A polysome-membrane binding system from rat liver. I. Basic characterization of the binding system.

A simple reaction system was developed to examine the binding of polysomes to membranes of the endoplasmic reticulum and to investigate the fate of ribosomes and nascent chains during protein synthesis in vitro. The system conssited of Sephadex G-25 treated post-mitochondrial fraction prepared from rat liver (Sephadex-PM) as a source of membranes, and radioactive free polysomes prepared from another rat liver. The following results were obtained. 1. Nascent chains on free polysomes labeled in vivo were transferred to membranes in vitro. The process required protein synthesis. 2. This reaction occurred in two steps: a) Binding of the free polysomes to membranes in the absence of protein synthesis. b) Release of ribosomes, leaving nascent chains on the membranes, requiring protein syntehsis. 3. A portion of the ribosomes found on membranes in vivi (membrane-bound ribosomes) was also released from the membranes during incubation in vitro, leaving their nascent chains on the membranes. The significance of the transfer of nascent chains from free polysomes to membranes in vitro is discussed in the light of known polysome-membrane interaction in vivo.     

Comparison of the activities for polypeptide synthesis of polysomes prepared with different detergents from normal and regenerating rat liver.

When prepared in the presence of deoxycholate, the activities for polypeptide synthesis of polysomes from normal and regenerating rat liver were similar. However, when the polysomes were prepared in the presence of either Triton X-100 or Lubrol WX, the polysomes from regenerating liver had about three to four times more activity than those from normal liver. On the other hand, the activities for polyphenylalanine synthesis of ribosomes from regenerating rat liver were similar irrespective of whether these ribosomes were prepared in the presence of deoxycholate or Triton X-100.     

Induction of heme oxygenase in rat liver. Increase of the specific mRNA by treatment with various chemicals and immunological identity of the enzymes in various tissues as well as the induced enzymes

A specific antibody was prepared against rat liver heme oxygenase which had been induced by bromobenzene treatment. Immunochemical studies with this antibody (IgG) revealed that heme oxygenases from livers of rats treated with hemin, Cd2+, Co2+, or bromobenzene from rat spleen and also from kidney of Sn2+-treated rats were all immunochemically identical. Cell-free synthesis of heme oxygenase was performed in a rabbit reticulocyte lysate system using polysomes isolated from livers of rats treated with either hemin, Cd2+, or bromobenzene, and it was found that translatable mRNA specific for heme oxygenase was actually increased in the liver of rats treated with any of those inducers. Also, the ability of liver polysomes to direct cell-free synthesis of heme oxygenase was apparently proportional to the activity of heme oxygenase in the liver from which polysomes were prepared. The heme oxygenase protein synthesized either in vivo or in vitro showed a molecular weight of 31,000 when examined by sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis and fluorography. This value is essentially identical with the molecular weight of heme oxygenase purified from rat liver and indicates that a precursor form of heme oxygenase may not be involved in the heme oxygenase synthesis.     

Mechanism of inhibition of hepatic protein synthesis in rats by the carcinogen, methylazoxymethanol acetate.

Treatment of rats with the carcinogen, methylazoxymethanol acetate, results in a rapid, marked inhibition of hepatic protein synthesis and disaggregation of polysomes. Studies were undertaken to learn the mechanism by which this carcinogen induces these effects in rat liver. The data show that the inhibition of endogenous protein synthesis is not due to an effect on the high speed supernatant 'factors' but rather at the level of the polysome, and that both free and membrane-bound polysomes are affected. Poly(U)-directed polyphenylalanine synthesis by native ribosomal subunits is greater in preparations isolated from rats treated with carcinogen than it is in controls. Moreover, the native ribosomal subunit fraction from treated livers in response to added rabbit globin mRNA is able to synthesize a protein similar in molecular weight to globin. These studies show that methylazoxymethanol acetate does not induce significant alterations of ribosomal subunits or of initiation factors and suggest that the inhibition of protein synthesis and disaggregation of polysomes may be the results of an alteration of cytoplasmic mRNA, or its association with ribosomes.     

Identification of albumin-synthesizing polysomes from mouse liver and a mouse hepatoma cell line.

Albumin-synthesizing polysomes from mouse liver and mouse hepatoma cells in in tissue culture have been localized on sucrose gradients with ¹²⁵I-labeled antimouse serum albumin used as a marker. Competition studies show that the ¹²⁵I-labeled antibody binds specifically to albumin-synthesizing polysomes from both tissues. The ¹²⁵I-labeled polysomes from liver and hepatoma cells have identical sedimentation properties on sucrose gradients, which indicates that the polysomes range in size from 9–14 ribosomes. This is comparable in size to polysomes from rat liver and Morris hepatoma. One significant difference between these albumin-synthesizing polysomes is that those extracted from hepatoma cells bind 70% less antibody than equivalent amounts of polysomes from liver cells. Since the level of albumin synthesis in the hepatoma cells is comparable to the level of albumin synthesis $\text{in vivo}$, this difference in antibody-binding capacity is not likely to be due to differences in polysomal content, but appears to be a characteristic difference between hepatoma and normal mouse liver cells.     

