity at 14 hr by 75%. Polyamine analogs such as bis(ethyl)spermidine were not effective suppressors of ODC activity. The half-life of ODC in procyclic forms grown in the presence of cycloheximide was greater than 6 hr, while that of bloodstream trypomastigotes in mice treated with cycloheximide was 5 hr. A single dose of the ODC inhibitor DL-alpha-difluoromethylornithine given to infected rats or mice suppressed trypanosome ODC activity greater than 90% for more than 7 hr. These studies indicate that although trypanosome ODC increases rapidly under log growth conditions, it is less susceptible to fluctuation and external control than the enzyme from mammalian sources. The latter may be a factor in the clinical efficacy of ODC inhibitors.     

Effects of large and small T antigens on DNA synthesis and cell division in simian virus 40-transformed BALB/c 3T3 cells.

The roles of the large T and small t antigens of simian virus 40 in cellular DNA synthesis and cell division were analyzed in BALB/c 3T3 mouse cells transformed by wild-type, temperature-sensitive A (tsA), or tsA-deletion (tsA/dl) double mutants. Assessment of DNA replication and cell cycle distribution by radioautography of [3H]thymidine-labeled nuclei and by flow microfluorimetry indicate that tsA transformants do not synthesize DNA or divide at the restrictive temperature to the same extent as they do at the permissive temperature or as wild-type transformants do at the restrictive temperature. This confirms earlier studies suggesting that large T induces DNA synthesis and mitosis in transformed cells. Inhibition of replication in tsA transformants at the restrictive temperature, however, is not complete. Some residual cell division does occur but is in large part offset by cell detachment and death. This failure to revert completely to the parental 3T3 phenotype, as indicated by residual cell cycling at the restrictive temperature, was also observed in cells transformed by tsA/dl double mutants which, in addition to producing a ts large T, make no small t protein. Small t, therefore, does not appear to be responsible for the residual cell cycling and plays no demonstrable role in the induction of DNA synthesis or cell division in stably transformed BALB/c 3T3 cells. Comparison of cell cycling in tsA and tsA/dl transformants, normal 3T3 cells, and a transformation revertant suggests that the failure of tsA transformants to revert completely may be due to leakiness of the tsA mutation as well as to a permanent cellular alteration induced during viral transformation. Finally, analysis of cells transformed by tsA/dl double mutants indicates that small t is not required for full expression of growth properties characteristic of transformed cells.     

Treatment of long-term anestrous sows with estradiol benzoate and GnRH: response of serum LH and occurrence of estrus

Seventeen primiparous sows, anestrous for 41 +/- 4 days after weaning, received i.m. injections of 500 mug estradiol benzoate (EB) or corn oil. At 48 hr after treatment, LH averaged 12.1 +/- 2.6 ng/ml in EB-treated sows and 0.7 +/- 0.1 ng/ml in corn oil-treated sows. At 55 hr after EB or corn oil, each sow was given 50 mug gonadotropin releasing hormone (GnRH). Average LH 1 hr after GnRH was 5.7 +/- 1.1 and 5.1 +/- 0.9 ng/ml in EB- and corn oil-treated sows, respectively. All EB-treated sows exhibited estrus 2.3 +/- 0.2 days after treatment and were mated. None of the corn oil-treated sows exhibited estrus and all were slaughtered two weeks after treatment. Examination of reproductive tracts revealed that the ovaries of corn oil-treated sows were small and did not contain corpora lutea. In mated sows, progesterone concentrations in blood two weeks after mating indicated luteal function in eight of the nine animals. Positive pregnancy diagnoses were made in all eight animals; however, only three sows farrowed, with litter sizes of four, five and seven, respectively. Results of the present experiment indicate that the hypothalamus and anterior pituitary of long-term anestrous sows are capable of responding to endocrine stimuli (i.e. estradiol and GnRH). Moreover, estradiol induced estrus and ovulation, but subsequent farrowing rate was only 33 percent and size of litters was small.     

Inhibition of testosterone-induced sexual behavior in the castrated male rat by aromatase blockers

The effect of some aromatase inhibitors (aminoglutethimide, 1,4,6-androstatrien-3, 17-dione, and 4-hydroxy-androstenedione) on testosterone propionate (TP)-induced copulatory behavior was tested in sexually inexperienced castrated male rats. A single injection of 6 mg of TP induced mounting in 48% and ejaculatory pattern in 19% of the rats within 120 hr. Treatment with the aromatase inhibitors (injections every 12 hr for 108 hr) suppressed ejaculation in all but one rat and significantly reduced the number of rats mounting and intromitting. Concurrent administration of estradiol benzoate (EB, 1 or 3 μg every 12 hr) prevented the inhibitory effect of aromatase blockers. No inhibitory effect of the aromatization blockers was observed in rats in which sexual behavior was induced by dihydrotestosterone (1 mg/day) and EB (2.5 μg/day) for 20 days. The results support the concept that aromatization is an essential step for the induction of male sexual behavior by androgen in the rat.     

