Your search keyword '"Pactamycin"' showing total 337 results

101. Titelbild: Total Synthesis of Pactamycin (Angew. Chem. 15/2011)

Author

Fabien Lecomte, Juan R. DelValle, Stéphane Dorich, Stephen Hanessian, Shyamapada Banerjee, Benoît Deschênes-Simard, Ramkrishna Reddy Vakiti, and Jianbin Zhang

Subjects

Stereochemistry, Chemistry, Total synthesis, Pactamycin, General Medicine

Published

2011

102. The mechanisms of tubulin messenger regulation during Tetrahymena pyriformis reciliation

Author

Claudina Rodrigues-Pousada, Helena Soares, Lisete Galego, and R Cóias

Subjects

Paclitaxel, Transcription, Genetic, MRNA destabilization, Protein subunit, Molecular Sequence Data, macromolecular substances, Cycloheximide, Biochemistry, chemistry.chemical_compound, Transcription (biology), Tubulin, Protein biosynthesis, Animals, Northern blot, Cilia, RNA, Messenger, Molecular Biology, Ubiquitins, Heat-Shock Proteins, Messenger RNA, biology, Base Sequence, Pactamycin, Tetrahymena pyriformis, Cell Biology, DNA, Protozoan, Blotting, Northern, Molecular biology, Cell biology, chemistry, Gene Expression Regulation, biology.protein, Dactinomycin, RNA, Protozoan

Abstract

The reciliation of Tetrahymena pyriformis cells is accompanied in the first minutes by a transient induction of stress mRNAs, i.e. hsp70 and ubiquitin. At the same time an accentuated and coordinate reduction in the amount of alpha- and beta-tubulin mRNAs is observed as analyzed by Northern blot hybridization using the homologous genomic tubulin probes. Between 60 and 120 min after the onset of reciliation, tubulin transcripts in the cytoplasm reach higher values than in exponentially growing cells. Run-on transcription assays reveal that the decrease in tubulin mRNA levels is not caused by a decrease in transcription of tubulin genes. The results obtained show that the apparent tubulin gene transcription rate is increased in reciliating cells from 15 min up to 90 min. The block of transcription using actinomycin D shows that hsps are not implicated in the destabilization of tubulin mRNA during the first minutes of reciliation. The effects of the inhibitors of protein synthesis, cycloheximide and pactamycin, on tubulin mRNA levels suggest that the translational apparatus plays a role in the stability of tubulin mRNA in cells reciliating for 15 and 30 min. Experiments using the microtubule-polymerizing drug taxol also show that tubulin mRNA destabilization is not a simple consequence of a temporary increase in free tubulin subunit pools resulting from cilia resorption.

Published

1993

103. Recycling and phosphorylation of eukaryotic initiation factor 2 on 60S subunits of 80S initiation complexes and polysomes

Author

Rajinder S. Dhindsa, Irving M. London, Kolluru V. Atchuta Ramaiah, Jane-Jane Chen, and Daniel H. Levin

Subjects

Reticulocytes, Eukaryotic Initiation Factor-2, macromolecular substances, Heme, Biology, In Vitro Techniques, environment and public health, eIF-2 Kinase, Eukaryotic translation, Polysome, Eukaryotic initiation factor, Animals, Guanine Nucleotide Exchange Factors, Eukaryotic Small Ribosomal Subunit, heterocyclic compounds, Cycloheximide, Phosphorylation, eIF2, Multidisciplinary, Cell-Free System, Eukaryotic Large Ribosomal Subunit, Pactamycin, Proteins, Phosphoproteins, enzymes and coenzymes (carbohydrates), Biochemistry, Polyribosomes, health occupations, Puromycin, Rabbits, Eukaryotic Ribosome, Protein Kinases, Ribosomes, Research Article

Abstract

Phosphorylation of the alpha-subunit (38 kDa) of eukaryotic initiation factor 2 (eIF-2 alpha) regulates initiation of protein synthesis in eukaryotic cells. This phosphorylation is enhanced in cycloheximide-treated heme-deficient reticulocyte lysates in which polysomes are maintained. In early heme deficiency prior to polysome disaggregation, eIF-2(alpha P) accumulates primarily on the 60S subunits of polysomes. Further, isolated polysomes contain eIF-2 alpha that is efficiently phosphorylated in vitro by heme-regulated inhibitor (HRI). Immunoblot analysis of eIF-2 distribution in sucrose gradients of actively protein-synthesizing lysates indicates that eIF-2 is distributed at low levels throughout the polysome profiles. These findings suggest that polysome-bound eIF-2 alpha is a target of HRI under physiological conditions. The presence of eIF-2 on the 60S subunits of polysomes is incompatible with the conventional model in which eIF-2 is recycled during the joining of the 48S preinitiation complex and the 60S subunit to form the 80S initiation complex. A modified model is presented with emphasis on the translocation of eIF-2 from the 40S ribosomal subunit of the 48S preinitiation complex (eIF-2.GTP.Met-tRNA(f).40S.mRNA) to the 60S subunit of the 80S initiation complex.

Published

1992

104. Inhibitors of protein synthesis cause increased hexose transport in cultured human fibroblasts by a mechanism other than transporter translocation

Author

Ralph J. Germinario, Susannia Manuel, Zully Chang, and Blaine Leckett

Subjects

Male, Monosaccharide Transport Proteins, Physiology, Cytochalasin B, Clinical Biochemistry, 3-O-Methylglucose, Cycloheximide, Deoxyglucose, chemistry.chemical_compound, Leucine, Nucleotidase, Humans, Hexose, Hexose transport, Cells, Cultured, Hexoses, chemistry.chemical_classification, Dose-Response Relationship, Drug, Pactamycin, Cell Membrane, Glucose transporter, Methylglucosides, Biological Transport, Cell Biology, DNA, Membrane transport, Fibroblasts, chemistry, Biochemistry, Puromycin

Abstract

We have investigated the effect of various inhibitors of protein synthesis on hexose transport in human skin fibroblasts using 2-deoxy-D-glucose (2-DG) and 3-0-methyl-D-glucose (3-OMG) to measure hexose transport. Exposure of glucose-fed, serum-free cultures to cycloheximide (CHX) (50 micrograms/ml) for 6 h resulted in increased 2-DG transport (3.81 +/- .53 vs. 6.62 +/- .88 nmoles/mg protein/2 min; n = 9) and 3-OMG transport (1.36 +/- .66 vs. 3.18 +/- .83 nmoles/mg protein/30 sec; n = 4) in the CHX exposed group. Under these conditions inhibition of protein synthesis was greater than 90%. This CHX induced transport increase was time dependent (approaching maximum within 1 h of exposure to CHX) and related to an increase in the Vmax of hexose transport in the CHX exposed group (18.4 +/- 2.4 vs. 4.8 +/- 1.1 nmoles 2-DG/mg protein/min) with no difference in the transport Km (1.55 +/- .63 vs. 2.92 +/- .59 mM). Further, the CHX induced increase in hexose transport was reversible. Exposure of human fibroblasts to inhibitors of protein synthesis with different mechanisms of action (e.g., puromycin, pactamycin, or CHX) all generated hexose transport increases in a concentration-dependent fashion correlating with their increasing inhibitory effects on protein synthesis. Nucleotidase enriched (i.e., plasma membrane) fractions of control and CHX-exposed cells showed no differences in D-glucose inhibitable cytochalasin B binding activity. Further, quantitative Western analysis of nucleotidase enriched fractions indicated CHX exposure resulted in no significant increase in glucose transporter mass compared with control plasma membrane fractions. Glucose deprived cells, however, which exhibited increased sugar transport comparable to the CHX-exposed group, did show increased glucose transporter mass in the plasma membrane fraction. The data indicate that inhibitors of protein synthesis can cause a significant elevation in hexose transport and that the hexose transporter mass in the isolated plasma membrane fractions did not reflect the whole cell transport change. It is suggested that a mechanism other than glucose transporter translocation to the plasma membrane may be involved in causing this sugar transport increase.

Published

1992

105. Protein synthesis inhibition stabilizes urokinase-type plasminogen activator mRNA. Studies in vivo and in cell-free decay reactions

Author

M S, Altus and Y, Nagamine

Subjects

Calcitonin, Time Factors, Cell-Free System, Pactamycin, Swine, In Vitro Techniques, Blotting, Northern, Urokinase-Type Plasminogen Activator, Cell Line, Ribonucleases, Polyribosomes, Animals, RNA, Messenger, Cycloheximide

Abstract

Inhibition of protein synthesis stabilizes a number of mRNAs, but little is known about the mechanism. To understand the relationship between protein synthesis and mRNA stability, we studied the degradation of calcitonin-induced urokinase-type plasminogen activator (uPA) mRNA in LLC-PK cells. uPA mRNA became highly stable by pretreatment with either cycloheximide or pactamycin, and the stabilizing effect of cycloheximide treatment was time dependent with the full effect exerted by 60 min. Stabilization was also observed with histone H4 mRNA but only partially with c-myc mRNA. To further analyze, we developed a cell-free decay reaction system based on post-mitochondrial supernatant (PMS). In this system, uPA mRNA was completely stable when fractions were obtained from cells pretreated with cycloheximide, but very unstable in control fractions, paralleling uPA mRNA stability in intact cells. However, in contrast to uPA mRNA and the in vivo observation, histone H4 mRNA was unstable whether or not the cells were pretreated with cycloheximide. These results suggest that inhibition of protein synthesis stabilizes mRNAs in at least two different ways in LLC-PK1 cells. When PMS from cycloheximide/calcitonin-treated cells was mixed with PMS from untreated cells, uPA mRNA was not destabilized. This suggests that a putative labile factor responsible for uPA mRNA degradation is not a soluble protein.