Translation in vivo and in vitro of proteins resembling apoproteins of rat plasma very low density lipoprotein.

Antibodies raised against rat plasma apoVLDL and a purified fraction of arginine-rich peptides (ARP) were labeled with Na125I and were shown to bind to polyribosomes isolated from rat liver. Antibody fractions enriched by selective affinity chromatography exhibited increased levels of binding to polysomes. Anti-apoVLDL immunoreactivity was further resolved into anti-ARP and anti apoB components, each reactive with a distinct polysome population. Binding was specific for rat polysomes, and was directed toward nascent polypeptide chains. About 2% of normal rat liver polysomes were recovered by indirect immunoprecipitation with anti-apoVLDL. Ribonucleic acid (RNA) extracted from this immunoprecipitate contained species with polyadenylate (poly[A] sequences characteristic of eukaryotic messenger RNA (mRNA). These species, purified by affinity chromatography on poly(U)-Sepharose, stimulated the in vitro synthesis of immunoprecipitable apoVLDL-like proteins by about 17-fold when compared to unfractionated rat liver mRNA. Most of the in vitro translation products precipitated by purified anti-ARP migrated identically on polyacrylamide gel electrophoresis with unlabeled purified ARP. Some implications of these findings with respect to plasma VLDL biosynthesis are discussed.     

Increase of protein synthesis in cell-free system prepared from hypertrophied rat heart during L-triiodothyronine treatment.

During development of rat heart hypertrophy induced by repeated injections of triiodothyronine (T3), cell-free protein synthesis activities of heart post-ribosomal supernatant and of heart polysomes have been measured separately. This was done by complementation respectively with polysomes and post-ribosomal supernatants of adult and newborn rat heart, and of rabbit reticulocytes. In the presence of polysomes of either rat heart or reticulocytes, protein synthesis activity of the supernatant was maximum between the 3rd and the 8th day of treatment. Protein synthesis in the presence of polysomes from triiodothyronine treated rat hearts and of supernatants of both origins was maximum between the 11th and the 15th day.     

Helical polysomes induced by aflatoxin B1 in vivo : A new hypothesis for helix formation by chemicals and carcinogens

We have studied the induction of helical polysomes by aflatoxin B₁ in liver and kidney cells from rat and mouse. We succeeded in giving to reticulocyte polysomes a shape resembling helices after in vitro treatment with O-methylthreonine which is used as an inhibitor of polypeptide chain termination. From this and knowing the site of action of aflatoxin B₁ on rat liver polysomes, we hypothesize that the induction of helical polysomes in tissues from adult animals treated by chemicals or carcinogens is due to the inhibition of release of ribosomes from the messenger RNA (mRNA). Theoretical studies of protein synthesis inhibition are in agreement with this new hypothesis.     

Ribosomal protein S14 is altered by two-step emetine resistance mutations in Chinese hamster cells.

Four two-dimensional polyacrylamide gel electrophoresis systems were used to identify 78 Chinese hamster cell ribosomal proteins by the uniform nomenclature based on rat liver ribosomal proteins. The 40S ribosomal subunit protein affected by Chinese hamster ovary (CHO) cell one-step emetine resistance mutations is designated S14 in the standard nomenclature. To seek unambiguous genetic evidence for a cause and effect relationship between CHO cell emetine resistance and mutations in the S14 gene, we mutagenized a one-step CHO cell mutant and isolated second-step mutant clones resistant to 10-fold-higher concentrations of emetine. All of the highly resistant, two-step CHO cell mutants obtained displayed additional alterations in ribosomal protein S14. Hybridization complementation tests revealed that the two-step CHO cell emetine resistance mutants were members of the same complementation group defined by one-step CHO cell mutants, EmtB. Two-step mutants obtained from a Chinese hamster lung cell emetine-resistant clone belong to the EmtA complementation group. The two-step and EmtB mutants elaborated 40S ribosomal subunits, which dissociated to 32S and 40S core particles in buffers containing 0.5 M KCl at 4 degrees C. In contrast, 40S ribosomal subunits purified from all EmtA, one-step EmtB EmtC mutants, and wild-type CHO and lung cells were stable at this temperature in buffers containing substantially higher concentrations of salt. Thus, two-step emtB mutations affect the structure of S14 protein directly and the stability of the 40S ribosomal subunit indirectly.     

