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.     

DNA-dependent RNA polymerase I from human placental nuclei

This paper describes a large-scale method for solubilisation and purification of DNA-dependent RNA-Polymerase I from mature human placenta. The solubilisation method involves homogenization of the whole human placenta, isolation of cell nuclei, sonication of separated nuclei at high ionic strength and ammonium sulfate precipitation. The purification method consists of chromatography of RNA-Polymerase I activity on DEAE-Sephadex A-25 and Phosphocellulose P-11, and glycerol-density gradient centrifugation. In result, RNA-Polymerase I of human placenta nuclei has been shown to be completely resistant to alpha-amanitin. Besides dependence of RNA-Polymerase I on different Mg2+ and Mn2+ concentrations, glycerol concentration and ionic strength was studied. Using our results, an optimal RNA-Polymerase I assay mixture was developed. The subunit composition of RNA-Polymerase I was investigated by dodecylsulfate-gel electrophoresis. The RNA-Polymerase I molecule of human placenta consists of 13-14 polypeptides.     

RNA polymerase activity in isolated nuclei ofNicotiana sanderae callus: Characteristics and modulation during differentiation

Isolated nuclei from differentiating cultures ofNicotiana sanderae showed increased levels of RNA polymerase activity as compared to the nuclei from callus cultures. The RNA synthetic activity was dependent on nucleotide triphosphates and Mg²⁺ and was destroyed by RNase. Maximum activity was obtained in the presence of 50 mM (NH₄)₂ SO₄ and α-amanitin inhibited 40% and 55% of the activity in the nuclei from callus and differentiating tissue respectively. The nuclei from differentiating tissue elicited a 3-fold increase in RNA polymerase I and a 4-fold augmentation in RNA polymerase II activities.     

Transcription of isolated nuclei and nucleoli by exogenous RNA polymerase A and B.

Both forms A and B RNA polymerases solubilised from rat liver nuclei transcribed templates within these organelles when added exogenously to freshly prepared nuclei. The enzymes initiated more efficiently in the presence of KCL than ammonium sulphate and required manganese rather than magnesium as the divalent cation. Form A enzyme initiated most successfully at 375 mM KC6, activity was proportional to the amount of template added and continued linearly for at least 30 min. Form B enzyme initiated with two ionic strength optima, 125 mM and 500 mM KCl. Activity in the latter case was critically dependent on the enzyme: nuclei ratio. In both instances incorporation of nucleotide precurors was linear for less than 20 min. Form A enzyme synthesised products with a size distribution mainly larger than 18 S; form B enzyme synthesised products of mainly less than 5 S at 125 mM KCl and about 10 S at 500 mM KCl. Subfractionation of nuclei indicated that exogenous RNA polymerase A activity and form B at 125 mM KCl were occurring in nucleoli; form B activity at 500 mM KCl was nucleoplasmic. Measurements of U : G ratios in the RNA products suggested that exogenous form A was synthesising species with similar base ratios to the ribosomal RNA precurosrs. Both enzymes formed rifamycin AF/0-13 resistant complexes with nucleolar templates. Size analyses of products showed that whereas form B enzyme synthesised very small RNA species, RNA polymerase A produced a range of species of similar sizes to the ribosomal RNA precurosors.     

Intranucleolar localization of the RNA polymerase A activity in isolated nuclei of regenerating rat liver

Ultrastructural autoradiography was used to visualize RNA polymerase A activity in parenchymal cell nuclei isolated from normal and regenerating (3, 24, 36 and 48 h after partial hepatectomy) rat liver. High resolution autoradiography showed that the activity of RNA polymerase A which was not inhibited by α-amanitin in a concentration of 0.8 μg/ml, was restricted to the nucleolus. Both the distribution pattern and number of grains were similar in control liver and regenerating liver 3 h after hepatectomy. Twentyfour, 36, and 48 h after hepatectomy nucleoli were enlarged and labeling was distinctly increased. In all experimental groups the activity of RNA polymerase A was located within fibrillar components of the nucleolus. The association of enzyme activity with this component was especially distinct in later stages (36 and 48 h) of liver regeneration. These results suggest that the fibrillar component of the nucleolus contains the active template for ribosomal RNA (rRNA) synthesis in rat liver cell nuclei.     

