Inhibition of repair of UV-damaged DNA by caffeine and mutation induction in Chinese hamster cells

The effect of caffeine on UV-irradiated Chinese hamster cells in vitro was studied on the cellular and molecular levels. Caffeine (1 mM) was shown to decrease the colony-forming ability and the frequencies of spontaneous and UV-induced mutations in Chinese hamster cells. The effect of caffeine in reducing the frequency of UV-induced mutations was demonstrated only if caffeine was present in the culture medium during the first post-irradiation cell division. Using alkaline sucrose gradient centrifugation, both parental and newly synthesized DNA in UV-irradiated and unirradiated cells were studied in the presence and absence of caffeine. Caffeine affected the sedimentation profile of DNA synthesized in UV-irradiated cells but not in unirradiated cells. Caffeine had no apparent effect on the incorporation of [³H]-thymidine into DNA of control or UV-irradiated cells, nor on the small amount of excision of UV-induced pyrimidine dimers. These results may be interpreted by a hypothesis that caffeine inhibits a certain S-phase specific, post-replication, dark-repair mechanism. The hamster and perhaps other rodent cells exposed to low doses of UV are capable of DNA replication, by-passing the non-excised pyrimidine dimers. This postulated repair process probably involves de novo DNA synthesis to seal the gaps in the nascent strand. This repair may be also responsible for the enzymatic production of mutations.     

Interaction of synthetic NH2-terminal fragments of bacteriophage lambda cro protein with nucleic acids

Cu,Zn superoxide dismutase from baker's yeast, Saccharomyces cerevisiae, can be >98% inactivated by modification of one arginyl residue per subunit with phenylglyoxal. The loss of activity is not accompanied by loss of either Cu or Zn ions, suggesting that this arginine is essential for catalytic activity. 4-Hydroxy-3-nitrophenylglyoxal (HNPG), a chromophoric analogue of phenylglyoxal, also inactivates the yeast enzyme by modification of 1.0 arginine per subunit. The chromophoric properties of HNPG were utilized to identify Arg-143 as the essential arginine in yeast Cu,Zn superoxide dismutase.     

Affinity labelling of alpha-adrenoceptors in intact liver cells by [3H]phenoxybenzamine.

[³H]phenoxybenzamine of high specific activity (5.3 Ci/mmol) was synthesized and its binding to isolated, viable rat liver cells was studied. Phentolamine suppressible binding of [³H]phenoxybenzamine was irreversible and saturable (EC50: 10 nM, b_max: 200 fmol/mg wet cell weight). Competition-inhibition studies showed structural and stereoselectivity compatible with α-receptors. The IC50 of unlabelled phenoxybenzamine to reduce specific binding (9 nM) or to block adrenaline-induced phosphorylase activation in the same cells (2 nM) was similar, whereas the IC50 of agonists to suppress binding was higher than their EC50's for phosphorylase activation. The results represent the first example of labelling α-adrenoceptors in intact liver cells. The sites labelled by [³H]phenoxybenzamine mediate the block of phosphorylase activation by α-adrenoceptor antagonists. However, the relationship of these sites to receptors that mediate responses to physiological, low concentrations of catecholamines remains to be clarified.     

The Golgi complex. III. The effects of puromycin on ultrastructure and glycoprotein synthesis.

The effect of puromycin has been investigated on protein and glycoprotein synthesis and on ultrastructure of the Golgi complex from rat liver. Incorporation of [14C]leucine into protein in Golgi fractions and into serum proteins was depressed rapidly after puromycin treatment. In the serum proteins, incorporation returned to normal levels at 2 h whereas in Golgi fractions it continued to rise to 200% of the control levels at 3 h and was still elevated at 24 h after puromycin treatment. Incorporation of [14C]glucosamine into glycoprotein was depressed in Golgi and serum fractions in a similar manner but slightly later than that of leucine. Leucine labelled material found at 3 h was a poor acceptor for carbohydrate, since [14C]glucosamine incorporation was not elevated above control values. Galactosyl transferase activity was not depressed in the Golgi membranes and, at 3 h, was elevated implying that an adequate supply of enzyme was available at all times. The activity of the galactosyl transferase in serum appeared to be depressed suggesting that transport of enzyme from Golgi complex to serum was defective. Ultrastructural changes in the Golgi complex were observed to occur rapidly after puromycin treatment. The cisternae became irregular, compressed, and degenerated progressively from central region towards the periphery. Irregular tubular structures formed at the expense of cisternal membrane and showed accumulation of low density lipoprotein. Vesiculation and degenerative changes of the Golgi membranes continued from 2-12 h while more typical arrangements of the Golgi complex were observed between 24-48 h. The morphological changes correlated with changes in glycoprotein synthesis.     

