Ultrastructural localization of herpes simplex virus RNA by in situ hybridization

We studied the subcellular localization of virally encoded RNA by pre-embedding in situ hybridization, using colloidal gold as an electron-dense marker. Fibroblasts infected with Herpes simplex virus (HSV) were fixed, permeabilized, then hybridized with a biotinylated HSV DNA probe under conditions favoring DNA-RNA hybrid formation. HSV probe was localized with 5-nm streptavidin-gold conjugates. Transmission electron microscopy revealed 5-nm gold in clusters and singlets within HSV-infected cells. Formalin-fixed cells contained a mean of 4.6 clusters per cytoplasmic profile and 13.2 clusters per nuclear profile. Combined formalin-glutaraldehyde fixation increased the mean number of clusters per cytoplasmic and nuclear profile to 7.2 (57% increase) and 17.5 (33% increase), respectively. Gold clusters were frequently located in regions adjacent to the nuclear envelope but were not bound to viral nucleocapsids or endoplasmic reticulum. Labeling was unaffected by pre-hybridization DNAse treatment of cells. RNAse eliminated 87% of cytoplasmic and 97% of nuclear clusters. These findings indicate that clustered gold particles labeled viral RNA, with probable binding of multiple DNA probe molecules and/or gold particles to RNA strands. This novel pre-embedding technique may be a useful tool for ultrastructural evaluation of virus-host cell interactions.     

Initiated complexes of RNA polymerase II are concentrated in the nuclear skeleton associated DNA

Several preparations of nuclear matrices containing varying amounts of DNA were obtained from mouse plasmocytoma P3-X63-Ag8.653 cells and tested for the presence of RNA polymerase II activity. It has been demonstrated that about 25% of RNA polymerase II activity detected in the original nuclei can be recovered in isolated nuclear matrices. Only DNA-bound RNA polymerase II was found in the isolated matrices, while both free and DNA-bound RNA polymerase II activities were detected in the original nuclei. RNA polymerase II activity found in the isolated matrices did not depend on the portion of DNA recovered in the nuclear matrices in a large interval between 91 and 1.5% of DNA content in the original nuclei. The conclusion has been drawn that initiated RNA polymerase II molecules are non-randomly distributed along DNA loops. They are concentrated near the points of DNA attachment to the nuclear skeleton.     

Focal adhesion kinase plays a pivotal role in herpes simplex virus entry

Development of strategies to prevent herpes simplex virus (HSV) infection requires knowledge of cellular pathways harnessed by the virus for invasion. This study demonstrates that HSV induces rapid phosphorylation of focal adhesion kinase (FAK) in several human target cells and that phosphorylation is important for entry post-binding. Nuclear transport of the viral tegument protein VP16, transport of viral capsids to the nuclear pore, and downstream events (including expression of immediate-early genes and viral plaque formation) were substantially reduced in cells transfected with dominant-negative mutants of FAK or small interfering RNA designed to inhibit FAK expression. These observations were substantiated using mouse embryonic fibroblast cells derived from embryonic FAK-deficient mice. Infection was reduced by >90% in knockout cells relative to control cells and was further reduced if the knockout cells were transfected with small interfering RNA targeting proline-rich tyrosine kinase-2, which was also phosphorylated in response to HSV. The knockout cells were permissive for viral binding, and virus triggered an intracellular calcium response, but nuclear transport was inhibited. Together, these results support a novel model for invasion that implicates FAK phosphorylation as important for delivery of viral capsids to the nuclear pore.     

Complexity of poly(A+) and poly(A-) polysomal RNA in mouse liver and cultured mouse fibroblasts.

RNA excess hybridization experiments were used to measure the complexity of nuclear RNA, poly(A+) mRNA, poly(A-) mRNA, and EDTA-released polysomal RNA sedimenting at less than 80 S in mouse liver and in cultured mouse cells. With both cell types, poly(A-) RNA was found to contain 30-40% of the sequence diversity of total mRNA. In the case of liver this represents 5,700 poly(A-) molecules and 8,600 poly(A+) molecules for a total of approximately 14,300 different mRNAs. Comparison of the complexity of mRNA with that of nuclear RNA revealed that in liver and in cultured cells, mRNA has only 10-20% of the sequence diversity present in nuclear RNA. This latter observation is consistent with existing data on mammalian cells from this and other laboratories.     