LOCALIZATION OF POLYSOME-BOUND ALBUMIN AND SERINE DEHYDRATASE IN RAT LIVER CELL FRACTIONS

The polysomes involved in albumin and serine dehydratase synthesis were identified and localized by the binding to rat liver polysomes of anti-rat serum albumin and anti-serine dehydratase [¹²⁵I]Fab dimer and monomer. Techniques were developed for the isolation of undegraded free and membrane-bound polysomes and for the preparation of [¹²⁵I]Fab monomers and dimers from the IgG obtained from the antisera to the two proteins, rat serum albumin and serine dehydratase. The distribution of anti-rat serum albumin [¹²⁵I]Fab dimer in the polysome profile is in accordance with the size of polysomes that are expected to be synthesizing albumin. By direct precipitation, it has been demonstrated that nascent chains isolated from the membrane-bound polysomes by puromycin were precipitated by anti-rat serum albumin-IgG at a level of 5–6 times those released from free polysomes. Anti-rat serum albumin-[¹²⁵I]Fab dimer reacted with membrane-bound polysomes almost exclusively compared to the binding of nonimmune, control [¹²⁵I]Fab dimer; a significant degree of binding of anti-rat serum albumin-[¹²⁵I]Fab to free polysomes was also obtained. The [¹²⁵I]Fab dimer made from normal control rabbit serum does not react with polysomes from liver at all and this preparation will not interact with polysomes extracted from tissues that do not synthesize rat serum albumin. Both anti-serine dehydratase-[¹²⁵I]Fab monomer and dimer react with free and bound polysomes from livers of animals fed a chow diet or those fed a high 90% protein diet and given glucagon. In the latter instance, however, it is clear that the majority of the binding occurs to the bound polysomes. Furthermore, the specificity of this reaction may be further shown by the use of kidney polysomes that do not normally synthesize serine dehydratase. When these latter polysomes are isolated, even after the addition of crude and purified serine dehydratase, no reaction with anti-serine dehydratase-Fab fragments could be demonstrated. These results indicate that the reaction of the Fab fragments are specific for polysomes that synthesize rat serum albumin or rat liver serine dehydratase. Furthermore, they demonstrate that even with this high degree of specificity, some polysomes in the fraction labeled "free" are in the process of synthesizing rat serum albumin while bound polysomes to a significant, if not major, degree are the site of the synthesis of rat liver serine dehydratase.     

Preferential biosynthesis of ribosomal structural proteins by free and loosely bound polysomes from regenerating rat liver.

Homologous cell-free systems were prepared using free, total bound, tightly bound or KCl-sensitive loosely bound (KCl-sensitive) polysomes from regenerating rat liver. [14C]Leucine was incubated with one kind of polysomes and [3H]leucine with another kind. The reaction mixtures were then combined, and ribosomal structural proteins were purified as described previously [4], using two-dimensional polyacrylamide gel electrophoresis as the final step [5]. The 3H to 14C ratios of the purified fractions were estimated to compare the activities of the two kinds of polysomes for biosynthesis of ribosomal structural proteins. The following results were obtained: (1) The activity of free polysomes for biosynthesis of ribosomal structural proteins was about 3.6 or 2.4 times higher than that of total bound polysomes in two experiments in which 14C and 3H labeling was reversed. The radioactivities incorporated by free polysomes into most of the proteins separated on two-dimensional gel were found to be definitely higher than those in the surrounding areas, suggesting that most of the ribosomal structural proteins were synthesized by free polysomes. The activity of free polysomes for biosynthesis of ribosomal structural proteins was about 7 times higher than that of tightly bound polysomes, which were prepared by washing the microsomal membrane fraction with 0.5 M KCl. The radioactivities incorporated by tightly bound polysomes into the proteins separated on two-dimensional gel were only slightly higher than those in the surrounding areas, indicating that these polysomes had very low synthetic activity. (2) Preferential synthesis of histones by free polysomes was also shown using the same procedures. (3) KCl-sensitive polysomes which were released by washing the microsomal membrane fraction with 0.5 M KCl, were shown to have definitely higher activity than tightly bound polysomes for biosynthesis of ribosomal structural proteins. (4) From these results, it is concluded that most of the ribosomal structural proteins are preferentially synthesized by free and KCl-sensitive polysomes in regenerating rat liver.     

