Role of actin and tubulin in the regulation of poly(A) polymerase-endoribonuclease IV complex from calf thymus

T3 acutely increases GH mRNA translation rate and GH secretion in hypothyroid rats

Cytoskeleton controls the stability of transcripts, by mechanisms that involve mRNAs and eEF1A attachment to it. Besides, it plays a key role in protein synthesis and secretion, which seems to be impaired in somatotrophs of hypothyroid rats, whose cytoskeleton is disarranged. This study investigated the: eEF1A and GH mRNA binding to cytoskeleton plus GH mRNA translation rate and GH secretion, in sham-operated and thyroidectomized rats treated with T3 or saline, and killed 30min thereafter. Thyroidectomy reduced: (a) pituitary F-actin content, and eEF1A plus GH mRNA binding to it; (b) GH mRNA recruitment to polysome; and (c) liver IGF-I mRNA expression, indicating that GH mRNA stability and translation rate, as well as GH secretion were impaired. T3 acutely reversed all these changes, which points toward a nongenomic action of T3 on cytoskeleton rearrangement, which might contribute to the increase on GH mRNA translation rate and GH secretion.

Kinetics of expression of prion protein in uninfected and scrapie-infected N2a mouse neuroblastoma cells

The scrapie prion protein, PrPSc, is formed from its isoform, the cellular PrPc. There is evidence available indicating that PrPSc is a necessary component of the infectious prion particle to cause a series of transmissible spongiform encephalopathies. We have used immunocytochemistry and RNA blotting techniques to investigate if infection with prions results in an increased PrP gene expression. For the experiments we used N2a cells which had been infected with prions (ScN2a cells). We demonstrated by confocal laser scanning microscopy that PrP-protein was present in the nucleus (predominantly in the nucleoli) of ScN2a cells. Analysis of the PrP-mRNA levels both in N2a- and in ScN2a cells using cDNA encoding PrPc revealed no marked alteration of the mRNA steady state level between the two cell strains. Likewise, in run-off experiments no changes in either PrP-specific transcription or in general transcriptional activity were found. The half-life of PrP-mRNA was found to be identical in both cell strains (7h). Taken together, these results show that PrPSc and/or PrPc is present in the nucleus (nucleoli) of ScN2a cells but does not display an effect on the expression of the PrP gene.

Poly(A) polymerase from Vigna unguiculata seedlings. A bifunctional enzyme responsible for both poly(A)-polymerizing and poly(A)-hydrolyzing activities

Poly(A)-specific ribonuclease was co-purified with poly(A) polymerase from Vigna unguiculata seedlings. Both activities were separated into two forms (enzymes I and II) by a final hydrophobic column chromatography. The enzyme I preparation, which was homogeneous as examined by SDS/PAGE, had both poly(A) polymerase and poly(A)-specific ribonuclease activities. The antibody raised to the enzyme I preparation precipitated both enzyme activities. These indicate that a single polypeptide (Mr 63,000) is responsible for both poly(A)-polymerizing and poly(A)-hydrolyzing activities. The poly(A)-specific ribonuclease was a 3'-exonuclease specific to single-stranded poly(A), forming 5'AMP as the sole reaction product. The hydrolytic activity required either Mn2+ or Mg2+ with different optimum concentrations, whereas the polymerizing activity required Mn2+ but not Mg2+. ATP and PPi had little or no effect on the poly(A)-specific ribonuclease activity.

Poly(A) metabolism and aging: a current view

Polyadenylation of mRNA is a key step in post-transcriptional control of gene expression. Therefore, age-dependent changes in poly(A) synthesis have to play a crucial role in the course of cellular aging. In this review, the importance of the signal sequence, poly(A), in determining mRNA stability and intracellular distribution of mRNA during aging is discussed.