Regulation of nitrogenase activity in aerobes by MG2+ availability: An hypothesis

Nitrogenase functions at or near its maximum capacity $\text{in}\text{vivo}$, despite a reported energy charge in the cell that should severely inhibit the enzyme. Deenergizing cellular membranes, which is postulated to release magnesium in mitochondria, has been reported to produce rapid inhibition of nitrogenase activity while giving only small changes in energy charge and $\text{NAD}{}^{\mathrm{+}}\text{NADH}$ ratio. It is proposed that the level of magnesium available for complexation by the potent inhibitor ADP is the rate controlling variable for nitrogenase activity.     

Influence of dietary cadmium on the distribution of the essential metals copper,zinc and iron in tissues of the rat

The effect of long-term dietary cadmium treatment upon the distribution of the metals copper, iron and zinc has been compared in various organs of male and female rats. The renal accumulation of cadmium was similar in both sexes without a plateau being reached. In contrast, the hepatic accumulation of cadmium was higher in the female than in the male rat and a plateau was observed after 30–35 weeks of dietary cadmium treatment. Most of the cadmium which accumulated in these organs was recovered in the metallothionein fraction and the concentration of hepatic cadmiumthionein in the female rat was correspondingly higher than in the male rat. Accumulation of cadmium was associated with an increased zinc concentration in the liver and an increased copper concentration in the kidney; these increases were correlated with increases in liver and kidney metallothioneins induced by cadmium. Uptake of cadmium into organs other than liver and kidney occurred to a small extent but was not associated with changes in the concentration of copper and zinc. Cadmium also accumulated in the intestinal mucosa where it could be recovered in a fraction corresponding to metallothionein. A loss of iron from the liver and kidney was also observed following dietary cadmium treatment and involved mainly a loss of iron from ferritin.     

Altered regulation of macromolecular synthesis in methionine-inhibited cultures of Pseudomonas fluorescens UK1.

Effects of high methionine concentrations on growth of Pseudomonas fluorescens UK1 are reported. The following phenomena were observed: (i) Immediate inhibition of growth for a period corresponding to approximately half a generation. Steady-state conditions of growth were no more attained. (ii) In spite of stringency of the macromolecular synthesis in this organism, simultaneously with the growth inhibition, the rate of labelled leucine incorporation into trichloroacetic acid (TCA)-insoluble material was reduced 60% while the rate of labelled uracil incorporation remained constant. (iii) The organism began to liberate methanethiol half a generation after the methionine supplement. Demethiolating activity increased linearly with the cell mass. It is concluded that the inhibition of growth is not due to the liberation of methanethiol from methionine but the amino acid is able to uncouple the mechanism coordinating protein and RNA synthesis in P. fluorescens UK1.     

A protein-bound form of thioacetamide in liver nucleoli

The cellular distribution of ³⁵S from ³⁵S- thioacetamide was determined in rabbit liver subcellular fractions following its $\text{in vivo}$ administration. Of the various fractions isolated, only the nucleolar fraction contained ³⁵S counts that were insoluble in 10% trichloroacetic acid but soluble in trichloroacetic acid if the fraction was treated with trypsin but not RNase or DNase. These results demonstrate that a protein bound form of thioacetamide is present in the nucleolus following $\text{in vivo}$ administration of this drug.     

Tissue distribution,binding properties and lesions produced by dehydroretronecine in the nonhuman primate

Four-month-old rhesus monkeys were injected with 65 mg of [³H]dehydroretronecine per kg body weight and sacrificed at 6, 12 and 24 h following injection. By the 24th h 13% of the dose had been eliminated in the urine. Although there were no feces, the extremely high radioactivity of the bile and intestinal contents suggested this route was a major one for the excretion of this compound. The³H was distributed throughout the body by the 6th h with the greatest percentage being in the skin and muscle. However, per gram of tissue the gastric mucosa and bile showed the highest radioactivity. Likewise, it was in the gastric mucosa that the lesions produced by dehydroretronecine were the most severe. High levels of radioactivity persisted in the gastric mucosal lysates after washings with trichloroacetic acid (TCA) while only a small percentage of the³H remained in the washed liver lysate. It was determined that over 20% of the³H was bound to mucosal protein and less than 1% to the nucleic acids.     