Specific interference of metalaxyl with endogenous RNA polymerase activity in isolated nuclei fromPhytophthora megasperma f. sp.medicaginis

The systemic fungicide metalaxyl preferentially inhibits [³H]uridine incorporation into RNA by mycelium ofPhytophthora megasperma f. sp.medicaginis. Even at high concentrations of metalaxyl inhibition is not complete but circa 80%. Neither uptake of [³H]uridine nor its conversion into UTP is inhibited, indicating that interference with RNA synthesis takes place. Synthesis of RNA that lacks poly(A) sequences is more affected than that of poly(A)⁺ RNA. Metalaxyl has no effect on the activity of RNA polymerases present in mycelial extracts fromPhytophthora nor on that of polymerases I and II that have been partially purified with a procedure involving precipitation with polyethyleneimine, selective elution of RNA polymerases from the polyethyleneimine precipitate, ammonium sulfate fractionation, and DEAE-Sephadex chromatography. RNA polymerase II in mycelial extracts is half-maximally inhibited by α-amanitin at concentrations below 0.01 ¼g/ml. Both metalaxyl and α-amanitin inhibit endogenous RNA polymerase activity of isolated nuclei ofPhytophthora. According to their sensitivity to metalaxyl and α-amanitin, three types of endogenous activity can be distinguished: (a) an α-amanitin-sensitive type, the activity of which is stimulated by ammonium sulfate; (b) an α-amanitin-insensitive but metalaxyl-sensitive type; and (c) a type insensitive to both metalaxyl andα-amanitin. The first type of activity is characteristic of RNA polymerase II; the identity of the latter two remains to be elucidated. Metalaxyl andα-amanitin do not have any effect on free nuclear polymerases when assayed at a concentration of 50 mM ammonium sulfate with poly[d(A-T)] as exogeneously added template in the presence of actinomycin D to inhibit endogenous RNA polymerase activity. At 250 mM ammonium sulfate the free polymerase activity becomes α-amanitin sensitive but remains metalaxyl insensitive. Metalaxyl apparently inhibits RNA synthesis by specific interference with template-bound andα-amanitin-insensitive RNA polymerase activity. Endogenous polymerase activity of nuclei isolated from a metalaxyl-resistant mutant ofP. megasperma f. sp.medicaginis is not inhibited by metalaxyl, indicating that interference with RNA synthesis is the primary action of metalaxyl and that modification of the target site may lead to resistance.     

A polymerase activity forming 5S and pre-4S RNA in isolated HeLa cell nuclei

Isolated HeLa cell nuclei are capable of synthesizing 5S and pre-4S RNA. The labeling of these low molecular weight species has been compared with the labeling of nucleolar RNA and nuclear heterogeneous RNA. The 5S and pre-4S RNA molecules made in vitro were identified by their mobility on SDS acrylamide gels and by the sensitivity of pre-4S RNA to enzymes which cleave it in vitro to 4S RNA. Their mobilities and cleavage properties are similar to the RNA made in vivo. Unlike the nuclear heterogeneous RNA, the synthesis of the two small molecular weight RNAs is resistant to α-amanitin.A large proportion of 4S RNA labeled in vitro appears to be formed de novo. The ratio of the terminal uridine to the internal uridine 3′-monophosphate remains constant with time, even though there is linear incorporation into the pre-4S RNA in the isolated nuclei.Production of the nucleolar RNA and pre-4S RNA has been compared in the presence of various ions. The pre-4S RNA synthesis has a sharper maximum for (NH₄)SO₄ and MgCl₂ than does the synthesis of nucleolar RNA. The in vitro synthesis of pre-4S is more sensitive to ellipticine and pCMB than the production of nucleolar RNA. These differences between the production of pre-4S RNA and nucleolar RNA are discussed with respect to in vitro reinitiation and the possibility that different polymerases are involved in their synthesis.     

Characterization of the RNA synthesizing activity of isolated kidney nuclei.

The limiting factor in RNA synthesis by isolated kidney nuclei is RNA nucleotidyltransferase at high salt concentrations but at low salt concentrations template availability becomes limiting. alpha-Amanitin inhibits 85% of the activity at high salt concentrations but only 20-50% of the activity at low salt concentrations. Exogenous DNA is utilized at low salt concentrations [up to 0-1M (NH4)2SO4] but not at high salt concentrations. The effect of increasing salt concentration is mainly to cause an increase in the length of chains synthesized. Initiation rates are not increased by high salt concentrations. The apparent Km for UTP is 8-10 muM at high salt concentrations, indicating that assays performed at low UTP concentrations are likely to give inaccurate results. The activation energy for the reaction at low salt concentration is less than that for the reaction at high salt concentration. The RNA synthesizing capacity of kidney nuclei is dependent on the method of isolation, and preparation by a modification of the Chauveau method (Chauveau et al. 1956) yields the most active nuclei.     

Effect of the administration of cycloheximide to thioacetamide-primed rats or partial-hepatectomized rats on the RNA polymerase I activity in isolated nuclei of liver

1. Twenty-four hours after administration of thioacetamide to normal rats, the activity and amount of RNA polymerase I in isolated liver nuclei were almost doubled. 2. When cycloheximide was administered to the drug-treated rats and normal rats 1 or 2 hr before death, the reduction in the activity was of the same degree, that is, about half of the activity of liver nuclei from normal rats. 3. Partial hepatectomy also caused about 2-fold increase in the RNA polymerase I activity in isolated liver nuclei after 16 hr, but the increased activity was almost completely abolished by injection of cycloheximide 1-3 hr before killing.