Association of Tat protein and viral mRNA with nuclear matrix from HIV-1-infected H9 cells

The transactivating protein from human immunodeficiency virus type 1 (HIV-1), Tat, was found to bind to the nuclear matrix from uninfected and HIV-1-infected H9 cells. Addition of the Zn2+, Cd2+ and Cu2+ chelator o-phenanthroline destroyed the matrix fibrils and the binding affinity of Tat to the matrix. A sequential treatment of the matrix, first with o-phenanthroline and then with ZnCl2, partially restored the fibrillar-like matrix structure. Infection of H9 cells with HIV-1 resulted in a displacement of cellular mRNA by viral mRNA from the nuclear matrix. Both the matrix-bound host cell and HIV-1 mRNA were found to dissociate from the matrix in the presence of o-phenanthroline. This could be prevented by coincubation with Zn2+ or Cu2+ (but not Mg2+), which stabilize the mRNA containing nuclear matrix structure.

Functional dissection of nuclear envelope mRNA translocation system: effects of phorbol ester and a monoclonal antibody recognizing cytoskeletal structures

Unidirectional transport of poly(A)-containing mRNA [poly(A)+ mRNA] through the nuclear envelope pore complex is thought to be an energy (ATP or GTP)-dependent process which involves a nuclear envelope nucleoside triphosphatase (NTPase). In the intact envelope, this enzyme is regulatable by poly(A) binding and by poly(A)-dependent phosphorylation/dephosphorylation of other components of the mRNA translocation system, which are as yet unidentified. Monoclonal antibodies (mAbs) were elicited against the poly(A) binding nuclear envelope fraction isolated from rat liver. The mAbs were screened for their modulatory effects on mRNA transport in vitro. One stable clone decreased the efflux of rapidly labeled RNA and of one specific mRNA (ovalbumin) from isolated nuclei. It increased the binding of poly(A) to the envelope and increased the maximal catalytic rate of the NTPase, but it did not alter the apparent Km of the enzyme or the extent of its stimulation by poly(A). The nuclear envelope-associated protein kinase that down-regulates the NTPase was inhibited by the antibody, while other protein kinases were not affected. Because both the NTPase and mRNA efflux were inhibited by the tumor promoter, 12-O-tetradecanoylphorbol 13-acetate, the sensitive kinase is probably protein kinase C. Protein kinase C was found to be associated with the isolated nuclear envelope. The antibody reacted with both a Mr 83,000 and a Mr 65,000 nuclear envelope polypeptide from rat liver and other tissues. By immunofluorescence microscopy in CV-1 cells, the antibody localized to the nuclear envelope and, in addition, to cytoplasmic filaments which show some superposition with the microfilament network.

Cytochalasin B selectively releases ovalbumin mRNA precursors but not the mature ovalbumin mRNA from hen oviduct nuclear matrix

Hen oviduct nuclear matrix-bound mature ovalbumin mRNA is released from the matrix in the presence of ATP, while the ovalbumin mRNA precursors remain bound to this structure. Detachment of the mature mRNA from the matrix by ATP as well as ATP-dependent efflux of mRNA from isolated nuclei were found to be inhibited by cytochalasin B. On the other hand, in the absence of ATP, cytochalasin B exclusively caused the release (and nucleocytoplasmic efflux) of the ovalbumin messenger precursors, but not of the mature mRNA. After cytochalasin B treatment, actin could be detected in the matrix supernatant. Phalloidin which stabilizes actin filaments did not cause RNA liberation in the absence of ATP, but inhibited the ATP-induced detachment of mature mRNA. RNA release was also achieved with a monoclonal antibody against actin but not with monoclonal antibodies against tubulin and intermediate filaments. These results suggest that actin-containing filaments are involved in the restriction of immature messengers to the cell nucleus.

Isolation and characterization of cytoplasmic poly(A) polymerase from cryptobiotic gastrulae of Artemia salina

Poly(A) polymerase has been purified to near homogeneity from the cytoplasm of Artemia salina cryptobiotic gastrulae by ion-exchange chromatography on DEAE-cellulose, DEAE-Sepharose CL-6B and phosphocellulose P11, gel filtration on CL-Sepharose 6B, affinity chromatography on poly(A)-Sepharose 4B and ATP-agarose. The enzyme is fully dependent on exogeneous oligo(riboadenylic acid) and is free of any nuclease or other enzyme activities. In standard assay conditions the enzyme preparation has a specific activity of 5.6 mumol AMP . h-1 . (mg protein)-1. Sodium dodecyl sulphate/polyacrylamide gel electrophoresis reveals the presence of only two proteins with Mr 94 000 and 70 000. The Mr-70 000 protein has been identified as poly(A) polymerase. The enzyme is exclusively activated by Mn2+. Addition of Ca2+, Mg2+, Zn2+, NH4+, K+ or Na+ inhibits the enzymatic reaction. The activity is specific for ATP and competitive inhibition is observed in the presence of other ribonucleoside 5'-triphosphates. AMP incorporation is time-dependent and is increased non-linearly with protein and primer concentration.