Effects of ethionine on tRNA methylation in male and female rats

Administration of hepatocarcinogens to rats results in an increase in tRNA methyltransferase activity in the target tissues. Ethionine is active as a carcinogen only in female rats and only in females is this increase in enzyme activity seen. However, ethionine also causes the formation of methyl-deficient tRNA in the liver. Other hepatocarcinogens do not do this. Ethionine is equally effective in this action in males and females. Thus, the two actions of ethionine are completely separable, and the methyl-deficiency of tRNA is caused by an activity not identical with the carcinogenic one.     

Effect of light on the labeling of optic tectum gangliosides after an intraocular injection of N-[3H]acetylmannosamine.

Axonally transported gangliosides from retina were more labeled in the optic tectum of chickens exposed to light compared to those maintained in the dark. No differences were observed between the labeling of retinal gangliosides from the two groups. These results indicate that light modifies either the labeling of ganglion cell gangliosides or their axonal transport.     

Selection of Small Peptides, Inhibitors of Translation

Identification of small molecular weight compounds targeting specific sites in the ribosome can accelerate development of new antibiotics and provide new tools for ribosomal research. We demonstrate here that antibiotic-size short peptides capable of inhibiting protein synthesis can be selected by using specific elements of ribosomal RNA as a target. The ‘h18’ pseudoknot encompassing residues 500-545 of the small ribosomal subunit RNA was used as a target in screening a heptapeptide phage-display library. Two of the selected peptides could efficiently interfere with both bacterial and eukaryotic translation. One of these inhibitory peptides exhibited a high-affinity binding to the isolated small ribosomal subunit (K_d of 1.1 μM). Identification of inhibitory peptides that likely target a specific rRNA structure may pave new ways for validating new antibiotic sites in the ribosome. The selected peptides can be used as a tool in search of novel site-specific inhibitors of translation.     

ATP-dependent deoxyribonuclease in Bacillus subtilis and a mutant deficient in this activity

ATP-dependent DNAse activity was measured in rec⁺ and several rec strains of B. subtilis 168. One of the strains (marker recE₅) was found to lack this activity. The enzyme from the wild type was partially purified and some of its properties were determined. The pH optimum is 9.5. Activity is higher at 50° but inactivation occurs on standing at this temperature. The enzyme requires Mg²⁺ (10^?2M) or Mn²⁺ (2·10^?4M). ATP is an absolute requirement and the only other nucleoside triphosphate that can partially replace it is dATP. Lack of activity in the mutant does not seem to be due to the presence of an inhibitor. Results so far do not allow us to conclude as to whether or not the mutant produces an altered enzyme.     

Lack of detectable polyamines in an extremely halophilic bacterium

Polyamines (putrescine, spermidine, spermine and other analogs) were not detectable by the dansylation procedure coupled with HPLC analysis in an extremely halophilic bacterium, Halobacterium halobium. Based on the detection limit of this analytical method, we estimated that the polyamine content in H. halobium, if present, was less than 0.06% of that of E. coli. Putrescine uptake and the metabolic conversion of ornithine or arginine to polyamines were negligible in this bacterium. In a H. halobium cell-free extract, a saturated amount of KC1 was needed for poly(U) directed polyphenylalanine synthesis; neither putrescine nor spermidine could replace KC1. These results suggest that polyamines may play an insignificant role in the growth of this halophilic bacterium.     

Localization in the cell cycle of the antimitotic action of the pyrrolizidine alkaloid,lasiocarpine and of its metabolite,dehydroheliotridine

The antimitotic action of the pyrrolizidine alkaloid lasiocarpine on rat liver parenchyma was investigated using as the experimental model the wave of mitosis produced in liver by a single dose of thioacetamide. A single low dose of lasiocarpine administered two weeks before the thioacetamide, almost completely inhibited the mitotic wave without inhibiting to the same extent the preceding wave of DNA synthesis. By the use of selective inhibitors and radioisotope labelling, the location of the mitotic block was found to be either in the latter half of the DNA synthetic phase, S, or early in G₂, the post-synthetic phase. The mitotic wave was similarly inhibited by pretreatment of the rats with a single injection of dehydroheliotridine, a pyrrolic metabolite of heliotridine-based pyrrolizidine alkaloids.