Sensitivity of an Early Step in the Sporulation of Bacillus subtilis to Selective Inhibition by Ethidium Bromide

When a final concentration of 0.4 mug of ethidium bromide (EB) per ml, which is subinhibitory to vegetative growth, is added to sporulating cells of Bacillus subtilis Marburg during either stage 0 or the early part of stage 1, morphogenesis is blocked. If the given concentration of EB is added after the early part of stage 1, sporogenesis is unaffected. The synthesis of the serine protease and antibiotic, which are believed to be associated with sporulation events during the early part of stage 0, are not inhibited by EB. Enhanced binding of [(14)C]benzylpenicillin to sporulating cells during septation (stage 2) is a measure of the presence of terminal enzymes for germ cell wall peptidoglycan synthesis. EB does not interfere with the binding of penicillin to sporulating cells, but penicillin remains more permanently bound to EB-treated postlogarithmic cells than to untreated sporulating cells. The absence of an interval of increased penicillin binding activity during stage 2 by sporulating cells treated with EB indicates that EB blocks sporulation prior to the completion of the germ cell wall.     

Enhanced Deoxyribonucleic Acid Polymerase Activity in Human Embryonic Kidney Cultures Infected with Adenovirus 2 or 12

Deoxyribonucleic acid (DNA) polymerase activity was induced at approximately 18 to 20 hr after infection of secondary cultures of human embryonic kidney cells with adenovirus type 2 or type 12, and, at 30 to 50 hr after infection, the activity of this enzyme increased two- to threefold. The activity of thymidine kinase was also induced, but the activity of deoxycytidylic deaminase was not. The DNA content per cell at 71 hr after infection was 1.6-fold greater in adenovirus 2-infected cultures, and approximately 2.4-fold greater in adenovirus 12-infected cultures, than in the noninfected cultures. Several properties of DNA polymerase were studied. The enzymes in normal and adenovirus 2- or 12-infected cell extracts were saturated by approximately the same concentration of heat-denatured salmon sperm DNA primer (160 mug/ml); the enzyme activities had a similar broad pH optimum between 7.5 and 9. Extracts prepared from cells infected by either adenovirus did not activate DNA polymerase from noninfected cells, nor did the noninfected cell extracts inhibit enzyme activity of infected cell extracts. DNA polymerase in both normal and adenovirus 2- or 12-infected cells was located predominantly in the nucleus. In each case, the cytoplasm had only 30% of the enzyme activity of the nucleus. At 40 hr after infection with adenovirus 2 or 12, the activities of the enzyme in the nuclear and cytoplasmic fractions increased two- to threefold. Puromycin, an inhibitor of protein synthesis, prevented DNA polymerase induction when added to cultures during the 18- to 30-hr postinfection period, and it arrested the additional increase in enzyme activity when added after enzyme induction began. However, the increases in both DNA polymerase and thymidine kinase activities took place after treatment of infected cultures with 1-beta-d-arabinofuranosylcytosine, an inhibitor of DNA synthesis and adenovirus growth.     

Incorporation of Iododeoxyuridine into Cellular Deoxyribonucleic Acid Synthesized After Infection with Simian Virus 40

Primary monkey kidney cells (Cerocpithecus aethiops) in the stationary phase of growth were labeled with (14)C-thymidine for 24 hr prior to infection with simian virus 40 (strain 777). (3)H-deoxyadenosine and 5-iodo-2'-deoxyuridine (IUdR) were added to some of the cultures 24, 48, or 72 hr after infection; 24 hr later the deoxyribonucleic acid (DNA) was extracted from these cultures and centrifuged in a CsCl density gradient. The portion of DNA which had become heavier because of incorporation of IUdR could be seen as a second peak in the sedimentation profile. This peak contained (14)C as well as (3)H activity. The possibility that the (14)C-labeled cellular DNA might be degraded and used for the synthesis of viral DNA could be excluded. On the basis of these results, it must be assumed that the infection of monkey kidney cells with simian virus 40 induces the synthesis of cellular DNA.     

