Stability of cytoplasmic ribonucleic acid in a mouse myeloma: estimation of the half-life of the messenger RNA coding for an immunoglobulin light chain

This paper describes experiments in which the half-lives of a number of cytoplasmic RNA species have been estimated in a mouse myeloma (MOPC 21) without resort to metabolic inhibitors. Partial purification of the messenger RNA coding for immunoglobulin light chains enabled an estimate of the stability of this species to be made. The procedure chosen was that of a conventional pulse-chase following uniform labelling of cells with [³H]uridine. Centrifugation of the uniformly labelled cells and resuspension in 0·1 mm-uridine resulted in a 75% drop in the specific activity of the UTP pool within 2 hours, followed by a logarithmic decay with a half-life of about 3·5 hours. Exposure of P3K cells to uridine causes them to swell appreciably and centrifugation at the end of the pulse period is followed by a lag phase of 3 hours before the cells re-enter logarithmic growth. Since all chase conditions had certain disadvantages, a comparison of experiments using different chase conditions was undertaken. The stability of the various RNA species did not vary greatly under the different chase conditions. The half-life of the light-chain mRNA is estimated to be 12 to 14 hours, although a value in the range of 5 to 20 hours cannot be excluded. An RNA fraction including the heavy-chain mRNA behaves similarly. Half-lives determined for other RNA species were: 18 S ribosomal RNA (40 to 60 h); 12 S mitochondrial ribosomal RNA (28 to 32 h). Poly(A)-containing RNA from free polyribosomes decays rapidly in the first 5 hours with a half-life of 20 to 30 hours, subsequently.     

Herpesvirus infection modifies adenovirus RNA metabolism in adenovirus type 5-transformed cells.

The effect of herpes simplex virus (HSV) infection of mRNA metabolism was examined in a system where the fate of specific RNA sequence can be assayed. Adenovirus type 5-transformed rat embryo cell line 107 synthesizes adenovirus-specific RNA (ad-RNA), which functions in the cytoplasm as mRNA. We have utilized ad-RNA as a model for mRNA metabolism, and in a preliminiary study we characterized ad-RNA in the nucleus and cytoplasm by hybridization to filter-bound adenovirus DNA. The results indicated the as-RNA accumulates in the nucleus and that cytoplasmic polyadenylic acid [poly(A)]-containing ad-RNA turns over with a half-life of a few hours. Pulse-chase experiments confirmed these observations and a half-life of about h was determined for the poly(A)-containing cytoplasmic ad-RNA. A second class of ad-RNA remains in the nucleus, where it turns over with a longer hlaf-life (about 24 h). The infection of 107 cells by HSV was restricted at 37 degree C, giving a burst size of 5 PFU per cell and allowing continued host DNA synthesis. Protein synthesis was inhibited greater than 50% by 7 h after infection, and total RNA synthesis was 50% inhibited by 4 h after infection. During the first 8 h after infection, HSV has little effect on the rate of synthesis of ad-RNA as determined by hybridization of nuclear RNA samples, but,during the same period, HSV inhibits the accumulation of poly(A)-containing ad-RNA in the cytoplasm. The degree of this inhibition increases steadily throughout this period and reaches 60% by 6.5 to 8 h after infection. Nosignificant effect was seen on the accumulation of total cellular poly(A)-containing RNA. It was concluded from these experiments that HSV infection alters the metabolism of ad-RNA so as to prevent the normal appearance of the poly(A)-containing mRNA in the cytoplasm. The result for ad-RNA may not represent the behavior of total cellular poly(A)-containing RNA under conditions where infection is restricted.     