Published

1991

106. Effects of protein synthesis inhibition on the transcription and transcript stability of Dictyostelium prespore genes

Author

David I. Ratner, Dwynwen A. DeSilver, and Mary A. Benedict

Subjects

Transcription, Genetic, Biophysics, Cycloheximide, Biology, Biochemistry, Dictyostelium discoideum, Fungal Proteins, chemistry.chemical_compound, Structural Biology, Transcription (biology), Gene Expression Regulation, Fungal, Genetics, Protein biosynthesis, Dictyostelium, Gene, Protein Synthesis Inhibitors, Fungal protein, Messenger RNA, Pactamycin, Nucleic Acid Hybridization, RNA, Fungal, Spores, Fungal, biology.organism_classification, Molecular biology, Cell biology, Kinetics, chemistry, Protein Biosynthesis, Plasmids

Abstract

The in vivo accumulation of several prespore transcripts of Dictyostelium discoideum has previously been shown to depend upon concomitant protein synthesis (Ratner, D.I., Pentz, W.H. and Pelletier, D.A. (1989) Biochim. Biophys. Acta 1008, 71-78). Measurements of in vivo mRNA decay and nuclear run-on transcription assays have now been used to learn whether protein synthesis is required primarily for mRNA synthesis or transcript stability. The translational inhibitors cycloheximide and pactamycin stabilized existing prespore transcripts, despite their effect upon mRNA accumulation. Transcriptional assays, performed at intervals throughout the developmental cycle, demonstrated that temporal changes in the abundance of several cell-specific transcripts correlated closely with changes in their rates of synthesis. Finally, blocking protein synthesis strongly inhibited the transcription of the prespore genes examined. These results imply that one or more developmentally regulated, labile proteins are needed for the activation of prespore gene transcription.

Published

1991

107. Triiodothyronine stimulates and cyclic AMP inhibits transcription of the gene for malic enzyme in chick embryo hepatocytes in culture

Author

L M, Salati, X J, Ma, C C, McCormick, S R, Stapleton, and A G, Goodridge

Subjects

Transcription, Genetic, Pactamycin, Chick Embryo, DNA, Liver, Malate Dehydrogenase, Cyclic AMP, Animals, Insulin, Triiodothyronine, Electrophoresis, Polyacrylamide Gel, RNA, Messenger, DNA Probes, Cells, Cultured

Abstract

In chick embryo hepatocytes in culture, insulin and triiodothyronine (T3) increase malic enzyme activity and the abundance of malic enzyme mRNA by at least 50-fold, and glucagon or cAMP blocks this effect. Steps regulated by these hormones were defined by measuring transcriptional activity with the nuclear run-on assay and multiple fragments of the malic enzyme gene as probes. T3 alone caused a significant increase in transcription within 1 h, with a maximal increase of 30-40-fold occurring by 24 h. When T3 was added with insulin, 80% of the maximum rate was reached in 1 h. Insulin alone had no effect on transcription of the malic enzyme gene; it amplified the response to T3 in the first few hours after adding T3 but did not alter T3's maximal effect. Cyclic AMP for 1 h completely inhibited the increase in transcription caused by T3. The size and speed of the responses of the malic enzyme gene to T3 and cAMP suggest regulation of transcription initiation. T3-stimulated transcription of the malic enzyme gene did not require ongoing protein synthesis despite the fact that inhibitors of protein synthesis inhibited the T3-stimulated accumulation of its mRNA. T3 may directly activate transcription of this gene via its receptor. The pattern of DNase I hypersensitivity of the malic enzyme gene in chick embryo hepatocytes was the same as that in fed chick liver. Insulin, T3, and cAMP had no effect on that pattern. In chick embryo hepatocytes in culture, factors involved in regulation of transcription by insulin, T3, and cAMP may be bound to DNA independently of hormonal treatment.

Published

1991

108. Ribosome subunit to polysome ratios affect the synthesis of rRNA in Drosophila cells

Author

Maria Pellegrini and Karen K. Yamamoto

Subjects

Male, Pactamycin, Ribosomal RNA, Biology, Cycloheximide, Biochemistry, Molecular biology, Ribosome, chemistry.chemical_compound, Kinetics, Drosophila melanogaster, chemistry, Puromycin, 23S ribosomal RNA, RNA, Ribosomal, Polysome, Polyribosomes, Protein biosynthesis, Animals, Ribosomes, Anisomycin

Abstract

Many investigations have revealed that ribosome numbers increase in parallel with the growth rate of cells. Here we show that the absolute level of protein synthesis may not be the only factor influencing rRNA synthesis in a nondividing eukaryotic cell. Under conditions of complete (greater than 99%) inhibition of protein synthesis by four different antibiotics, there is a corresponding inhibition of rRNA synthesis. At lower levels of inhibition of protein synthesis (70%), a different effect of individual antibiotics on rRNA synthesis is observed. Cycloheximide and anisomycin, which cause a decrease in the free subunit pool due to a buildup of polysomes, stimulate rRNA synthesis, whereas puromycin and pactamycin, which cause an increase in the free subunit pool, cause a decrease in rRNA synthesis. These effects on rRNA synthesis are not solely due to a low level of completed proteins. Pactamycin treatment allows completed proteins to be made yet lowers rRNA labeling, while anisomycin treatment does not show synthesis of complete proteins yet increases rRNA labeling. The result suggest that eukaryotic cells may regulate ribosome synthesis in response to the number of free versus translating (polysomal) ribosomes as do Escherichia coli cells.

Published

1990

109. Resistance to pactamycin in clones of Streptomyces lividans containing DNA from pactamycin-producing Streptomyces pactum

Author

Eric Cundliffe and Michael J. Calcutt

Subjects

biology, Streptomycetaceae, Pactamycin, Restriction Mapping, Streptomyces pactum, Nucleic Acid Hybridization, Drug Resistance, Microbial, General Medicine, Ribosomal RNA, biology.organism_classification, Streptomyces, Molecular biology, Plasmid, Restriction map, Subcloning, RNA, Ribosomal, 16S, Genetics, Cloning, Molecular, RNA Processing, Post-Transcriptional, Ribosomes

Abstract

A pactamycin (Pc)-resistance determinant (pct) from Streptomyces pactum has been isolated on a 4.9-kb KpnI fragment. The original construct involving plasmid pIJ702 was highly unstable in Streptomyces lividans, leading to deletion of the pct gene from the vector. Subcloning of pct into an alternative vector (pOJ160) led to the generation of a more stable clone which possessed Pc-resistant ribosomes, and reconstitution analysis established that 16S rRNA was responsible for such resistance. Post-transcriptional modification of rRNA is probably the mechanism of resistance since the cloned DNA fragment did not appear to encode 16S rRNA.

Published

1990

110. A single PLP-dependent enzyme PctV catalyzes the transformation of 3-dehydroshikimate into 3-aminobenzoate in the biosynthesis of pactamycin.

Author

Hirayama A, Eguchi T, and Kudo F

Subjects

Biological Products metabolism, Catalysis, Magnetic Resonance Spectroscopy, Models, Molecular, Pactamycin chemistry, Pactamycin isolation & purification, Shikimic Acid metabolism, Streptomyces enzymology, Streptomyces metabolism, Substrate Specificity, Pactamycin biosynthesis, Shikimic Acid analogs & derivatives, meta-Aminobenzoates metabolism

Abstract

Natural amino donation: A PLP-dependent aminotransferase PctV, encoded in the pactamycin biosynthetic gene cluster, was found to catalyze the formation of 3-aminobenzoate from 3-dehydroshikimate with L-glutamate as the amino donor. The PctV reaction comprises a transamination and two dehydration reactions. This is the first report of a simple 3-ABA synthase in nature., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2013

111. Nature of the facilitated messenger ribonucleic acid transport from isolated nuclei

Author

A. Yannarell, Dorothy E. Schumm, and Thomas E. Webb

Subjects

Male, History, Hot Temperature, Serial dilution, RNA transport, In Vitro Techniques, Cycloheximide, Biology, Education, chemistry.chemical_compound, Cytosol, Animals, RNA, Messenger, Cell Nucleus, Pactamycin, Nucleic Acid Hybridization, Proteins, RNA, Biological Transport, Rats, Computer Science Applications, Liver, Biochemistry, chemistry, Cytoplasm, Streptomycin, Research Article, Macromolecule

Abstract

Cytoplasmic macromolecules were previously identified which regulate both qualitatively and quantitatively the release of messenger-like RNA from isolated nuclei. These macromolecules are now shown to be denatured at 45-50 degrees C and their synthesis is sensitive to pactamycin or cycloheximide. The putative regulatory proteins are essentially quantitatively precipitated with high specificity from the cytosol by streptomycin at a concentration 10-fold higher than that used to precipitate RNA. The nuclear concentration-dependence of RNA transport from successive samples of nuclei strongly suggests that the regulatory factors are recycled. Quantitative changes in the sequences transported at various dilutions of the cytosol suggest that not all the different classes of the putative regulatory macromolecules are present in an effective concentration at any one dilution.

Published

1976

112. Common Precursor for Rauscher Leukemia Virus gp69/71, p15(E), and p12(E)

Author

W.L. Karshin, L.J. Arcement, R.B. Naso, and Ralph B. Arlinghaus

Subjects

Peptide Biosynthesis, Viral protein, viruses, Immunology, Peptide, Biology, medicine.disease_cause, Rauscher Virus, Microbiology, Viral Proteins, chemistry.chemical_compound, Virology, Animal Viruses, medicine, Protein Precursors, Guanidine, Glycoproteins, Gel electrophoresis, chemistry.chemical_classification, Pactamycin, Isoelectric focusing, Phosphoproteins, Molecular biology, Molecular Weight, Genes, chemistry, Biochemistry, Insect Science, Phosphoprotein, Glycoprotein

Abstract

Rauscher murine leukemia virus glycoprotein gp69/71 and non-glycosylated p15(E) are synthesized by way of a 90,000-dalton precursor glycoprotein, termed Pr2 a + b . Peptide mapping experiments showed that Pr2 a + b contains all the tyrosine-containing tryptic peptides of gp69/71. Two additional tyrosine-containing tryptic peptides in Pr2 a + b that are not detected in gp69/71 are found in p15(E). Thus, gp69/71 and p15(E) peptide sequences account for all the tyrosine tryptic peptides of Pr2 a + b . The gene order of the two proteins was determined by pulse-labeling infected cells in the presence and absence of pactamycin at concentrations of the inhibitor that prevent initiation of translation, but not elongation. The gene order was found to be: 2 HN-gp69/71-p15(E)-COOH. A newly identified major viral protein, termed p12(E), migrates in sodium dodecyl sulfate-polyacrylamide gels in the “p12” region. It is related to p15(E) as determined by tryptic mapping experiments. p15(E) and p12(E) are not phosphorylated, and both can be separated from phosphoprotein p12 by guanidine hydrochloride-agarose chromatography. p12(E) and p15(E) elute in the void volume fraction, whereas phosphoprotein p12 elutes between p15 and p10. The two p12 proteins can also be separated from each other by two-dimensional gel electrophoresis involving isoelectric focusing in the first dimension and sodium dodecyl sulfate-gel electrophoresis in the second dimension.