ISOLATION OF TWO DISTINCT CLASSES OF POLYSOMES FROM A NUCLEAR FRACTION OF RAT LIVER

Isolated rat liver nuclei were washed with Triton-X-100 in the presence of liver cell sap. This treatment liberated a fraction of polysomes which were isolated by differential centrifugation and were designated "outer membrane polysomes." The outer membrane polysomes synthesized protein in vivo. Shortly after injection of orotic acid-¹⁴C, the RNA of outer membrane polysomes had a higher specific activity than that of cytoplasmic polysomes. It was postulated that outer membrane polysomes may be an intermediate in the transfer of newly synthesized RNA from the nucleus to the cytoplasm. In other experiments, Triton-washed rat liver nuclei were lysed in the presence of deoxycholate and deoxyribonuclease. A ribonucleoprotein fraction was isolated from the lysate by differential centrifugation. This fraction contained "intranuclear ribosomes," which sedimented like partially degraded polysomes in sucrose gradients. This degradation could be partially prevented if intranuclear ribosomes were purified by sedimentation through heavy sucrose. The resulting pellets were termed "intranuclear polysomes" because they contained some undergraded polysomes. Intranuclear polysomes were highly radioactive after a brief pulse with orotic acid-¹⁴C, but did not appear to synthesize protein rapidly in vivo. Intranuclear polysomes may represent the initial stage of assembly of polyribosomes in the nucleus.     

Protein chain initiation in vitro by liver cell components from DMNA-treated rats.

The mechanism of inhibition of protein synthesis in rat liver after dimethylnitrosamine (DMNA) administration was studied at the level of peptide-chain initiation by use of initiation-dependent amino acid incorporating systems. Ribosomal monomers, poly(A)-concontaining loss of acticity due to the DMNA treatment. The poly(A) RNA from monosomes and polysomes, and crude initiation factors from microsomes were prepared 2 h after a single dose of DMNA (75 mg/kg), and their activities in the production of new protein chains determined under conditions of nearly linear response. Monosomes and crude initiation factors from DMNA-treated rats were at least as active as those from controls. Preparations of poly(A)-containing RNA had a consistently higher template activity when prepared from polysomes instead of monosomes. However, in neither case was there any ltaining RNA was methylated by DMNA to about the same extent as the 18S and 28S rRNA. The methylation was consistently somewhat higher in the RNA preparations from monosomes than in those from polysomes.     

Acyl-Coa oxidase and hydratase-dehydrogenase, two enzymes of the peroxisomal beta-oxidation system, are synthesized on free polysomes of clofibrate-treated rat liver

We investigated the site of synthesis of two abundant proteins in clofibrate-induced rat hepatic peroxisomes. RNA was extracted from free and membrane-bound polysomes, heated to improve translational efficiency, and translated in the mRNA-dependent, reticulocyte-lysate- cell-free, protein-synthesizing system. The peroxisomal acyl-CoA oxidase and enoyl-CoA hydratase-beta-hydroxyacyl-CoA dehydrogenase 35S- translation products were isolated immunochemically, analyzed by SDS PAGE and fluorography, and quantitated by densitometric scanning. The RNAs coding for these two peroxisomal proteins were found predominantly on free polysomes, and the translation products co-migrated with the mature proteins. As in normal rat liver, preproalbumin and catalase were synthesized mainly by membrane-bound and by free polysomes, respectively. mRNAs for a number of minor 35S-translation products also retained by the anti-peroxisomal immunoadsorbent were similarly found on free polysomes. These results, together with previous data, allow the generalization that the content proteins of rat liver peroxisomes are synthesized on free polysomes, and the data imply a posttranslational packaging mechanism for these major content proteins.     

Alterations in DNA-dependent RNA polymerase I from rat liver accompanying ethionine administration

Multiple injections of ethionine plus adenine resulted in 3- to 4-fold increases in the activity of RNA polymerase I from rat liver nuclei, whereas the activity of RNA polymerase II was relatively unaffected. Methyl-deficient preribosomal RNA was present in the livers of rats after treatment for 2 days. Both incorporation of labelled orotate into rat liver ribosomal RNA and protein synthesis in polysomes gradually increased.     

Morphological changes in CHO and VERO cells treated with T-2 mycotoxin. Correlation with inhibition of protein synthesis

Exposure of Chinese hamster ovary and African green monkey kidney cells to T-2 mycotoxin resulted in several morphological changes which were related to inhibition of protein synthesis, the basic in vitro mechanism of action of the toxin. These changes, which occurred in both cell types, included disassociation of polysomes and mitochondrial cristae alterations. In addition, CHO cells displayed membrane bleb formations similar to those found in CHO cells after exposure to established inhibitors of protein synthesis, puromycin and anisomycin. Blebs could be either a result of protein synthesis inhibition or a non-specific early pathological response. Bleb formations were not observed in VERO cells under any experimental condition.     

Synthesis of nascent prothrombin and albumin in a heterologous system using rat liver messenger RNA purified in oligo (dT)-cellulose.

Highly active m-RNA was prepared by phenol extraction of rat liver polysomes followed by oligo (dT)-cellulose chromatography. This m-RNA preparation stimulated total protein synthesis in rabbit reticulocyte lysates and in wheat germ extracts. Nascent prothrombin and albumin synthesized in the reticulocyte system programmed with this m-RNA were precipitated with specific antibodies and identified by their electrophoretic mobilities on SDS-acrylamide gels.