A characterization of globin mRNA sequences in the nucleus of duck immature red blood cells

Studies were performed with duck immature red blood cells to identify and characterize the globin mRNA sequences in nuclear RNA. Annealing of ³H-globin cDNA to unlabeled nuclear RNA has identified three distinct size classes of nuclear RNA molecules containing globin mRNA sequences. The largest size class contained 1–2% of total nuclear globin mRNA sequences and sedimented through 85% formamide-sucrose gradients at the same rate as 28S ribosomal RNA. Chromatography on oligo(dT)-cellulose indicated that most of these molecules are not polyadenylated. The bulk of nuclear globin mRNA sequences (70%) was contained in polyadenylated RNA molecules which sedimented at 16.5S. The remainder of nuclear globin mRNA sequences (～30%) was detected in molecules sedimenting at 10S (the position of cytoplasmic globin mRNA).To determine whether a precursor-product relationship exists between these nuclear molecules and cytoplasmic globin mRNA, pulse-label and chase experiments were performed. Labeled globin mRNA sequences were assayed by annealing to globin cDNA-cellulose. Labeled 28S nuclear globin RNA sequences could not be detected, perhaps due to technical reasons. 16.5S nuclear globin RNA was labeled and chased into cytoplasmic globin mRNA sequences. The half-life of 16.5S nuclear globin RNA was estimated to be less than 30 min. These results demonstrate that in duck immature red blood cells, globin mRNA is transcribed as a larger precursor. Furthermore, size characterization of this precursor during pulse-label and chase periods suggests that it is processed within the nucleus to 10S globin RNA.     

Inhibition of exogenous RNA-dependent protein synthesis by a low-molecular-weight RNA from nuclear ribonucleoprotein particles of adenovirus-infected HeLa cells

Low-molecular-weight RNA (4S to > 5.5S) isolated from nuclear ribonucleo-protein particles of adenovirus-infected HeLa cells inhibited cell-free protein synthesis directed by polyribosomal RNA from rabbit reticulocytes by more than 80%. In a reconstituted system inhibitory RNA did not prevent the binding of Met-tRNA_f-GTP-IF ternary complex to 40S subunits; however, it repressed the formation of 80S from 40S-mRNA complex and 60S subunits. In binding assays in which authentic IF-M2A and IF-M2B were present, the inhibitor competed with messenger molecules for binding site(s) in IF-M2B. The inhibitory RNA appears to be a 5.5S RNA.     

Interstrand duplexes in Friend erythroleukemia nuclear RNA. The interaction of non-polyadenylated nuclear RNA with polyadenylated nuclear RNA and with small nuclear RNAs

Intermolecular duplexes among large nuclear RNAs, and between small nuclear RNA and heterogeneous nuclear RNA, were studied after isolation by a procedure that yielded protein-free RNA without the use of phenol or high salt. The bulk of the pulse-labeled RNA had a sedimentation coefficient greater than 45 S. After heating in 50% (v/v) formamide, it sedimented between the 18 S and 28 S regions of the sucrose gradient. Proof of the existence of interstrand duplexes prior to deproteinization was obtained by the introduction of interstrand cross-links using 4'-aminomethyl-4,5',8-trimethylpsoralen and u.v. irradiation. Thermal denaturation did not reduce the sedimentation coefficient of pulse-labeled RNA obtained from nuclei treated with this reagent and u.v. irradiated. Interstrand duplexes were observed among the non-polyadenylated RNA species as well as between polyadenylated and non-polyadenylated RNAs. beta-Globin mRNA but not beta-globin pre-mRNA also contained interstrand duplex regions. In this study, we were able to identify two distinct classes of polyadenylated nuclear RNA, which were differentiated with respect to whether or not they were associated with other RNA molecules. The first class was composed of poly(A)+ molecules that were free of interactions with other RNAs. beta-Globin pre-mRNA belongs to this class. The second class included poly(A)+ molecules that contained interstrand duplexes. beta-Globin mRNA is involved in this kind of interaction. In addition, hybrids between small nuclear RNAs and heterogeneous nuclear RNA were isolated. These hybrids were formed with all the U-rich species, 4.5 S, 4.5 SI and a novel species designated W. Approximately equal numbers of hybrids were formed by species U1a, U1b, U2, U6 and W; however, species U4 and U5 were significantly under-represented. Most of these hybrids were found to be associated stably with non-polyadenylated RNA. These observations demonstrated for the first time that small nuclear RNA-heterogeneous nuclear RNA hybrids can be isolated without crosslinking, and that proteins are not necessary to stabilize the complexes. However, not all molecules of a given small nuclear RNA species are involved in the formation of these hybrids. The distribution of a given small nuclear RNA species between the free and bound state does not reflect the stability of the complex in vitro but rather the abundance of complementary sequences in the heterogeneous nuclear RNA.(ABSTRACT TRUNCATED AT 400 WORDS)     

