Preparation and Properties of an Inhibitory Extract from Frog Virus 3 Particles

The structural constituents of the frog virus 3 particle were solubilized by treatment with a nonionic detergent followed by the addition of a high salt concentration. This soluble viral extract (SVE) inhibits host nucleic acid synthesis. Its activity on RNA synthesis was studied in KB cells and found to be dependent on the presence of DEAE dextran. Inactivation of the inhibitory properties of SVE were obtained by trypsin digestion, treatment with urea, or heat denaturation. Neutralization of the activity of SVE was obtained by anti-frog virus 3 serum but not by anti-BHK serum. In vitro a complex may be formed between polynucleotides and the inhibitor indicating a possible mechanism for vivo inhibition.     

Cotransfection of nucleic acid segments by Sendai virus envelopes

It is reported here that Sendai virus envelopes (SVE) can be used to transfect multiple copies of DNA segments of different varieties and size. This capability further increases the usefulness of SVE. In addition, the ability to simultaneously transfect multiple copies of different genome segments promises to be a powerful tool in the field of molecular biology. The simultaneous transfection of NEO gene and cytomegalovirus immediate early antigen gene was successfully done. Sendai virus envelopes (SVE)1 have been used successfully to study carcinogenesis of Epstein-Barr virus (1, 2). SVE have been shown to have a large carrying capacity (3) for the microinjection of macromolecules into target cells. SVE are hollow vesicles constructed from the viral proteins hemagglutinin HN and fusion factor F.     

Effects of Growth Regulators on Ribonucleic Acid Metabolism of Barley Leaf Segments

Illumination or gibberellic acid treatment of etiolated barley leaf segments stimulates unrolling and results in an increased level of RNA. In contrast, segments treated with abscisic acid do not unroll and have a lower content of RNA. Gibberellic acid treatment enhanced the capacity of segments to incorporate radioactivity from ³²P-orthophosphate into all the RNA components detected by gel electrophoresis; abscisic acid greatly restricted the incorporation of precursors into all the RNA fractions. In conjunction with a changed capacity for RNA synthesis it was observed that abscisic acid-treated segments had a lowered soluble DNA-dependent RNA polymerase level in comparison to gibberellic acid-treated or illuminated segments. However, the influence of growth regulators on RNA polymerase content of the segments was associated with general effects on protein level rather than a specific effect on the synthesis of polymerase enzyme.     

Ammonium chloride-induced acidification in renal TALH SVE.1 cells monitored by 31P-NMR.

The aim of this study was to investigate the effect of NH4+ on the intracellular pH in TALH SVE.1 cells derived from the medullary thick ascending limb of Henle's loop (TALH) of rabbit kidney. These cells are specialized to perform NH4+ transport in vivo. Intracellular pH was monitored by 31P-NMR. The steady state intracellular pH (pHi) under standard conditions was 7.24 +/- 0.04 (n = 46). Exposure to NH4Cl resulted in an initial intracellular acidification of the TALH SVE.1 cells, followed by a recovery to the initial steady-state pHi value. The NH4(+)-induced acidification followed saturation kinetics up to 20 mM NH4Cl (delta pHmax = 0.2 pHunits). Half-maximal acidification was observed at 0.6 mmol/l. The intracellular acidification due to NH4Cl exposure was completely inhibited by 0.1 mM of the diuretic bumetanide, an inhibitor of the Na+/K+/2Cl- cotransporter. The effect of bumetanide was dose-dependent and a Ki value of 8.10(-7) M was calculated. NH4+ influx via K+ channels or the (Na+ + K+)ATPase could not be detected. pHi recovery to the initial value was caused mainly by amiloride-sensitive Na+/H+ exchange and to a lesser extent by an amiloride-insensitive system, which was not studied in detail. In the presence of bumetanide, pulses of high concentrations of NH4Cl induced small intracellular alkalinizations. From these experiments, an intrinsic buffer capacity (beta i) in TALH SVE.1 cells of 26 +/- 3 mM x pH-1 (pHi = 7.65) was determined. It could also be shown that the TALH SVE.1 cells exhibit maximal 'functional buffer capability' between pHout 6.9 and 7.3. Within these limits the cells can maintain their intracellular pH at a constant level, even though the extracellular pH changes. These data strongly suggest that the Na+/K+/2Cl- cotransporter is the main site of NH4+ entry into rabbit thick ascending limb cells in culture. A high intracellular buffer capacity and potent acid extrusion mechanism cooperate in counteracting the intracellular acidification caused by NH4+ influx into the cell.     