Microinjection of actin-binding proteins and actin antibodies demonstrates involvement of nuclear actin in transcription of lampbrush chromosomes

Nuclei of amphibian oocytes contain large amounts of actin, mostly in unpolymerized or short-polymer form. When antibodies to actin or actin-binding proteins (fragmin and the actin modulator from mammalian smooth muscle) are injected into nuclei of living oocytes of Pleurodeles waltlii, transcription of the lampbrush chromosomes, but not of the rRNA genes, is inhibited. When transcription is repressed by drugs or RNA is digested by microinjection of RNAase into oocyte nuclei, an extensive meshwork of actin filament bundles is seen in association with the isolated lampbrush chromosomes. These observations indicate a close relationship between the state of nuclear actin and transcriptional activity and suggest that nuclear actin may be involved in transcriptional events concerning protein-coding genes.

12 S small nuclear ribonucleoprotein-associated acidic-and pyrimidine-specific endoribonuclease from calf thymus and L5178y cells

12 S ribonucleoprotein (RNP) particles were separated from a 45 S RNP complex (Bachmann, M., Zahn, R. K. and Müller, W. E. G. (1983) J. Biol. Chem. 258, 7033-7040) isolated from calf thymus and L5178y cells. The particles were determined to be associated with an acidic endoribonuclease (pI 4.1; pH optimum 6.2). the enzyme requires Mg2+ and is sensitively inhibited by higher NaCl concentrations. The nuclease specifically degrades poly(U) and poly(C) in an endonucleolytic manner; the end-products are 3'-UMP (85%) and 2',3'-cyclic UMP (12%). Poly(A) strongly inhibits the pI 4.1 endoribonuclease activity. The Michaelis constant (for poly(U)) was determined as 82 microM and the maximal reaction velocity was 0.54 mumol/microgram per h. The endoribonuclease is distinguished from the known pyrimidine-specific ribonucleases (pancreatic ribonuclease and endoribonuclease VII) by further criteria, e.g., resistance to thiol reagents, inhibition by EDTA, Mg2+ requirement, pI and pH optimum. Using the techniques of counterimmunoelectrophoresis and immunoaffinity column chromatography it was shown that the pI 4.1 endoribonuclease-associated 12 S RNP particles display antigenicity to anti-Sm and anti-(U1)-RNP antibodies. An RNA component, isolated from the 12 S-45 S hypercomplex, was identified as U1-snRNA.

The role of protein phosphokinase and protein phosphatase during the nuclear envelope nucleoside triphosphatase reaction

The activities of nuclear envelope-associated protein phosphokinase and protein phosphatase were determined in nuclear ghosts from liver and oviduct of quails. The protein kinase was found to be inhibited by poly(A) by 75%. During the kinase reaction proteins with molecular weights of 106 000 and 64 000 were phosphorylated. The phosphoprotein phosphatase from liver was stimulated to 190% by poly(A), whereas only a slight enhancing effect by this polymer was determined with the oviduct enzyme (to 125%). Comparative determinations of the nuclear ghost-associated enzyme activities revealed the following values (in nmol Pi/min per 10(8) ghosts); oviduct: phosphokinase, 0.015; phosphatase, 0.004 and nucleoside triphosphatase, 39.4; and liver: phosphokinase, 0.044; phosphatase, 0.012 and nucleoside triphosphatase, 11.7. These data indicate that phosphorylation/dephosphorylation proceeds independently of the nucleoside triphosphatase cycle. This assumption is supported by analytical results revealing that no marked dephosphorylation occurs after poly(A) binding to the nuclear envelope. Moreover, stoichiometrical data showed a nearly 1:1 molar ratio between ATP-binding and phosphorylation of nuclear envelope protein. From these findings a new model for the nucleoside triphosphatase-mediated poly(A)(+)mRNA efflux from nuclei is deducted, proposing phosphokinase and phosphatase only to modulate the affinity of the 'carrier structure' for poly(A) (+)mRNA, but not to constitute the nucleoside triphosphatase.