Published

1977

113. The P2 and P3 Regions of the Poliovirus Genome are Preferentially Translated at Alkaline pH in Infected HeLa Cells

Author

Ana Urzainqui, José Luis Castrillo, and Luis Carrasco

Subjects

Genes, Viral, Viral protein, viruses, Cycloheximide, Biology, medicine.disease_cause, Guanidines, Viral Proteins, chemistry.chemical_compound, Virology, Protein biosynthesis, medicine, Humans, Guanidine, Gel electrophoresis, Messenger RNA, Pactamycin, Poliovirus, Hydrogen-Ion Concentration, Molecular biology, chemistry, Biochemistry, Sodium Fluoride, DNA, HeLa Cells

Abstract

HeLa cells infected with poliovirus exclusively synthesized proteins coded by the P2 and P3 regions of the viral genome when they were placed in an alkaline medium lacking sodium ions. The amount of viral protein synthesized was augmented by increasing the concentration of KCl. Also in the presence of KCl, the cells continued synthesizing this altered pattern of proteins for longer times. This effect occurred in the presence of guanidine, it was reversible, and the normal pattern of poliovirus proteins reappeared when control medium was added, even when guanidine was present. These findings suggest that truncated viral RNA is not made under these conditions. Pactamycin and sodium fluoride, two known inhibitors of the initiation of translation, blocked protein synthesis in cells placed in alkaline medium, indicating the possibility that initiation at internal sites of the viral mRNA may take place under these conditions. Finally, the proteins synthesized were analysed by two-dimensional gel electrophoresis. The proteins migrated as authentic viral proteins indicating that if internal initiation takes place, at least some of these initiation events occur in phase with the initiation codon present in the poliovirus genome.

Published

1988

114. Cycloheximide and pactamycin inhibit the rapid decrease in translatable mRNA activity ofP-enolpyruvate carboxykinase (GTP)

Author

Gad Glaser, Hanah Cohen, Lea Reshef, and David Faliks

Subjects

GTP', Biophysics, Cycloheximide, Biology, Biochemistry, Diabetes Mellitus, Experimental, chemistry.chemical_compound, Structural Biology, Genetics, Animals, Insulin, RNA, Messenger, Molecular Biology, HEPES, Antibiotics, Antineoplastic, Pactamycin, RNA, Cell Biology, Mrna activity, Molecular biology, Rats, chemistry, Polyribosomes, Poly-A RNA, Phosphoenolpyruvate Carboxykinase (GTP), Poly A

Published

1980

115. Requirement of protein synthesis for the degradation of host mRNA in Friend erythroleukemia cells infected wtih herpes simplex virus type 1

Author

Yutaka Nishioka and Saul Silverstein

Subjects

Polyadenylation, Ultraviolet Rays, Immunology, Biology, Virus Replication, medicine.disease_cause, Microbiology, Virus, Cell Line, Viral Proteins, Virology, Polysome, medicine, Protein biosynthesis, Animals, Simplexvirus, RNA, Messenger, RNA, Neoplasm, Globin, Messenger RNA, Leukemia, Experimental, Pactamycin, Molecular biology, Globins, Herpes simplex virus, Cell culture, Polyribosomes, Insect Science, Sodium Fluoride, Research Article

Abstract

We describe experiments which demonstrate that shortly after infection of Friend erythroleukemia cells with herpes simplex virus (HSV), polyribosomes dissociate and cellular mRNA degrades. Analysis of infected cell extracts on sucrose density gradients demonstrates that the majority of the polyribosomes have dissociated to monoribosomes at 2 h postinfection. Physical measurements of infected-cell RNAs support this conclusion and demonstrate that the polyadenylated RNAs decrease in size. The degradation of mRNA is apparently a stochastic process as judged by the failure to detect a shift in the Crt1/2 when polyadenylated RNA extracted from infected cells at different times is hybridized to globin complementary DNA. In experiments designed to determine whether dissociation of polyribosomes is sufficient to cause degradation of globin mRNA, the amount of globin mRNA in uninfected cells did not change when cells were treated with NaF or pactamycin at concentrations sufficient to dissociate all polyribosomes. In cells infected with UV-irradiated virus polyribosomes dissociate but globin mRNA does not degrade, suggesting that it is possible to separate dissociation from degradation.

Published

1978

116. Mutants of CHO cells resistant to the protein synthesis inhibitors, cryptopleurine and tylocrebrine: genetic and biochemical evidence for common site of action of emetine, cryptopleurine, tylocrebrine, and tubulosine

Author

Louis Siminovitch and Radhey S. Gupta

Subjects

Indoles, Emetine, Protein subunit, Mutant, Drug Resistance, Cross Reactions, Hybrid Cells, Cycloheximide, Biology, Biochemistry, Structure-Activity Relationship, chemistry.chemical_compound, Alkaloids, Cricetinae, Protein biosynthesis, medicine, Animals, Cells, Cultured, Anisomycin, Pactamycin, Chinese hamster ovary cell, Ovary, Sparsomycin, Phenanthrenes, Trichodermin, Isoquinolines, Molecular biology, chemistry, Protein Biosynthesis, Mutation, Female, Quinolizines, medicine.drug

Abstract

Stable mutants resistant to the protein synthesis inhibitors cryptopleurine and tylocrebine can be isolated in Chinese hamster ovary (CHO) cells, in a single step. The frequency of occurrence of cryptopleurine (CryR) and tylocrebrine (TylR) resistant mutants in normal and mutagenized cell populations is similar to that observed for emetine resistant (EmtR) mutants. The CryR, TylR, and EmtR mutants exhibit strikingly similar cross-resistance to the three drugs used for selection, to tubulosine and also to two emetine derivatives cephaeline and dehydroemetine, based on assays of in vivo cytotoxicity and on assays of protein synthesis in cell-free extracts. The identity of cross-resistance patterns of the CryR, TylR, and EmtR mutants indicates that the resistance to all these compounds results from the same primary lesion, which in the case of EmtR cells has been shown to affect the 40S ribosomal subunit. This conclusion is strongly supported by the failure of EmtR, TylR, and CryR mutants to complement each other in somatic cell hybrids. Based on these results it is suggested that the above group of compounds possesses common structural determinants which are responsible for their activity. The above mutants, however, do not show any cross-resistance to other inhibitors of protein synthesis such as cycloheximide, trichodermin, anisomycin, pactamycin, and sparsomycin, either in vivo or in vitro, indicating that the site of action of these inhibitors is different from that of the emetine-like compounds.

Published

1977

117. Membrane-bound ribosomes of myeloma cells. III. The role of the messenger RNA and the nascent polypeptide chain in the binding of ribosomes to membranes

Author

Bernard M. Mechler and Pierre Vassalli

Subjects

Peptide Biosynthesis, Biology, Models, Biological, Ribosome, Cell Line, Methionine, Ribonucleases, RNA, Transfer, Polysome, Protein biosynthesis, Eukaryotic Small Ribosomal Subunit, RNA, Messenger, Cycloheximide, Pactamycin, Eukaryotic Large Ribosomal Subunit, Cell Membrane, Articles, Cell Biology, Membrane, Biochemistry, Ribosome Subunits, Polyribosomes, Puromycin, Eukaryotic Ribosome, Ribosomes, Anisomycin

Abstract

Mild ribonuclease treatment of the membrane fraction of P3K cells released three types of membrane-bound ribosomal particles: (a) all the newly made native 40S subunits detected after 2 h of [3H]uridine pulse. Since after a 3-min pulse with [35S]methionine these membrane native subunits appear to contain at least sevenfold more Met-tRNA per particle than the free native subunits, they may all be initiation complexes with mRNA molecules which have just become associated with the membranes; (b) about 50% of the ribosomes present in polyribosomes. Evidence is presented that the released ribosomes carry nascent chains about two and a half to three times shorter than those present on the ribosomes remaining bound to the membranes. It is proposed that in the membrane-bound polyribosomes of P3K cells, only the ribosomes closer to the 3' end of the mRNA molecules are directly bound, while the latest ribosomes to enter the polyribosomal structures are indirectly bound through the mRNA molecules; (c) a small number of 40S subunits of polyribosomal origin, presumably initiation complexes attached at the 5' end of mRNA molecules of polyribosomes. When the P3K cells were incubated with inhibitors acting at different steps of protein synthesis, it was found that puromycin and pactamycin decreased by about 40% the proportion of ribosomes in the membrane fraction, while cycloheximide and anisomycin had no such effect. The ribosomes remaining on the membrane fraction of puromycin-treated cells consisted of a few polyribosomes, and of an accumulation of 80S and 60S particles, which were almost entirely released by high salt treatment of the membranes. The membrane-bound ribosomes found after pactamycin treatment consisted of a few polyribosomes, with a striking accumulation of native 60S subunits and an increased number of native 40S subunits. On the basis of the observations made in this and the preceding papers, a model for the binding of ribosomes to membranes and for the ribosomal cycle on the membranes is proposed. It is suggested that ribosomal subunits exchange between free and membrane-bound polyribosomes through the cytoplasmic pool of free native subunits, and that their entry into membrane-bound ribosomes is mediated by mRNA molecules associated with membranes.

Published

1975

118. Regulation of glycolipid biosynthesis: effects of virus infection and drug-induced translational inhibition on glycolipid metabolism

Author

Robert S. Anderson

Subjects

Drug, media_common.quotation_subject, Glycolipid metabolism, Palmitic Acids, Translational Inhibition, Biochemistry, Vesicular stomatitis Indiana virus, Virus, Glycolipid biosynthesis, Serine, Humans, Cycloheximide, media_common, Pactamycin, Chemistry, Galactose, Cell Transformation, Viral, Galactosyltransferases, Neoplasm Proteins, Kinetics, Poliovirus, Glucosyltransferases, Measles virus, Protein Biosynthesis, Glycolipids, HeLa Cells

Published

1979

119. Biosynthesis of mammalian transfer RNA. Evidence for regulation by deacylated transfer RNA

Author

Michael Litt and Thomas A. Hamilton

Subjects

Threonine, Transcription, Genetic, Aminoacylation, Biology, Biochemistry, Genetics and Molecular Biology (miscellaneous), Ribosome, chemistry.chemical_compound, RNA, Transfer, Biosynthesis, Polysome, Centrifugation, Density Gradient, Protein biosynthesis, Animals, TRNA aminoacylation, RNA, Neoplasm, Cycloheximide, Cells, Cultured, Leukemia, Experimental, Pactamycin, Histidinol, Biochemistry, chemistry, Polyribosomes, Protein Biosynthesis, Transfer RNA, Puromycin, T arm

Abstract

The rate of tRNA synthesis in cultured Friend leukemia cells has been examined as a function of the variation in polyribosome structure produced by treatment with a variety of inhibitors of protein synthesis. The results indicate, in contrast to the conclusions of Bolcsfoldi (Bolcsfoldi, G. (1974) Exp. Cell Res., 88, 231–240), that no necessary relationship exists between the ribosome distribution and the rate of tRNA synthesis. Alternatively, it is observed that inhibitors of tRNA aminoacylation cause, in all cases, a decrease in the rate of tRNA synthesis whereas drugs which may stimulate the aminoacylation of tRNA cause, in all cases, an elevation of the rate of tRNA synthesis. It is concluded that tRNA synthesis in mammalian cells may be regulated by the relative levels of acylated and deacylated tRNA.