Genetic control of mitotic crossing over in yeasts. IV. The induction of mitotic crossing over by chemical mutagens with different mechanisms of action

The genetic effects of methyl methanesulphonate (MMS) and bifunctional quinacrine mustard (QM) have been studied in three diploid strains of the yeast Saccharomyces cerevisiae: T1, with normal radiosensitivity, T2 - the excision-deficient mutant (rad2 rad2) and T3 - the mutant defective in recombinational repair (rad54 rad54). The strain T3 was much more sensitive to the lethal action of MMS than T1, but T2 did not differ from T1. The strain T2 was more sensitive to QM than T1 and T3. Both mutagens induce mitotic crossing over in T2 at a higher frequency than T1. MMS is not able to induce mitotic crossing over in T3 and QM demonstrates a very low induction. Treatment of the strains T1 and T2 with MMS and T1 with QM induces mitotic crossing over during the first cell division more often than during the second one. In most cases, QM induces mitotic crossing over in cells of the strain T2 during the second division. We suppose that the damages of DNA induced by QM in the wild type cells can be excised, but in the rad2 cells the gaps in DNA appeared after replication. In both cases, single-strand breaks of DNA are the main reason for mitotic crossing over.     

Synthesis of reovirus ribonucleic acid in L cells

Kudo, Hajime (The Wistar Institute of Anatomy and Biology, Philadelphia, Pa.), and A. F. Graham. Synthesis of reovirus ribonucleic acid in L cells. J. Bacteriol. 90:936-945. 1965.-There is no inhibition of protein or deoxyribonucleic acid (DNA) synthesis in L cells infected with reovirus until the time that new virus starts to form about 8 hr after infection. At this time, both protein synthesis and DNA synthesis commence to be inhibited. Neither the synthesis of ribosomal ribonucleic acid (RNA) nor that of the rapidly labeled RNA of the cell nucleus is inhibited before 10 hr after infection. Actinomycin at a concentration of 0.5 mug/ml does not inhibit the formation of reovirus, although higher concentrations of the antibiotic do so. Pulse-labeling experiments with uridine-C(14) carried out in the presence of 0.5 mug/ml of actinomycin show that, at 6 to 8 hr after infection, two species of virus-specific RNA begin to form and increase in quantity as time goes on. One species is sensitive to ribonuclease action and the other is very resistant. The latter RNA is probably double-stranded viral progeny RNA, and it constitutes approximately 40% of the RNA formed up to 16 hr after infection. The function of the ribonuclease-sensitive RNA is not yet known. Synthesis of both species of RNA is inhibited by 5 mug/ml of actinomycin added at early times after infection. Added 6 to 8 hr after infection, when virus-specific RNA has already commenced to form, 5 mug/ml of actinomycin no longer inhibit the formation of either species of RNA.     

Cell cycle specificity of cytogenetic damage induced by 3,4-epoxy-1- butene.

3,4-epoxy-1-butene (EB), a primary metabolite of butadiene, is a direct-acting "S-dependent" genotoxicant that can induce sister chromatid exchanges (SCEs) and chromosome aberrations (CAs) in cycling cells in vitro. However, EB is almost inactive when splenic or peripheral blood lymphocytes are exposed at the G(0) stage of the cell cycle. To investigate whether repair of DNA lesions is responsible for the lack of cytogenetic responses seen after G(0) treatments, we used cytosine arabinoside (ara-C) to inhibit DNA polymerization during DNA repair. If enough repairable lesions are present, double-strand breaks should accumulate and form chromosome-type ("S-independent") deletions and exchanges. This is exactly what occurred. EB induced chromosome deletions and dicentrics at the first division following treatment, when the EB exposure was followed by ara-C. Without ara-C treatment, there was no induction of CAs. These experiments indicate that the relatively low levels of damage induced by EB in G(0) lymphocytes are removed by DNA repair prior to DNA synthesis and thus, before the production of SCEs or chromatid-type aberrations.     

Induction of Duplication Reversion in Human Fibroblasts, by Wild-Type and Mutated Sv40 T Antigen, Covaries with the Ability to Induce Host DNA Synthesis

Intrachromosomal homologous recombination, manifest as reversion of a 14-kbp duplication in the hypoxanthine phosphoribosyl transferase (HPRT) gene, is elevated in human cells either stably transformed or transiently transfected by the SV40 (simian virus 40) large T antigen gene. Following introduction of wild-type SV40, or any of several T-antigen point mutations in a constant SV40 background, we observed a strong correlation between the stimulation of chromosomal recombination and induction of host-cell DNA synthesis. Moreover, inhibitors of DNA replication (aphidicolin and hydroxyurea) suppress SV40-induced homologous recombination to the extent that they suppress DNA synthesis. Stable integration of plasmids encoding T antigen also augments homologous recombination, which is suppressed by aphidicolin. We infer that the mechanism by which T antigen stimulates homologous recombination in human fibroblasts involves DNA replicative synthesis.