Binding of polyribonucleotides and polydeoxyribonucleotides to bovine brain microtubule protein: age-dependent modulation via phosphorylation of high-molecular-weight microtubule-associated proteins and tau proteins

Binding of both synthetic poly(A) and naturally occurring poly(A) (+)mRNA as well as DNA to microtubule protein is mediated by microtubule-associated proteins; tubulin itself is not capable of binding these polymers. Bovine brain microtubule protein from immature animals was found to have a significantly lower capacity to bind poly(A) than microtubule protein from old animals. On the other hand, "old" microtubule protein binds DNA more efficiently than "immature" microtubule protein. Microtubule-associated protein 2 [preferred binding site for DNA] and tau proteins [preferred binding site for poly (A)] are specifically phosphorylated by a microtubule-associated, cAMP-dependent protein kinase. It was found that the affinity of microtubule protein for poly(A) is markedly decreased by autophosphorylation of the protein; in the case of DNA, the decrease in affinity was less. Autophosphorylation of "immature" microtubule proteins diminished the binding capacity for poly(A) to a greater extent than do "old" proteins. Scatchard plot analysis revealed that microtubule-protein possesses two different binding sites for poly(A). The corresponding dissociation constants were found to be increased in the phosphorylated system, but phosphorylation does not appear to alter the total number of binding sites. Compared to immature animals, microtubule protein from "old" bovine brains was found to have a reduced number of binding sites for poly(A), whereas the values of the dissociation constants remain unchanged. In contrast to total microtubule protein and homogeneous microtubule-associated protein 2, only one kind of binding site for poly(A) could be detected in homogeneous tau protein. No influence of different RNA or DNA species on microtubule protein-associated cAMP-dependent protein kinase, adenosine triphosphatase and guanosine triphosphatase activities could be detected.

Occurrence of short-sized oligo(A) fragments during course of cell cycle and ageing

Affinity chromatography of nucleic acids precipitated by N-cetyl-N,N,N-trimethyl ammonium bromide on poly(U)-Sepharose has proved to be a suitable method for a nearly quantitative isolation of oligo(A) sequences down to a chain length of 4 nucleotide units. Analysis of short oligo(A) fragments in synchronized L5178y mouse lymphoma cells after labeling with [3H]Ado revealed that the percentage of A2-6 sequences on the total radioactivity amounted in S-phase cells to 1.6%, while the value obtained for the stationary L-cell system was 8.0%. The alterations of occurrence and chain length distribution of short oligo(A) fragments during ageing were studied in two age groups of female quails: mature (250-320 days old) and senescent animals (3-3.5 yr old). It was found that the amount of low molecular weight oligo(A) fragments gradually decreases during ageing of the animals; the amount in the mature animal group was significantly higher (6-fold) than in the old animal group. The decreased amounts of oligo(A) during S phase and ageing could in part be due to posttranslational modification of enzymes involved in poly(A) metabolism. It could be demonstrated that both homogeneous poly(A) anabolic poly(A) polymerase and homogeneous poly(A) catabolic endoribonuclease IV are phosphorylated by nuclear protein kinase NI.

Age-dependent alterations of microtubule-associated enzyme activities from bovine brain (protein kinase, adenosine triphosphatase, guanosine triphosphatase)