Balbiani ring RNA content and half-life in nucleus and cytoplasm of Chironomus tentans salivary gland cells

The content of RNA with an origin in the Balbiani rings 1 and 2 (BR 1+2) has been determined in chromosomes, nuclear sap and cytoplasm of Chironomus tentans salivary gland cells. Together with information on rate and completeness of export this permits an estimation of half-life of this RNA in cytoplasm and its residence time in the nucleus. The quantities in the BR, nuclear sap, and cytoplasm are roughly related as 110200. The 75 S RNA in the nuclear sap with an origin in the BR 1+2 must to a high extent be a precursor to the cytoplasmic 75 S RNA in vivo. The half-life of the cytoplasmic component is about 20 h and the half-life (residence time) for BR 1+2 RNA in the nuclear sap around one hour. The presence of a large pool of BR RNA in the sap explains the previously observed delay in its cytoplasmic appearance in vivo.     

Turnover of polyadenylated messenger RNA in fission yeast. Evidence for the control of protein synthesis at the translational level.

Polyadenylated RNA was isolated from fission yeast (Schizosaccharomyces pombe) total RNA using oligo(dT)-cellulose, and was studied as a model for messenger RNA. The half-life of poly adenylated RNA was measured by two independent methods. (a) The rate of labelling of polyadenylated RNA during incubation of cells with [5-3H]uridine was measured. A half-life of 40-45 min was found by comparing the experimental data with theoretical curves calculated for labelling of RNAs with various half-lives. The influence of precursor-pool specific activity on RNA labelling kinetics is considered. (b) Cells were labelled with [5-3H]uridine then further RNA synthesis was inhibited by addition of 8-hydroxyquinoline. The rate of loos of radioactivity from polyadenylated RNA indicated a half-life of 50 min. The half-life found by these two methods is about one-third of the cell doubling time, and is much longer than previous estimates by indirect methods of yeast messenger RNA half-life. Both experimental methods provided evidence for the existence of tas a half-life of 40-50 min; a much smaller population is probably turning over more rapidly. After inhibition of RNA synthesis by 8-hydroxyquinoline, the rate of total protein synthesis declined much more rapidly than the polyadenylated RNA content of the cells. However, 60 min after inhibition of RNA synthesis there was a small rise in the rate of portein synthesis. These data are interpreted as evidence for mechanisms controlling protein synthesis which operate at the level of messenger RNA translation.     

Metabolism of polyadenylated mRNA in growing human lymphocytes.

The kinetics of degradation of newly synthesized, cytoplasmic polyadenylated RNA have been examined in normal human lymphocytes stimulated to grow with phytohemagglutinin. A single class of poly(A)-bearing RNA was identified with a half-life of approximately 50 h. In the presence of actinomycin D, the half-life was 5 to 6 h, and virtually no decay of pulse-labeled material was detectable after 6 h of chase incubation with cordycepin. These findings contrast sharply with data obtained from other growing human cells used as controls: polyadenylated mRNA in MOLT-4 cells, a cultured line of T lymphocytes, had a half-life of 2 h in the presence of actinomycin D. The stability of poly(A)-containing RNA in stimulated lymphocytes from normal donors is therefore not simply a manifestation of cell proliferation. In normal resting lymphocytes, Berger and Copper [(1975) Proc. Natl. Acad. Sci. U.S. 72, 3873--3877] reported the existence of 2 classes of polyadenylated mRNA with half-lives of under an hour and greater than 20 h, respectively. Since short-lived poly(A)-bearing mRNA is absent from mitogen-stimulated lymphocytes, the data suggest that stabilization of previously labile poly(A)-bearing RNA is one of many carefully regulated processes accompanying growth induction in normal lymphoid cells.     

Kinetics of synthesis of cytoplasmic messenger-like RNA not associated with ribosomes in HeLa cells

The turn-over of cytoplasmic messenger-like RNA not associated with polyribosomes as well as that of polyribosomal mRNA was investigated by labelling with [3H]uridine in conditions of arrested ribosomal RNA and mitochondrial RNA synthesis. The synthesis of ribosomal RNA was inhibited with toyokamycin and that of mitochondrial RNA with ethidium bromide. In both accumulation kinetics and actinomycin-D-chase experiments, cytoplasmic messenger-like ribonucleoprotein particles and polyribosomes were fractionated by buoyant density centrifugation in CsCl gradients. The half-life of free m1RNA was found to be of 1--2 h whereas the bulk of polyribosomal mRNA was stable over the time period considered (up to 8 h) but with a minor short-lived component. Purification of RNA from polyribosomes labelled under the same conditions and fractionation of it into polyadenylated and non-polyadenylated fractions showed that this short-lived minor component of half-life less than 1 h is non-polyadenylated.     