Published

1976

120. Biosynthesis of the antitumor antibiotic pactamycin. A methionine-derived ethyl group and a C7N unit

Author

Kenneth L. Rinehart and Dwight D. Weller

Subjects

Methionine, Stereochemistry, medicine.drug_class, Antibiotics, Pactamycin, General Chemistry, Biochemistry, Catalysis, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, Biosynthesis, medicine, Ethyl group

Published

1978

121. Inhibition, by selected antibiotics, of protein synthesis in cells growing in tissue cultures

Author

Antonio Contreras, David Vazquez, and Luis Carrasco

Subjects

Pharmacology, Chartreusin, Pactamycin, Chick Embryo, Fibroblasts, Cycloheximide, Biology, Anti-Bacterial Agents, Mice, chemistry.chemical_compound, Biochemistry, chemistry, Puromycin, Depression, Chemical, Protein Biosynthesis, Drug Discovery, Aurintricarboxylic acid, Sparsomycin, Protein biosynthesis, Animals, Cells, Cultured, Anisomycin

Abstract

A large number of compounds including actinobolin, adrenochrome, amicetin, anisomycin, aurintricarboxylic acid, blasticidin S, chartreusin, chlortetracycline, cycloheximide, doxycycline, edeine A1, edeine complex, emetine, fusidic acid, gougerotin, GppCH2p, oxytetracycline, pactamycin, polydextran sulphate, puromycin, pyrocatechol violet, sparsomycin and tubulosine have been tested for inhibitory effects on protein synthesis in cultured cells from both mouse fibroblasts (3T6 cells) and chick embryo fibroblasts (CEF). Essentially, similar results were obtained with both cell types with the most effective inhibitors being pactamycin, emetine, tubulosine, anisomycin and cycloheximide and with no significant inhibitory activity being detected with edeine complex, edeine A1, GppCH2p, polydextran sulphate, aurintricarboxylic acid, pyrocatechol violet and adrenochrome. The concentration of pactamycin required to produce 50% inhibition of protein synthesis approximated 5 X 10(-9) M, but for most of the inhibitors it ranged from 5 X 10(-6) M to 5 X 10(4) M. The molecular basis underlying these differences may be related, in addition to their intrinsic inhibitory power, to differences in permeability of the cells towards the various drugs tested. Alternatively, active accumulation of the drugs by the cells may be the variable parameter.

Published

1978

122. Differential inhibition with partially purified and endogenous rabbit reticulocyte globin mRNA by 7-methylguanosine 5′-monophosphate

Author

Robert J. Suhadolnik, Chi P. Cheung, and Joseph M. Wu

Subjects

Reticulocytes, Guanosine Monophosphate, Biophysics, Endogeny, Biology, Biochemistry, Structure-Activity Relationship, chemistry.chemical_compound, Reticulocyte, hemic and lymphatic diseases, Guanosine monophosphate, medicine, Protein biosynthesis, Animals, RNA, Messenger, Globin, Molecular Biology, Messenger RNA, Dipeptide, Pactamycin, Translation (biology), Dipeptides, Cell Biology, Molecular biology, Guanine Nucleotides, Globins, medicine.anatomical_structure, chemistry, Protein Biosynthesis, Rabbits

Abstract

The effect of 7-methylguanosine 5′-monophosphate (m7G5′ p) on translation of partially purified globin mRNA and of polysome-associated endogenous globin mRNA has been studied. Under identical experimental conditions, with 0.4 mM m7G5′ p, translation with partially purified globin mRNA is inhibited 50%; translation with endogenous globin mRNA is inhibited 10%. The inhibition of protein synthesis by m7G5′ p occurs at a step before the first peptide bond formation as evidenced by studies with pactamycin; 0.4 mM m7G5′ p inhibited the first dipeptide synthesis 43% when the partially purified globin mRNA was used whereas 15% inhibition was observed with the endogenous mRNA. The inhibition of m7G5′ p appears to be related to the structural integrity of globin mRNA.

Published

1977

123. Comparison of different methods of determining cell viability after exposure to cytotoxic compounds

Author

T.J. Fraser, Bijoy K. Bhuyan, K.J. Day, and B.E. Loughman

Subjects

Cell Survival, Cytological Techniques, Antineoplastic Agents, Biology, Tubercidin, Cell Line, chemistry.chemical_compound, Amphotericin B, Cell Adhesion, medicine, Cytotoxic T cell, Mechlorethamine, Viability assay, Antibiotics, Antineoplastic, Pactamycin, Cytarabine, Cell Biology, Carmustine, Molecular biology, Staining, chemistry, Doxorubicin, Nogalamycin, Vincristine, Cell culture, L1210 cells, Chlorambucil, Trypan blue, medicine.drug

Abstract

Cell-survival (of DON and L1210 cells) after treatment with cytotoxic compounds was assessed by measuring cloning efficiency, exclusion of trypan blue and erythrosin B, [ 51 Cr] release, and attachment of DON cells to glass. Cell survival as measured by cloning efficiency did not correlate with survival measured by any of the other methods. We found that the stainability of cells after drug exposure depended on the cell line used. For example, after 3 h exposure to tubercidin although 100% of both DON and L1210 cells were killed (on basis of cloning efficiency), only 11% of DON cells and 68% of L1210 cells were dead as indicated by staining with erythrosin B. The stainability of cells also depended on the particular drug used. For example, after 24 h exposure of L1210 cells to adriamycin and tubercidin (both killed >99% of cells on basis of cloning efficiency) 21% of cells exposed to adriamycin and 99% of cells exposed to tubercidin were stained. The results obtained with several other cytotoxic compounds are discussed.

Published

1976

124. Analysis of the two steps in polypeptide chain initiation inhibited by pactamycin

Author

Irving H. Goldberg and Lizzy S. Kappen

Subjects

Antibiotics, Antineoplastic, Binding Sites, Reticulocytes, Dipeptide, Pactamycin, Stereochemistry, RNase P, Sparsomycin, Hemolysis, Biochemistry, Ribosome, chemistry.chemical_compound, RNA, Transfer, chemistry, Polyribosomes, Polysome, Animals, Initiation factor, Rabbits, Peptide Chain Initiation, Translational, Eukaryotic Ribosome, Oligopeptides, Ribosomes

Abstract

Earlier work has shown that the inhibition by pactamycin (PM) of polypeptide chain initiation in reticulocyte extracts is associated with (1) a defect in the joining of the 60S subunit to the smaller initiation complex to form an 80S complex ("joining reaction") (Kappen, L. S., Suzuki, H., and Goldberg, I. H. (1973), Proc. Natl. Acad. Sci. U.S.A. 70, 22) and (2) a block after the synthesis of the initial dipeptide (Kappen, L. S., and Goldberg, I. H. (1973), Biochem. Biophys. Res. Commun. 54, 1083). The relative contributions of these two effects to the action of PM and their relationship to one another were evaluated in a system employing sparsomycin that permits both initiation at a certain number of initiation sites and limited oligopeptide formation without termination and release. The degree to which PM blocks the "joining reaction" and leads to the accumulation of 48S initiation complexes that either remain free or are bound to polysomes without the corresponding 60S subunit ("half-mers") was estimated by treatment of polysomes with RNase. Met-tRNAfMet binding factors are required to stabilize the RNase-generated 48S complexes. Under conditions where the initiation factor required for the "joining reaction" functions catalytically, presumably by cycling on and off initiation complexes, PM usually inhibits 80S complex formation 50-70%. Where "joining" is not limiting (presence of at least stoichiometric amounts of joining factor or high Mg2+ concentration) PM leads to the maximal accumulation of the initial dipeptide, Met-Val, in the P-site on the ribosome, indicating a block in a subsequent step in elongation. Binding studies with [3H]PM and the inability of PM to inhibit elongation of preformed Met-Val indicate that PM must interact with the ribosomes at an early stage of initiation. Taken together these data are compatible with the suggestion that PM does not interfere with the ribosomal "joining reaction" per se, but prevents the release and reuse of the joining factor, and in so doing blocks a step in elongation after formation of the initial dipeptide and its translocation to the P-site on the ribosome.

Published

1976

125. Translational requirement of La Crosse virus S-mRNA synthesis: in vivo studies

Author

R, Raju and D, Kolakofsky

Subjects

Base Sequence, Transcription, Genetic, Pactamycin, Immunology, Nucleic Acid Hybridization, Microbiology, Cell Line, Encephalitis Viruses, Protein Biosynthesis, Virology, Insect Science, Animals, RNA, Viral, Puromycin, RNA, Messenger, Cycloheximide, Research Article

Abstract

By using methods to isolate cytoplasmic RNAs which limit degradation, the effect of drugs which inhibit protein synthesis on the accumulation of La Crosse virus plus-strand S RNAs in vivo has been studied. Cycloheximide and puromycin treatment of infected cultures caused an abortive transcript of ca. 205 nucleotides (nt) to accumulate, whereas pactamycin led to the appearance of an RNA which was slightly shorter (ca. 200 nt). Both the 205- and 200-nt RNAs contained the same range of host primers at their 5' end, but their 3' ends mapped at ca. positions 175 and 165, respectively. Examination of the sequence in this region and at the mature mRNA termination site (position 886) suggests that the sequence YAAAAAT(A)GCAG is involved in transcription termination.