Microtubules have been isolated from immature (3-4 weeks' old) and old (11-13 years' old) bovine brains. Quantitative studies revealed that the concentration of extractable microtubule protein per gram of wet brain decreased from 0.47 mg (immature animals) to 0.34 mg (old animals). The major components of microtubule protein (tubulin and high-molecular-weight microtubule-associated proteins) do not undergo an age-correlated change. Determination of the endogenous protein kinase activity revealed that the activity associated with "immature" calf brain microtubules was six times higher than the activity present in "old" preparations. In contrast, the stimulatory effect of cyclic AMP on protein phosphorylation in microtubules from old bovine brains exceeds nine-fold the value obtained from immature animals. After addition of casein (exogenous acceptor), the basal activities increased in both preparations without altering the age-correlated difference in the specific activity. By comparing the radioactivity pattern of sodium dodecyl sulfate polyacrylamide gels after autophosphorylation of microtubule protein with [gamma-32P]ATP, 1.5 moles of phosphate per mole of high-molecular-weight microtubule-associated protein were estimated to be incorporated in preparations from immature animals and 0.9 mole of phosphate per mole of associated protein in the experiments with "old" microtubule protein. Adenosine triphosphatase activity, associated with the high-molecular-weight microtubule-associated protein 1, was determined to be 15% reduced in preparations from old animals, compared to the activity in "young" preparations. In contrast, the guanosine triphosphatase activity increased five-fold during ageing; the higher activity of this enzyme was observed both during the initial and the steady-state phases of microtubule formation.

Partial purification and properties of a chromatin bound endonuclease from the marine sponge Geodia cydonium

A chromatin bound endonuclease (Mr:107,000) has been extracted and partially purified from the siliceous sponge Geodia cydonium. Disc gel electrophoresis showed that only one enzyme was present in the partially purified preparation which was able to degrade DNA and poly(A). The enzyme liberates oligonucleotides on incubation with poly(A), which are further degraded to yield the 5'-mononucleotide, which has a pI of 6.5 and a pH optimum of 7.5-8.0. Cations are not required for enzymic activity and EDTA does not inhibit the enzyme. Only iodosobenzoic acid was found to completely inhibit the enzyme. The enzyme hydrolysed poly(A), poly(U), poly(C), DNA, poly[d(A-T)], poly[d(G-C)], but not poly (dA) or poly(G).

Interaction of polyribosomal components and polyribonucleotides with microtubule proteins

To demonstrate the affinity of RNA-containing polyribosomal components (isolated from L5178y cells) to microtubules, microtubule protein was attached to an insoluble matrix. In contrast to ribosomes, poly(A)(+)mRNA and poly(A)-RNP were found to bind to the matrix. Using synthetic polyribonucleotides, no significant differences in the binding properties of single- and double stranded polymers of different base composition to microtubule protein were observed. However, binding is dependent on the size of the polymer; a minimal chain length of 12 nucleotide units is required.

Age-dependent gene induction in quail oviduct. XV. Alterations of the poly(A)-associated protein pattern and of the poly(A) chain length of mRNA

The effect of ageing on polyadenylate [poly(A)] metabolism of mRNA was studied in two age groups of female quails: mature (250-320 days' old) and senescent animals (3-3.5 years' old). In introductory experiments it was shown that poly(A)-associated proteins can not be recovered from cytosol by affinity chromatography. We isolated the poly(A)-associated proteins from polyribosomal poly(A)-ribonucleoprotein complex [poly(A)-RNP] and radioactively labeled them with dansyl chloride. Three main protein species were identified with molecular masses of 48000 (P48), 35000 (P35) and 24000 (P24). During ageing the percentage portion of P48 in poly(A)-RNP from liver (mitotic tissue) and from oviduct or heart (post-mitotic tissue) is reduced at the expense of P35 and P24. Quantitative analyses revealed that the amount of poly(A)-RNP in the different organs decreases significantly with age if the values are based on DNA. The protein content in poly(A)-RNP was found to be reduced especially in post-mitotic tissue. From this finding we assume that the number of poly(A)-associated protein molecules per poly(A) stretch drops from approximately 4.7 molecules (mature oviduct) to 1.9 molecules (senescent oviduct). Control experiments revealed that free, non-polyribosomal poly(A)-RNP accounts only for 10% of total poly(A)-RNP. The size of the poly(A) segment of mRNA decreases with age. After labeling with [3H] dimethylsulfate, the poly(A) stretch from mature oviduct was found to consist mainly of 120-180 AMP units, and those from mature liver and mature heart of 110 and 100, respectively. In organs from senescent animals the percentage of shorter poly(A) stretches is enlarged; on the average, poly(A)-70 chains were detected. These results support the assumption that age-dependent changes occur also on the post-transcriptional level during the maturation steps of poly(A)(-) hnRNA to poly(A)-(+) mRNA.