Changes in Ribonucleic Acid Turnover During Aerobic and Anaerobic Growth in Rhodopseudomonas spheroides

Differences in the rate and extent of degradation of ribonucleic acid (RNA) labeled by a 30-sec pulse in aerobically or anaerobically grown Rhodopseudomonas spheroides have been studied by using rifampin to block RNA synthesis. In anaerobic cultures, unstable RNA is degraded with a half-life of 1.25 to 2.0 min, and about 40% of the pulse-labeled RNA is stable. In aerobic cultures, the half-life of unstable RNA is increased to 2.5 to 4.0 min, and 50% of the RNA is stable. When aerobic cultures are transferred to anaerobic conditions, there is a rapid drop in half-life and in the proportion of stable RNA. When anaerobic cultures are made aerobic, the reverse changes occur after a lag of about 30 min. Addition of puromycin to either aerobic or anaerobic cultures caused the pulse-labeled RNA to be degraded at the same rate and to the same extent as the RNA in an anaerobic control culture. In contrast, addition of chloramphenicol enhanced the difference in RNA half-life and increased the proportion of stable RNA by about 10% in each case. It is concluded that there is a difference in the stability of an RNA component under aerobic and anaerobic conditions.     

Biosynthesis and stability of globin mRNA in cultured erythroleukemic friend cells

Biosynthesis and stability of the mRNA population in DMSO-induced Friend erythroleukemic cells were studied after labeling the RNA with ³H-uridine and then chasing it with nonlabeled uridine. Globin RNA metabolism was studied by hybridization to excess complementary DNA covalently coupled to oligo(dT)-cellulose. After a labeling period of 120 min, 2–4% of the poly(A)-containing labeled RNA was in globin RNA; it decayed with a half-life of 16–17 hr. The rest of the poly(A)-containing RNA was composed of two kinetic populations: 85–90% decayed with a half-life of about 3 hr, while 10% decayed with a half-life of about 37 hr. The portion of globin RNA in labeled poly(A)-containing RNA behaved in an unexpected fashion during the chase period. During the initial chase period, the percentage of globin RNA increased rapidly, reaching a maximum of about 15% at 20 hr, but if subsequently declined gradually.Based on these findings, a model was built that describes the changes in the proportion of globin mRNA in poly(A)-containing RNA during continuous synthesis and after chase of the labeled RNA. It appears that if the parameters described remain constant during the maturation of erythroblasts, then this model would not account for the almost exclusive presence of globin RNA in the reticulocyte. By far the most effective way to achieve this high level of globin RNA is the destabilization of the mRNA population which is more stable than globin RNA, and not the stabilization of globin RNA itself.     

Regulation of Ribonucleic Acid Synthesis in Escherichia coli During Diauxie Lag: Accumulation of Heterogeneous Ribonucleic Acid

The synthesis of ribonucleic acid (RNA) and of protein in Escherichia coli during glucose-lactose diauxie lag have been examined. The rate of RNA synthesis is about 7%, of the corresponding rate during exponential growth and the rate of protein synthesis 10 to 15%. Inhibition of RNA synthesis occurs to the same extent in both rel and rel(+) strains. The RNA which accumulates during 20 min in diauxie lag is composed of about 50% ribosomal and transfer RNA species and about 50% of a fraction which resembles messenger RNA (mRNA) in its heterogeneous sedimentation properties. Decay of the heterogeneous fraction occurs in the presence of glucose and actinomycin D with a half-life of 3 min, the same as that of pulse-labeled mRNA; however, during the diauxie lag, the half-life of this RNA is about 25 min. Accumulation of the heterogeneous RNA is further increased when protein synthesis is blocked by chloramphenicol. The data suggest that the disproportionate accumulation of mRNA during diauxie lag and energy source shift-down may be attributed at least in part to increased stability of mRNA, but do not rule out a preferential synthesis of mRNA.     