Published

1987

126. Stimulation of the protein synthetic process by adenosine 3‘:5‘-monophosphate and hexose phosphates in gel-filtered rabbit reticulocyte lysates

Author

C P Cheung, Robert J. Suhadolnik, and J M Wu

Subjects

chemistry.chemical_classification, Dipeptide, Pactamycin, Stimulation, Cell Biology, Biology, Biochemistry, Molecular biology, chemistry.chemical_compound, medicine.anatomical_structure, Adenosine 3 5 monophosphate, Reticulocyte, chemistry, medicine, Protein biosynthesis, Hexose, Molecular Biology, Initial rate

Abstract

The addition of 0.167 to 4.0 mM cAMP to gel-filtered rabbit reticulocyte lysates stimulates the initial rate and the extent of polypeptide synthesis. The stimulation is at the initiation step of polypeptide synthesis as measured by the (i) increased dipeptide, methionyl-valine, accumulation in the presence of the specific initiation inhibitor, pactamycin, and (ii) increased formation of the 40 S and 80 S initiation complex when gel-filtered lysates are incubated with [35S]Met-tRNAFMet. Furthermore, a synergistic stimulation of protein synthesis is observed when cAMP and hexose phosphates (which alone elicit a 1.8-fold stimulation of protein synthesis) are added simultaneously to gel-filtered rabbit reticulocyte lysates. These results indicate that cAMP and hexose phosphates are both essential to maintain the high rate of initiation.

Published

1978

127. Migration of 40 S ribosomal subunits on messenger RNA when initiation is perturbed by lowering magnesium or adding drugs

Author

M Kozak

Subjects

Messenger RNA, Protein subunit, Pactamycin, Cell Biology, Biology, Ribosomal RNA, Biochemistry, Ribosome, chemistry.chemical_compound, medicine.anatomical_structure, Reticulocyte, chemistry, Sodium fluoride, medicine, Eukaryotic Ribosome, Molecular Biology

Abstract

Migration of 40 S ribosomal subunits on messenger RNA, detected previously in experiments using the antibiotic edeine (Kozak, M., and Shatkin, A.J. (1978) J. Biol. Chem. 253, 6568-6577) has now been observed in the presence of other inhibitors of initiation. 40 S subunit migration has been detected in both wheat germ and reticulocyte lysates treated with edeine, pactamycin, or sodium fluoride. The variety of structurally unrelated inhibitors that mediate this effect argues against the interpretation that migration is a drug-induced artifact. Indeed, limited migration of 40 S ribosomes occurs upon simply lowering the magnesium concentration, in the absence of inhibitors. Thus, migration seems to be an inherent property of 40 S ribosomal subunits and might be involved in the mechanism by which eukaryotic ribosomes select initiation sites in messenger RNA.

Published

1979

128. Synergistic Effect of Pactamycin and Sparsomycin on Mycoplasma -Induced Lethal Toxicity of Mice

Author

Michael G. Gabridge

Subjects

Stereochemistry, Pharmacology, medicine.disease_cause, Drug synergism, Mice, chemistry.chemical_compound, Mycoplasma, medicine, Animals, Pharmacology (medical), Mycoplasma fermentans, Mice, Inbred BALB C, Antibiotics, Antineoplastic, biology, Pactamycin, Poisoning, Drug Synergism, Sparsomycin, Articles, Mycotoxins, biology.organism_classification, Infectious Diseases, Methylprednisolone, chemistry, Toxicity, Female, medicine.drug

Abstract

Pactamycin and sparsomycin, antitumor drugs which act synergistically with endotoxins, also potentiate the lethal toxicity of mice by Mycoplasma fermentans , strain K10. Sparsomycin (50 μg/20 g mouse, injected intraperitoneally 1 h after various doses of M. fermentans ) exerted a minimal degree of synergism with few extra deaths, but with prolonged appearance of nonlethal disease. Pactamycin (75 μg in the same protocol) increased susceptibility to Mycoplasma -induced lethal toxicity approximately 1,000-fold. The optimal response was noted when pactamycin was administered in the period between 6 h before and 3 h after the administration of 10 8 colony-forming units of viable mycoplasmas. Doses of 12.5, 25, or 50 μg increased severity of signs, but only 75 μg/mouse produced synergism of the lethal effect. Methylprednisolone partially negated the synergism when injected simultaneously with the pactamycin 1 h after the cells. The lethal synergistic effect occurred with four species of Mycoplasma in addition to M. fermentans .

Published

1974

129. Evidence of ambiguous processing and selective degradation in the noncapsid proteins of rhinovirus 1A

Author

Roland R. Rueckert, T. J. Matthews, and C. McLean

Subjects

Rhinovirus, Molecular mass, Pactamycin, Immunology, Kinetics, Biology, Cleavage (embryo), Microbiology, Molecular Weight, Gene product, Viral Proteins, Capsid, Selective degradation, Biochemistry, Protein Biosynthesis, Virology, Insect Science, Protein Precursors, Rhinovirus 1a, Research Article

Abstract

Pulse-chase kinetics and extensive pactamycin mapping studies show that the translation of rhinovirus 1A proceeds in the order: initiate-P1-S-P2-terminate, where P1 is the precursor to the capsid proteins, S is a stable primary gene product, and P2 is the precursor to a family of noncapsid products. Initial examination of the molar stoichiometry of the families of rhinoviral proteins in infected cells suggested that both the P1 and P2 regions were translated more frequently than the S region. However, we show that this apparent asymmetry in translation is an artifact arising from two phenomena: (i) ambiguous cleavage sites which result in two alternative products from the S region, having apparent molecular weights of 47,000 and 38,000, and (ii) several fates for the P2 precursors, including degradation of 35 to 45% of the P2 family to small unidentifiable products. Another artifact, a time-dependent shift in the pactamycin mapping position of polypeptide r-39, was traced to a selective inhibition of the rate of cleavage of its precursor (peak 76). The processing rate of the capsid precursor (peak 92) was not retarded by pactamycin.

Published

1976

130. Characterisation of Protein Synthesis in Cell-Free Extracts from Different Mammalian Cells by their Sensitivity to Inhibitors of Polypeptide-Chain Initiation

Author

Bertold Emmerich, Christine Weller, Rolf Preis, Heinrich Schuster, Johann Rastetter, and Volker Erben

Subjects

Poly U, Reticulocytes, Cyclohexanecarboxylic Acids, Cell, Biology, Plasma cell, Biochemistry, Ribosome, Mice, chemistry.chemical_compound, Aurintricarboxylic acid, medicine, Protein biosynthesis, Animals, RNA, Messenger, Binding site, Peptide Chain Initiation, Translational, Antibiotics, Antineoplastic, Cell-Free System, Pactamycin, Aurintricarboxylic Acid, Translation (biology), Neoplasms, Experimental, Molecular biology, medicine.anatomical_structure, Liver, chemistry, Polyribosomes, Protein Biosynthesis, biology.protein, Female, Rabbits, Antibody, Plasmacytoma

Abstract

Plasma cells and reticulocytes are differentiated mammalian cell systems specialized in the synthesis of distinct proteins. To study whether a cell specificity of polypeptide-chain initiation in such cell systems can be detected through inhibitors, the sensitivity to several drugs interfering with initiation was compared in cell-free systems with S-30 extracts from these cells. The following was indicated by the experiments: (1) under the selected conditions, the different cell-free systems are comparable with respect to their activity of initiation, and that aurintricarboxylic acid inhibits mRNA binding to the ribosome in plasma cell tumours the same as in reticulocytes. (2) The sensitivity of translation of endogenous mRNAs in reticulocytes and plasma cell tumours to inhibitors of mRNA binding to the ribosome, aurintricarboxylic acid and the homopolynucleotides poly(U) and poly(A), are different. (3) Inhibition of the succeeding reactions of peptide-chain initiation by sodium fluoride and pactamycin was not selective. (4) In both cell systems translation of poly(U) is equally sensitive to aurintricarboxylic acid. (5) In extracts from TEPC 15 myeloma cells synthesis of immunoglobulin L-chains compared with that of the other myeloma proteins is partially resistant to aurintricarboxylic acid, whereas in reticulocytes, no differential sensitivities of individual proteins could be observed. The different susceptibility of the mRNA binding reaction in plasma cell tumours and reticulocytes suggests that the predominant mRNAs of these cells have different affinities to ribosome binding sites.

Published

1979

131. Methyl mercury-induced combined inhibition of atp regeneration and protein synthesis in reticulocyte lysate cell-free translation system

Author

Nikolay V. Zavijalov, Dmitrij A. Kuznetsov, Alexander V. Govorkov, and Andrey A. Ivanov-Snaryad

Subjects

Reticulocytes, Lysis, Biology, Cycloheximide, Toxicology, chemistry.chemical_compound, Adenosine Triphosphate, Reticulocyte, Ammonia, medicine, Protein biosynthesis, Animals, Trichloroacetic acid, Carbon Tetrachloride, Cell-Free System, ATP synthase, Pactamycin, Methanol, General Medicine, Methylmercury Compounds, In vitro, Adenosine Diphosphate, medicine.anatomical_structure, chemistry, Biochemistry, Protein Biosynthesis, biology.protein, Rabbits

Abstract

Methyl mercury inhibits in vitro protein synthesis in the rabbit reticulocyte lysate cell-free translation system and simultaneously leads to reduction of the ATP/ADP index. It has been established that there is a close relationship (r = 0.86) between the rates of ATP resynthesis and protein synthesis in vitro within a wide range of the methyl mercury concentrations tested (0.0001-1.0 mumol/ml). Ammonia, CCl4, cycloheximide and pactamycin inhibit translation in vitro without affecting ATP resynthesis. Methanol does not cause substantial alterations of the parameters of the cell-free translation system. Thus, there are at least two essentially different causes of poison-induced in vitro translation blocking. Suppression of ATP resynthesis (methyl mercury) and direct effect on protein synthesis (cycloheximide, CCl4, etc.)