Growth hormone and drug metabolism. Acute effects on nuclear ribonucleic acid polymerase activity and chromatin.

Adult male rats, subjected either to sham operation or to hypophysectomy and adrenalectomy were maintained for 10 days before treatment with growth hormone. Results of the acute effects of growth hormone on the rat liver nuclear RNA polymerase I (nucleolar) and II (nucleoplasmic) activities as well as the chromatin template capacity were then studied and compared with the growth-hormone effects on the drug metabolism described in the preceding paper (Wilson & Spelsberg, 1976). 2. Conditions for isolation and storage of nuclei for maintenance of optimal polymerase activities are described. It is verified that the assays for polymerase activities require a DNA template, all four nucleoside triphosphates, and a bivalent cation, and that the acid-insoluble radioactive product represents RNA. Proof is presented that under high-salt conditions DNA-like RNA (polymerase II) is synthesized, and that under low-salt conditions in the presence of alpha-amanitin, rRNA (polymerase I) is synthesized. 3. In the livers of hypophysectomized/adrenalectomized rats, growth hormone increases the activity of both RNA polymerase enzymes and the chromatin template capacity within 1h after treatment. The effects last for 12h in the case of polymerase II but for only 6h in the case of polymerase I. Sham-operated rats respond to growth hormone in a manner somewhat similar to that shown by hypophysectomized/adrenalectomized rats. These results, which demonstrate an enhancement of RNA polymerase I activity in response to growth hormone, support those from other laboratories. 4. Growth-hormone enhancement of the chromatin template capacity in the liver of hypophysectomized/adrenalectomized rats contrasts with previous reports. The growth-hormone-induced de-repression of the chromatin DNA could represent the basis of the growth-hormone-induced enhancement of RNA polymerase II activity in the hypophysectomized/adrenalectomized rats, although some effect of growth-hormone on the polymerase enzymes is still suggested.     

Cellular RNA synthesis in normal and mengovirus-infected L-929 cells.

Cellular RNA synthesis was studied in mouse L-929 cells and in these cells infected with mengovirus. RNA polymerases I, II, and III were partially purified and their chromatographic properties were analyzed by DEAE-Sephadex A-25 chromatography. RNA polymerase II was purified from mouse liver and its subunit structure was compared to that of normal and virus-infected L-929 cells by two-dimensional gel electrophoresis. By these criteria, the enzymes from all three sources were identical. The RNA synthetic activities and capacities of chromatins from normal and virus-infected cells were compared under a variety of conditions. The endogenous activity in chromatin from infected cells was inhibited relative to controls but the residual activity responded normally to stimulation by ammonium sulfate, heparin, and Sarkosyl. The template capacity of the chromatins was compared with added RNA polymerase II and by a rifampicin challenge assay utilizing Escherichia coli RNA polymerase. Identical results were obtained in each case. The number of growing RNA chains and the rates of their elongations were determined. The results showed that nuclei and chromatin from infected cells have a smaller number of RNA polymerase II molecules engaged in RNA synthesis than normal cells do but that the active molecules elongate RNA chains at the same rate.     

DNA-dependent RNA synthesis in nuclear chromatin of fixed cells: relationship between dye-binding properties, nuclear protein content and RNA polymerase activity

Fixed mouse kidney epithelial cells have been examined for their capacity to synthesize RNA with their own RNA polymerases when supplied with ribonucleoside triphosphates. The endogenous polymerase activity of chromatin in fixed cells is clearly related to changes in the size and protein content of the nucleus. Cells with small nuclei which do not incorporate ³H-uridine in vivo show very little RNA polymerase activity at the ionic strength of the standard assay procedure. This activity can be enhanced by increasing the ionic strength of the assay medium. Changes in RNA polymerase activity also appear to be related to changes in the ability of chromatin to bind acridine orange (AO).     