STABILITIES OF NUCLEAR AND MESSENGER RNA MOLECULES IN SEA URCHIN EMBRYOS

The kinetics of accumulation of radioactive adenosine in adenosine triphosphate and in RNA of nuclear, cytoplasmic, and polysomal fractions of sea urchin embryos have been analyzed. 85% of the RNA synthesized decays in the nucleus with an apparently uniform half-life of about 7 min. The remaining 15% goes to the cytoplasm, mostly entering polysomes, and decays with a quite uniform half-life of about 75 min. The nuclear RNA accounts for one-third and the cytoplasmic RNA accounts for two-thirds of the total unstable RNA which accumulates at steady state in the embryo. The size distribution of short-labeled nuclear RNA is very similar to that of long-labeled messenger RNA, when both are extracted directly from the cells without a previous cell fractionation.     

Structure, translation, and metabolism of the cytoplasmic copia ribonucleic acid of Drosophila melanogaster

We have characterized the copia RNA in the cytoplasm of cultured Drosophila cells. Copia RNA was detected and purified by hybridization to DNA of the plasmid cDm 1142, which contains the copia sequence. A large fraction (2.2%) of the total cytoplasmic poly(A)+ RNA was found to be copia RNA. Cytoplasmic copia RNA displays all the characteristics expected for a messenger RNA. It possesses a poly(A) tract identical in length with that of total poly(A)+ cytoplasmic RNA. It is associated with polysomes and can be released from this association by treatment with EDTA. When purified copia RNA is added to an mRNA-dependent rabbit reticulocyte lysate, three polypeptides of 51000, 33000, and 21000 daltons are seen. We have not determined if these are different polypeptides or if the two smaller polypeptides are fragments of the 51000-dalton polypeptide. The half-life of copia cytoplasmic RNA was determined in pulse--chase experiments to be 9.5 h; this is 1.6 times longer than the half-life of the intermediate decay class of total poly(A)+ cytoplasmic RNA. These properties provide strong evidence that copia RNA functions in vivo as a messenger RNA.     

The effect of chromosomal polytenization on the rates of RNA synthesis and decay in the salivary glands of the blowfly, Calliphora erythrocephala

The rates of total RNA synthesis and accumulation have been measured in the polytenic salivary gland cells of the blowfly, Calliphora erythrocephala, by three methods: (1) injecting larvae with [2-³H]adenosine and determining its flow into the cellular ATP pool and RNA, (2) measuring the increase in glandular RNA optically, and (3) measuring the rate of flow of ATP out of the cellular pool. The size of the steady-state pool of rapidly turning over RNA and its half-life, were calculated from these kinetic data and, also, by an independent measurement of the steady-state content of nuclear RNA. These parameters were compared at a number of developmental stages which differed in degree of chromosomal polytenization. The results indicate that these polytenic cells synthesize RNA at a rate approximately 10³ times those of other diploid eukaryotic cells. This rate is independent of the increase in chromosomal polyteny that accompanies larval development. Approximately 67% of the newly synthesized salivary gland RNA is an unstable component with an average first-order half-life of 20–25 min. The remainder is a long-lived species with an estimated average first-order half-life of about 30 hr.     

Stability of polyadenylated RNA in differentiating myogenic cells

Three independent methods of measurement showed that cytoplasmic polyadenylated RNA from the differentiating myogenic cell line L8 consists of two main populations with regard to stability, one with a half-life of less than 4 h and the other with a half-life of 17--54 h. Similar results were obtained in the presence and absence of actinomycin D. During the fusion of mononucleated myoblasts into multinucleated fibers, there was an increase in both the steady-state pool of the more stable polyadenylated RNA and the proportion of stable polyadenylated RNA synthesized in pulse labelling.