Published

1986

132. Translational requirement of La Crosse virus S-mRNA synthesis: in vitro studies

Author

Ramaswamy Raju, Jean L. Patterson, Daniel Kolakofsky, and Christine Bellocq

Subjects

Reticulocytes, Genes, Viral, Transcription, Genetic, Immunology, Cycloheximide, Biology, Microbiology, Cell Line, Viral Proteins, chemistry.chemical_compound, Reticulocyte, Transcription (biology), Virology, Protein biosynthesis, medicine, Animals, RNA, Messenger, Polymerase, Pactamycin, RNA, DNA-Directed RNA Polymerases, Molecular biology, In vitro, Encephalitis Viruses, Kinetics, medicine.anatomical_structure, chemistry, Puromycin, Protein Biosynthesis, Insect Science, biology.protein, Research Article

Abstract

The exceptional requirement of La Crosse virus mRNA synthesis for ongoing protein synthesis in vivo was examined in vitro by using purified virions and a reticulocyte lysate. Transcription from the S genome produced two incomplete transcripts (110 and 205 nucleotides [nt]) in the absence of the lysate, whereas S-mRNA (900 nt) was predominantly made when the lysate was present. The addition of drugs which inhibit protein synthesis also inhibited the synthesis of S-mRNA, and in some cases led to the reappearance of the 205-nt RNA. Reconstruction experiments demonstrated that the incomplete transcripts were not the result of rapid and selective degradation of S-mRNA but were due to premature termination of the polymerase at defined sites. The requirement for ongoing protein synthesis for productive transcription in vitro is not at the level of chain initiation but for elongation of the nascent RNA beyond these sites.

Published

1987

133. Presence of diadenosine 5',5'' -P1, P4-tetraphosphate (Ap4A) in mamalian cells in levels varying widely with proliferative activity of the tissue: a possible positive 'pleiotypic activator'

Author

Eliezer Rapaport and Paul C. Zamecnik

Subjects

Amino acid activation, Oligoribonucleotides, Multidisciplinary, DNA synthesis, Adenine Nucleotides, Pactamycin, Cell growth, Oligonucleotides, Biology, Molecular biology, Cell Line, chemistry.chemical_compound, chemistry, Adenine nucleotide, Cell culture, Hydroxyurea, Doubling time, Puromycin, Ap4A, Cell Division, Intracellular, Research Article

Abstract

An accurate assay of diadenosine 5',5'''- P1,P4-tetraphosphate [A(5') pppp(5')A], which was shown to be formed in vitro in the backreaction of the amino acid activation step, has been developed in various cell lines in culture and in normal mouse liver or hepatoma in vivo. Use of radioactive labeling of acid-soluble nucleotides to high specific activity followed by chromatographic separation techniques yielded levels of Ap4A varying from 5 to 0.05 muM (from 30 pmol/mg of protein to 0.15 pmol), depending on the doubling time of the cell line or the proliferative state of the cells. The levels of Ap4A incells is inversely related to their doubling time, varying from 0.1 X 10(-4) of the cellular ATP levels in slowly growing cells to 20 X 10(-4) of the ATP levels of cells with rapid doubling times. The steady-state levels of ATP of different cell lines, although showing some fluctuations, are not related to the doubling time of the cells. Arrest of cellular proliferation by serum deprivation or amino acid starvation, which does not alter the cellular ATP levels more than 2-fold, does nevertheless cause a decrease of 30 to 50-fold in the Ap4A levels. Inhibition of protein synthesis by pactamycin or puromycin, or inhibition of DNA synthesis by hydroxyurea, leads to a more dramatic decrease of 50 to 100-fold in intracellular Ap4A levels. The metabolic lability of Ap4A is also demonstrated by its rapid depletion after decreases in the ATP/ADP ratio. The possibility of Ap4A being a metabolic "signal nucleotide" that is formed at the onset of protein synthesis and is active in positive growth regulation (positive pleiotypic activation) is discussed.

Published

1976

134. Cycloheximide elicits in human fibroblasts a response characteristic for initiation of cell proliferation

Author

Pirkko Pohjanpelto

Subjects

Messenger RNA, Contact Inhibition, Pactamycin, Cell growth, Biological Transport, Cell Biology, Cycloheximide, Biology, Molecular biology, chemistry.chemical_compound, Blood, chemistry, Protein Biosynthesis, Dactinomycin, Putrescine, Putrescine transport, Protein biosynthesis, Inhibitory effect, Cell Division, Cells, Cultured

Abstract

Earlier I found that a variety of stimuli to proliferation of cultured human fibroblasts caused an increase in the rate of putrescine transport into the cells. This paper reports the effects of cycloheximide on putrescine transport in stationary and growing cultures. Cycloheximide in concentrations that inhibited protein synthesis caused increased putrescine transport in serumstarved and density-inhibited cultures. Similar effects were found with pactamycin, also an inhibitor of protein synthesis. Actinomycin D in concentrations that suppressed messenger RNA (mRNA) synthesis, did not cause increased putrescine transport. When both serum and cycloheximide were added to serum-starved cultures, the increase in putrescine transport was greater than when serum alone was added. However, cycloheximide had an inhibitory effect when added 1–2 h after addition of serum. These results suggest that one or more rapidly metabolizing proteins may be important in the regulation of putrescine transport and initiation of cell growth.

Published

1976

135. Role of protein synthesis in the assembly of semliki forest virus nucleocapsid

Author

Leevi Kääriäinen, Ismo Ulmanen, and Hans Söderlund

Subjects

biology, Pactamycin, viruses, Sparsomycin, biochemical phenomena, metabolism, and nutrition, Cycloheximide, Semliki Forest virus, biology.organism_classification, Semliki forest virus, Ribosome, Viral Proteins, chemistry.chemical_compound, Capsid, chemistry, Biochemistry, Puromycin, Polyribosomes, Protein Biosynthesis, Virology, Polysome, Protein biosynthesis

Abstract

The structural proteins of Semliki Forest virus are translated as a 130K polyprotein from which the amino terminal capsid protein is cleaved immediately after being completed. We have followed the intracellular pathway of capsid protein from polysomes to the nucleo-capsids by pulse-chase experiments. After a 1-min pulse given in the middle of the infection cycle the newly formed capsid protein was quantitatively associated with the large ribosomal subunits in the polysomes. After a 2-min chase 40 to 60% of the capsid proteins disappeared from the polysomes, appearing simultaneously in the nucleocapsid pool. Since the released capsid protein could never be found free in the cytoplasm, we conclude that it was transferred directly from the polysomal ribosomes to the nucleocapsid pool. Those capsid proteins which were not transferred from the polysomes were released into the monosome pool after a 5-min chase. During longer chase periods the label in monosomes decreased slowly in parallel to a corresponding increase in the amount of labeled nucleocapsids, suggesting that monosome-associated capsid protein was also transferred to the nucleocapsid pool, albeit at a greatly reduced rate. The rapid “polysomal transfer” of capsid protein was more dominant late than early in the infection. Puromycin, cycloheximide, and sparsomycin, added immediately after the pulse, inhibited to a large extent the transfer of capsid protein to the nucleocapsid, showing that the “polysomal transfer” plays an important role in the assembly of the nucleocapsid. Inhibition of initiation of protein synthesis with pactamycin had no effect on the pathway of the pulse-labeled capsid protein.

Published

1979

136. In vitro replication and assembly of vesicular stomatitis virus nucleocapsids

Author

Donald F. Summers, Lorraine L. Marnell, and Virginia M. Hill

Subjects

RNase P, viruses, Cell, Gene Expression, In Vitro Techniques, Virus Replication, Vesicular stomatitis Indiana virus, HeLa, Viral Proteins, Capsid, Transcription (biology), Virology, medicine, Protein biosynthesis, Cycloheximide, biology, Pactamycin, RNA, biology.organism_classification, In vitro, Cell biology, Kinetics, Nucleoproteins, medicine.anatomical_structure, Vesicular stomatitis virus, RNA, Viral

Abstract

An in vitro system using vesicular stomatitis virus (VSV) infected HeLa cell S10 extracts, optimized for transcription and translation, replicated and assembled VSV genome-size RNA into nucleocapsids containing at least N protein. The in vitro synthesized nucleocapsids (RNPs) were RNase resistant and had the same buoyant density in CsCl as virion nucleocapsids. Full-length (+) and (−) RNA were synthesized in about the same ratio as in vivo . In vitro replication was dependent on protein synthesis or at least a pool of VSV RNP proteins. This system will be useful for identification of the host cell factors necessary for replication and the relationship of L and NS proteins in transcription and replication.

Published

1981

137. Protein synthesis and auxin-induced growth: Inhibitor studies

Author

Robert E. Cleland and George W. Bates

Subjects

chemistry.chemical_classification, food.ingredient, Period (gene), food and beverages, Pactamycin, Plant Science, Biology, Cycloheximide, chemistry.chemical_compound, Coleoptile, Avena, food, chemistry, Biochemistry, Auxin, Respiration, Genetics, Protein biosynthesis

Abstract

We have compared the effects of cycloheximide (CHI) and two other rapid and effective inhibitors of protein synthesis, pactamycin and 2-(4-methyl-2,6-dinitroanilino)-N-methyl proprionamide (MDMP), on protein synthesis, respiration, auxin-induced growth and H(+)-excreation of Avena sativa L. coleoptiles. All three compounds inhibit protein synthesis without affecting respiration. The effectiveness of the inhibitors against H(+)-excretion and growth correlates with their ability to inhibit protein synthesis. Both CHI and MDMP inhibit auxin-induced H(+)-excretion after a latent period of 5-8 min, and inhibit growth after a 8-10-min lag. These results support the idea that continued protein synthesis is required in the initial stages of the growth-promoting action of auxin.

Published

1979

138. Evidence for preformed mRNA in the induction of TMP synthetase in Tetrahymena pyriformis

Author

Jean Lucas-Lenard, M.S. Dickens, and Jay S. Roth

Subjects

chemistry.chemical_classification, biology, Pactamycin, Tetrahymena pyriformis, Methyltransferases, Thymidylate Synthase, Cell Biology, Cycloheximide, Enzyme assay, Culture Media, chemistry.chemical_compound, Chemically defined medium, Enzyme, chemistry, Biochemistry, Puromycin, Enzyme Induction, Dactinomycin, Protein biosynthesis, biology.protein, RNA, Messenger, Enzyme inducer

Abstract

The induction of thymidylate (TMP) synthetase in Tetrahymena pyriformis occurred following a shift from complex medium to defined medium, or following addition of cyclic guanosine-3′,5′-monophosphate (cGMP) to complex medium. Inhibitors of macromolecular synthesis were used to probe the role of culture conditions in the enzyme induction. In defined medium actinomycin D minimally decreased the induction of enzyme activity, implying that control of enzyme synthesis is not exerted at the transcriptional level. Cycloheximide markedly inhibited the induction of TMP synthetase by defined medium, suggesting the requirement for protein synthesis in the induction process. In contrast, in complex medium where the activity of the synthetase was low (spec. act.