Some effects of testosterone on the rat ventral prostate

1. Labelled testosterone, injected directly into the ventral prostate of castrated rats became associated, in part, with a cytoplasmic high-molecular-weight fraction, fraction ;A'. 2. The label present in fraction ;A' was found to be mainly associated with dihydrotestosterone. 3. Unlike fraction ;A' from testosterone-pelleted castrated rats, fraction ;A' obtained from untreated castrated rats, 48h or more after castration, was strongly inhibitory towards Escherichia coli RNA polymerase in vitro. 4. The inhibition of RNA polymerase by fraction ;A' from castrated rats was not changed by the addition of testosterone or dihydrotestosterone in vitro, but pre-heating it to 80 degrees C resulted in a loss of its inhibitory capacity. 5. Fraction ;A' from castrated rats contained ribonuclease activity. The elution profile of ribonuclease activity from Sephadex columns indicated that this activity was responsible for the inhibitory effect on the RNA polymerase assays. 6. It is concluded that, unlike the inhibitor present in the uterus of ovariectomized rats (Talwar, Segal, Evans & Davidson, 1964), no direct connexion exists between the steroid-binding capacity of prostatic fraction ;A' and its effect on E. coli RNA polymerase activity in vitro.     

RNA synthesis and RNA polymerase activity in hepatic nuclei isolated from rats fed the carcinogen 2-acetylaminofluorene.

An assessment was made of the activity of RNA polymerase I and the capacity for RNA synthesis, under conditions optimized for RNA polymerase I activity, in hepatic nuclei isolated from rats fed a diet containing the hepatic carcinogen AAF. Animals were maintained on the carcinogenic diet for either 4, 7 or 14 days. RNA polymerase activity progressively increased with time on the carcinogenic diet. However, the capacity for RNA synthesis remained quite constant. These results are suggestive of a progressive inhibition of DNA template activity during the early stages of AAF-induced hepatocarcinogenesis. The “permanance” of the increase in polymerase activity was examined by switching carcinogen fed animals to a control diet for either 2 or 5 days prior to making an assessment of the above parameters.     

Lipopolysaccharide-mediated induction of RNA polymerase I activity and amount in murine B lymphocytes

The effect of lipopolysaccharide on RNA polymerase I activity in primary cultures of murine B lymphocytes has been examined. In cells treated with mitogen for 48 h, the activity of RNA polymerase I was approximately 15 times greater than in control cells. In situ localization of RNA polymerase I using indirect immunofluorescence indicated that there was at least a 10-fold increase in the amount of this enzyme associated with nucleoli of 48 h mitogen-treated cells relative to control cells. Immunoblotting experiments demonstrated a similar increase in the concentration of the 190-kDa subunit bound to DNA; the concentrations of the other polymerase I-associated polypeptides did not correlate with rRNA synthesis. Assuming 1 mol of the 190-kDa polypeptide/mol of polymerase I, it was estimated that 2,300 and 30,000 molecules of enzyme were associated with rDNA in the unstimulated and stimulated B cell, respectively. Thus, an increased cellular concentration of the 190-kDa subunit of RNA polymerase I and its association with ribosomal DNA may be a crucial step in rRNA synthesis.     

Synthesis of RNA by Rhodomicrobium vannielii swarmer cells

Abstract Protein synthesis in Rhodomicrobium vannielii swarmer cells, incubated anaerobically in the dark, is dependent upon a rifampicin-sensitive step, indicating a dependence upon de novo RNA synthesis. In addition, toluene treatment has shown that the motile, non-differentiating swarmer cells have the capacity to initiate and sustain RNA synthesis. The major form of the DNA-dependent RNA polymerase responsible for this RNA synthesis has been identified.     

Inhibitory effect of alpha-methyl-1-adamantane methylamine hydrochloride (rimantadine) on RNA-dependent RNA polymerase induction in culture of cells, infected with influenza virus]

An anti-influenza preparation, rimantadine (alpha-methyl-1-adamantane methylamine hydrochloride) at concentrations of 10--25 mkg/ml depresses the RNA-dependent RNA polymerase induction in a culture of cells infected with influenza virus (fowl plague virus). The inhibitory effect is also observed 2 hours following cell infection. In vitro studies have demonstrated that rimantadine has no effect on the activity of virus-induced RNA-dependent RNA polymerase, as well as on that of RNA-dependent RNA polymerase associated with virus particles.