Published

1977

139. Biochemical Requirements for Intracellular Invasion byTrypanosoma cruzi: Protein Synthesis1

Author

Felipe Kierszenbaum and Maria F. Lima

Subjects

Infectivity, biology, Cell, Pactamycin, Parasitemia, medicine.disease, biology.organism_classification, Virology, In vitro, Microbiology, medicine.anatomical_structure, parasitic diseases, medicine, Parasitology, Amastigote, Trypanosoma cruzi, Intracellular

Abstract

The effects of irreversible inhibition of protein synthesis by pactamycin in either infective forms of Trypanosoma cruzi or mammalian host cells on cellular invasion by this human pathogen were investigated. Treatment of bloodstream forms of T. cruzi with pactamycin markedly reduced their ability to bind either fibroblast-like cells of monkey origin or myoblasts of rat origin. The number of amastigote forms that could be established intracellularly was also significantly decreased with respect to control values obtained when mock-treated (medium alone) trypomastigotes were incubated with the cells. Pactamycin treatment also reduced the infectivity of T. cruzi trypomastigotes for mice as evidenced by both significantly reduced parasitemia levels and mortality rates when compared with those of control mice infected with mock-treated parasites. Inhibition of protein synthesis in the host cells neither prevented cell infection by untreated trypomastigotes nor altered the percentages of infected cells or the magnitude of the infection in vitro. These results indicate that protein synthesis is a requirement for cell invasion by T. cruzi and that the parasite can establish itself and replicate within cells relying on its own protein synthesis ability.

Published

1982

140. Biochemical Mapping of the Foot-and-Mouth Disease Virus Genome

Author

David J. Rowlands, D. V. Sangar, D. N. Black, and Fred Brown

Subjects

Aphthovirus, biology, Pactamycin, viruses, Proteolytic enzymes, Sodium Chloride, biochemical phenomena, metabolism, and nutrition, Cleavage (embryo), biology.organism_classification, Virology, Molecular biology, Virus, Cell Line, Molecular Weight, NS2-3 protease, Viral Proteins, Genes, Capsid, RNA, Viral, Protein Precursors, Foot-and-mouth disease virus, Peptides, Gene

Abstract

Four primary cleavage products, mol. wt. 10(3) X 100, 88, 56 and 52 (P100, P85, P56 and P52 respectively) are present in BHK 2I cells infected with foot-and-mouth disease virus (FMDV). However, no precursor polyprotein equal to the sum of their mol. wt. was detected, even when amino acid analogues and proteolytic enzyme inhibitors were used. Three of the primary products were shown to cleave to smaller polypeptides, including the capsid polypeptides of the virus. Polypeptide P88, which was shown to be the precursor of the capsid polypeptides, is translated from the gene located at the 5'-end of the genome. The order of the structural polypeptides, determined by the use of emetine, is VP4, VP2, VP3, VP1. The order of the remaining primary cleavage products is P52, P56 and P100. P56 is a stable product, identical with the virus infection associated (VIA) antigen found in virus harvests. The function of the other two products P52 and P100 is not known. EMDV thus differs from other picornaviruses in that there is an extra primary cleavage product, apparently resulting from translation of more of the virus genome.

Published

1977

141. The Nature of Host-Cell Herpes-Simplex Virus Interaction(s) that Renders Cells Susceptible to Virus-Specific Cytotoxic T Cells

Author

M.H. Wolff and K.K. Sethi

Subjects

Cytotoxicity, Immunologic, T-Lymphocytes, viruses, Immunology, Spleen, medicine.disease_cause, Virus, Canavanine, Mice, Species Specificity, Antigen, Cricetinae, medicine, Animals, Simplexvirus, Immunology and Allergy, Cytotoxic T cell, Antigens, Viral, Mice, Inbred BALB C, Mice, Inbred C3H, biology, Pactamycin, Herpes Simplex, Hematology, Virology, In vitro, Herpes simplex virus, medicine.anatomical_structure, Lytic cycle, Concanavalin A, biology.protein

Abstract

Nylon wool-purified splenic T cells from herpes simplex virus (HSV) immunized mice could be induced in vitro to yield large quantities of secondary cytotoxic T lymphocytes (CTLs) with specificities for HSV and histocompatibility (H-2) antigens. The in vitro approaches used for generating secondary CTLs consisted of culturing memory T cells either a) in medium containing supernatant from concanavalin A (Con A) stimulated spleen cells (CM), b) coculturing them with mitomycin C treated L cells coated with ultraviolet (UV) inactivated HSV, or c) stimulating them in vitro with purified UV-inactivated HSV alone. The primary aim of the present study was to characterize the nature of virus-cell interaction(s) that renders target cells susceptible to the lytic activity of anti-HSV CTLs. The results revealed that addition of irreversible protein synthesis inhibitor pactamycin to the target cells, prior to infection , could block substantially (ca. 50%) the lysis of targets by anti- HSV CTLs. The magnitude of CTL-mediated lysis against targets incubated with the drug canavanine which apparently blocked the synthesis of late virus-encoded polypeptides was of relatively low level when compared to untreated targets (i.e. 23 ± 2.5% vs. 46 ± 3.2% for HSV-1 CTLs and 26 ± 2.2% vs. 39 ± 4.2 for HSV-2 CTLs) which implies that virus specific late polypeptide(s) are involved in the recognition phenomenon. However, anti-HSV CTLs could also mediate an adequate level of specific lytic activity towards sygeneic enucleated cells (cytoplasts) which were exposed to HSV and would not allow the synthesis of new virus encoded antigen(s). Taken together, the data suggest that very early after HSV infection, the putative virus specific antigen(s) involved in CTL recognition event is derived directly from input virions i.e. externally, whereas late in the infectious cycle, it is the newly synthesized (from within) viral antigen(s) which is of relevance in the context of this phenomenon.

Published

1980

142. Initiation sites for translation of sindbis virus 42S and 26S messenger RNAs

Author

Lydia Villa-Komaroff, Harvey F. Lodish, Ranleri Cancedda, and Milton J. Schlesinger

Subjects

Peptide Biosynthesis, Five-prime cap, Binding Sites, Cell-Free System, Pactamycin, Intron, RNA-dependent RNA polymerase, RNA, Biology, Non-coding RNA, Molecular biology, General Biochemistry, Genetics and Molecular Biology, Antisense RNA, Molecular Weight, Viral Proteins, RNA silencing, Capsid, RNA editing, Protein Biosynthesis, RNA, Viral, RNA, Messenger, Sindbis Virus

Abstract

Sindbis virus 26S RNA is the principal species of virus-specific RNA found in the infected cell; it is derived from a one third segment of virion 42S RNA. When translated in cell-free extracts from mouse ascites cells or rabbit reticulocytes, 26S RNA directed the synthesis primarily of the 33,000 dalton virus capsid protein, and the protein products were in the form of free peptides rather than peptidyl-tRNA. In contrast, the polypeptides synthesized in either extract in response to Sindbis virus 42S RNA were heterogeneous, ranging in molecular weight from 33,000 to 190,000, and were largely in the form of peptidyl-tRNA. The number of independent initiation sites on the 26S and 42S RNAs was determined by analyzing a tryptic digest of reaction products labeled with yeast N-formyl- 35 S-methionyl-tRNA F met . The 26S RNA appeared to contain a single initiation site, and this site could also be found in varying amounts in different preparations of 42S RNA. However, a second initiation site, distinct from that of 26S RNA, was the major site in 42S virion RNA. These results suggest that 42S virion RNA contains two potential sites for initiation of protein synthesis. Only one of these may be active, however, and it is postulated that the second site functions primarily, if not exclusively, in the subgenomic 26S RNA species. In this regard, Sindbis virus 42S RNA may represent a novel form of a eucaryotic messenger RNA.

Published

1975

143. Prespore gene expression in Dictyostelium requires concomitant protein synthesis

Author

Deneen A. Pelletier, David I. Ratner, and William H. Pentz

Subjects

Transcription, Genetic, Emetine, Genes, Fungal, Biophysics, Cycloheximide, Biochemistry, Dictyostelium discoideum, Fungal Proteins, chemistry.chemical_compound, Structural Biology, Complementary DNA, Gene expression, Cyclic AMP, Genetics, Protein biosynthesis, Dictyostelium, RNA, Messenger, Gene, Protein Synthesis Inhibitors, Messenger RNA, biology, Pactamycin, Spores, Fungal, biology.organism_classification, Molecular biology, Cell biology, Kinetics, chemistry, Anisomycin

Abstract

It has been established previously that the maintenance of expression of prespore specific genes of Dictyostelium discoideum is prevented by the translational inhibitor cycloheximide. The drug had no effect upon the level of transcripts of the other genes examined, prestalk-specific or cell type non-specific (Mehdy, M., Ratner, D. and Firtel, R., (1983) Cell 32, 763–771). We have now characterized the cellular specificity and temporal profiles of mRNA accumulation of additional Dictyostelium cDNA clones. Other inhibitors of in vivo protein synthesis have been examined, with emetine shown to be a particularly effective but reversible agent. Four structurally and mechanistically distinct translational inhibitors each prevented the reaccumulation of prespore transcripts in cyclic AMP-primed disaggregated amoebae. These results establish a role for protein synthesis in the transcription or transcript stability of prespore genes.

Published

1989

144. Phenotypic heterogeneity among temperature-sensitive mutants of rous sarcoma virus. Studies with inhibitors of protein synthesis

Author

M.C. Aupoix, Cécile Kryceve-Martinerie, Georges Calothy, and E. Gionti

Subjects

Cell, Mutant, Chick Embryo, Cycloheximide, chemistry.chemical_compound, Antigen, Antigens, Neoplasm, Virology, medicine, Protein biosynthesis, Animals, Antigens, Viral, Cells, Cultured, Rous sarcoma virus, biology, Pactamycin, Temperature, Cell Transformation, Viral, biology.organism_classification, Molecular biology, Clone Cells, Transformation (genetics), medicine.anatomical_structure, Avian Sarcoma Viruses, chemistry, Protein Biosynthesis, Mutation, Puromycin, Proto-oncogene tyrosine-protein kinase Src

Abstract

Fourteen temperature-sensitive ( ts ), transformation-defective mutants have been isolated from mutagenized Schmidt-Ruppin Rous sarcoma virus. We report that, while in cells infected with most of the mutants all parameters of cell transformation were coordinately suppressed, certain ts mutants induced the ability of infected cells to multiply in soft agarose and to express the tumor-specific surface antigen (TSSA), in the absence of morphological conversion. Studies with inhibitors of protein synthesis have shown that cycloheximide (Ch) and pactamycin (Pac) act differently on focus formation from Pu and that the heat-labile src gene product of these mutants may be spontaneously reactivated following a downshift to permissive temperature. Our data also indicate the existence of two classes of mutants regarding the response of infected cells to Pu. In most cases, focus formation is inhibited by Pu when infected cells are shifted to 37°. However, cells infected with three ts mutants resume morphological transformation at permissive temperature in the presence of this inhibitor. In addition, the fact that the same mutants induce high levels of TSSA expression at restrictive temperatures suggests that the two properties may be linked.

Published

1980

145. In Situ Hybridization Detection of Marked Differences in Pre-Proopiomelanocortin Messenger Ribonucleic Acid Content of Individual Corticotropes and Melanotropes*

Author

Richard G. Allen, J. M. Hatfield, Chris T. Bond, James Douglass, John P. Adelman, and David I. Daikh

Subjects

Male, endocrine system, medicine.medical_specialty, Pituitary gland, Pro-Opiomelanocortin, In situ hybridization, Biology, Endocrinology, Adrenocorticotropic Hormone, Proopiomelanocortin, Pituitary Gland, Anterior, Internal medicine, Gene expression, medicine, Protein biosynthesis, Animals, Melanocyte-Stimulating Hormones, RNA, Messenger, Messenger RNA, Pactamycin, Nucleic Acid Hybridization, Parallel study, Rats, Inbred Strains, RNA Probes, Rats, medicine.anatomical_structure, Pituitary Gland, biology.protein, Corticotropic cell

Abstract

Recently, heterogeneity of POMC mRNA content between intermediate lobe melanotropes of the rat pituitary gland was demonstrated by in situ hybridization of tissue sections. In the present study the heterogeneity of POMC mRNA content in dispersed rat pituitary cells has been investigated. Acutely dispersed cells from adult male rat anterior or neurointermediate lobe tissues were adhered to poly-L-lysine-coated coverslips. The cells were fixed and then hybridized with 35S-labeled POMC or 1B15 (cyclophilin) cRNA. Parallel studies measuring constitutively expressed cellular 1B15 mRNA content were undertaken to ensure that the apparent single cell differences in POMC mRNA were not inherent to the in situ hybridization procedure. When classified by image analysis, extensive differences in silver grain densities were seen over POMC mRNA-containing cells from both lobes. To determine if mRNA in polysomal configurations was less accessable for hybridization with probes than naked mRNA, cells were preincubated with pactamycin, a potent inhibitor of ribosomal initiation of protein synthesis. Pactamycin had no effect on these results. Thus, there appears to be large differences in POMC mRNA content between individual pituitary cells expressing the same gene product.

Published

1989

146. Effect of protein synthesis inhibitors and low concentrations of actinomycin D on ribosomal RNA synthesis

Author

Silvia Iapalucci-Espinoza and María T. Franze-Fernández

Subjects

Transcription, Genetic, 5.8S ribosomal RNA, Biophysics, RNA polymerase II, DNA-Directed DNA Polymerase, Biochemistry, Ribosome, Mice, Structural Biology, Transcription (biology), Genetics, RNA polymerase I, Animals, Cycloheximide, Carcinoma, Ehrlich Tumor, Molecular Biology, Antibiotics, Antineoplastic, Dose-Response Relationship, Drug, biology, Pactamycin, Chemistry, RNA, RNA polymerase I activity, Cell Biology, Ribosomal RNA, DNA Polymerase I, Molecular biology, Kinetics, RNA, Ribosomal, Dactinomycin, biology.protein

Abstract

It is known that low concentrations (0.001-0.05 pg/ml) of actinomycin D selectively inhibit ribosomal RNA (rRNA) synthesis when administered ‘in vivo’ [ 1,2]. This effect has been explained on the basis of a direct action of the drug on nucleolar transcription [3]. However, the same doses of actinomycin D that are effective in vivo do not inhibit RNA polymerase I (EC 2.7.7.6) activity when added to isolated nuclei although they do slightly decrease RNA polymerase II activity; this result suggested that the specific action of the antibiotic on rRNA synthesis might be indirect [4]. The observations that after in vivo administration of low doses of actinomycin D there is a decrease in the RNA polymerase II with a concomitant inhibition in the RNA polymerase I activity in the isolated nuclei and furthermore, that the time course of this inhibition is similar to that found after suppression of protein synthesis, lend support to the proposal that low doses of actinomycin D affect rRNA synthesis through inhibition of the synthesis of messenger RNAs (mRNAs) of high turnover which code for proteins required for nucleolar activity [S]. In this proposal the idea is implied that rRNA synthesis is under the control of mRNA synthesis. In the forementioned studies rRNA synthesis was measured in isolated nuclei or nucleoli [4,5]. In these in vitro systems the problem of determining the specific activity of the nucleotide precursor pools [6,7] is overcome, and therefore they are widely used for studying transcription of ribosomal genes [4,5,8-131. However, the rate of elongation by RNA polymerase I is only l-2% that in vivo [9]. On the

Published

1979

147. Reassociation of eukaryotic ribosomal subunits: Dependence of reassociation on formation of a 40S initiation complex: Effects of aurintricarboxylic acid and pactamycin

Author

Ira G. Wool and Richard E.H. Wettenhall

Subjects

Time Factors, Cyclohexanecarboxylic Acids, Phenylalanine, Protein subunit, Biology, Tritium, Benzoates, Ribosome, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, Cytosol, Phenols, RNA, Transfer, Peptide Initiation Factors, Aurintricarboxylic acid, Escherichia coli, Animals, Initiation factor, Eukaryotic Small Ribosomal Subunit, General Pharmacology, Toxicology and Pharmaceutics, Antibiotics, Antineoplastic, Binding Sites, Eukaryotic Large Ribosomal Subunit, Pactamycin, General Medicine, Rats, RNA, Bacterial, Liver, Biochemistry, chemistry, Protein Biosynthesis, Spectrophotometry, Ultraviolet, Eukaryotic Ribosome, Ribosomes

Abstract

Aurintricarboxylic acid and pactamycin inhibited initiation factor catalyzed reassociation of ribosomal subunits to form 80S couples and subsequent polyphenylalanine synthesis although their effects were qualitatively different. The two inhibitors prevented the formation of 80S monomers if they were present with 40S subunits in the reassociation mixture before addition of large subunits; they did not inhibit protein synthesis nor reassociation if they were added with the 60S subunits after formation of a small subunit initiation complex. Thus creation of a 40S initiation complex precedes addition of the large subunit and formation of an 80S monomer. An additional finding was that aurintricarboxylic acid preferentially inhibited the formation of inactive 40S–60S couples.

Published

1974

148. Secretion of Ia antigens by a subpopulation of T cells which are Ly-1+, Ly-2-, and Ia

Author

C R Parish and I F McKenzie

Subjects

Isoantigens, Surface phenotype, Surface Properties, T-Lymphocytes, Immunology, Pactamycin, Spleen, Mice, Inbred Strains, Articles, Biology, Molecular biology, chemistry.chemical_compound, Mice, medicine.anatomical_structure, chemistry, medicine, Protein biosynthesis, Immunology and Allergy, Sodium azide, Animals, Secretion, Ia antigens

Abstract

It was found that Ia antignes are rapidly secreted by a subpopulation of splenic T lymphocytes which are nonadherent and which express the surface phenotype Ly-1+, Ly-2-, and Ia-. Secretion of the Ia antigens was a metabolically active process which was inhibited by sodium azide and by Pactamycin, an inhibitor of protein synthesis.

Published

1976

149. Control by insulin and insulin-related growth factor 1 of protein synthesis in a cell-free translational system from chick-embryo fibroblasts

Author

M W Pierce, M Young, J Avruch, and K Coombs

Subjects

medicine.medical_specialty, Lysis, medicine.medical_treatment, Chick Embryo, Biology, Biochemistry, Cell-free system, Leucine, Somatomedins, In vivo, Internal medicine, medicine, Protein biosynthesis, Animals, Insulin, Insulin-Like Growth Factor I, Fibroblast, Molecular Biology, Cells, Cultured, Cell-Free System, Dose-Response Relationship, Drug, Pactamycin, Growth factor, Proteins, Cell Biology, Fibroblasts, Molecular biology, In vitro, medicine.anatomical_structure, Endocrinology, Protein Biosynthesis, Puromycin, Research Article

Abstract

Insulin and insulin-related growth factor 1 (IGF-1) increase by 1.5-1.6-fold the rate of [3H]leucine incorporation into protein in primary monolayer cultures of chick-embryo fibroblasts (CEF); half-maximal hormone concentrations are 10 and 0.25 nM respectively. To investigate the mechanism of this effect, a rapid method is used to prepare a lysate from CEF which is active in protein synthesis. Lysate derived from cells treated for 30-150 min with insulin synthesized protein at 1.8-3.0-fold greater rate than did controls; the increased rate persisted for 20 min in vitro. Pactamycin (0.5 microM), an inhibitor of peptide-chain initiation, inhibited protein synthesis by 50% in lysates derived from insulin-treated and control cells. Thus insulin and IGF-1 cause an increase in the protein-synthesis rate in vivo, which persists in cell-free protein-synthesizing lysates of CEF.

Published

1987

150. Processing of the precursor to the major core polypeptide of adenovirus type 5 removes a region near the amino terminus

Author

David Rekosh and W.C. Russell

Subjects

chemistry.chemical_classification, Pactamycin, Protein Conformation, Adenoviruses, Human, Tryptic peptide, Peptide, Biology, Viral Proteins, Methionine, Biochemistry, chemistry, Virology, Protein Precursors, Peptide Chain Initiation, Translational, Peptides

Abstract

The precursor to the major core polypeptide (pVII) of adenovirus type 5 has five methionine-containing tryptic peptides, while the mature core polypeptide (VII) after processing has only four. A technique utilizing the drug pactamycin has been used to determine the relative order (N terminal to C terminal) of the tryptic peptides within polypeptide pVII. Taking the order of these peptides into account and correlating it with the peptide missing from polypeptide VII, we are able to conclude that a region near the amino terminus of polypeptide pVII is removed during proteolytic processing.

Published

1977