Globin-coding sequences in the nuclear 28S pre-mRNA and in the cytoplasmic RNA of pigeon erythroid cells

The steady-state content of globin-coding sequences in nuclear and cytoplasmic RNA of pigeon erythroid cells was estimated by hybridization in the excess of nuclear 28S RNA and cytoplasmic poly(A) + RNA with [3H]DNA, synthesized on globin mRNA. Sequences of 9S globin mRNA are found in 0.06% of molecules of non-ribosomal 28S nuclear RNA (pre-mRNA) of erythroblasts and in 0.5% of molecules of non-ribosomal 28S nuclear RNA of reticulocytes. The content of globin mRNA in erythroblast cytoplasm is, respectively lower than in that of reticulocytes.     

RNA metabolism in nuclei: selective transport of kappa exons from myeloma nuclei and adenoviral transcripts from infected HeLa nuclei.

Two independent systems and several analytical procedures have been used to establish that isolated mammalian nuclei selectively transport mature RNA polymerase I and II products. Murine myeloma nuclei retain physiologic restriction in our transport assay as assessed by the transport of the immunoglobulin kappa light chain mRNA and 18S and 28S rRNAs. Nearly 50% of the total kappa exons are transported as structurally intact mature mRNA molecules while less than 8% of either pulse-labeled or steady state kappa intron sequences are detected in the transported fraction. Ribosomal external transcribed spacer sequences also are absent in transported RNA. Release of cytoplasmic RNA from the outer nuclear membrane during the transport assay accounts for less than 10% of transported RNA. Nuclei isolated from adenovirus-infected HeLa cells at 20 hours post infection retain cellular actin mRNA and transport viral poly A+RNA. Ribosomal RNA is transported from infected nuclei although at a reduced rate compared to transport from mock-infected nuclei. Inhibition of transport of host mRNA is paralleled by the absence of pulse-labeled actin mRNA in the cytoplasm of infected cells. The implications of our transport data in relationship to intranuclear RNA trafficking are discussed.     

Changes in RNA metabolism and accumulation of presumptive messenger RNA during transition from the growing to the quiescent state of cultured mouse fibroblasts.

Mouse fibroblasts maintained in tissue culture regulate total protein and ribosomal RNA synthesis co-ordinately with changes in the cellular growth state. Here we show that changes in the rate of synthesis of nuclear non-polyadenylic acid-containing RNA and the rate of accumulation and breakdown of cytoplasmic ribosomal RNA also accompany the transition from the resting to the growing cellular growth state, while the rate of synthesis of nuclear poly (A)-containing RNA and the rates of accumulation and breakdown of cytoplasmic poly(A) containing RNA (presumptive messenger RNA) are, however, only marginally changed. The small net increase (20% to 30%) in the amount of presumptive mRNA is considerably less than the observed increase in protein synthesis (two to threefold) during this transition. We also isolated and characterized extra-polysomal poly(A)-containing ribonucleoprotein particles from quiescent cultures that were similar to those particles obtained by treatment of polyribosomes with EDTA. These experiments suggest that the early increase in protein synthetic activity when quiescent, cultured cells are induced to grow is partially caused by an increased attachment of pre-existing mRNA molecules to free ribosomes.     

The small nuclear RNAs of the cellular slime mold Dictyostelium discoideum. Isolation and characterization

Three species of small nuclear RNA from the lower eucaryote Dictyostelium discoideum have been isolated and characterized with regard to size, cellular abundance, modified nucleotide content, and 5'-end structures. Previous studies had shown that the nuclei of mammalian cells contain a number of discrete low molecular weight, nonribosomal, nontransfer RNA molecules known as small nuclear RNAs. The mammalian small nuclear RNAs range in size from approximately 100 to 250 nucleotides and are quite abundant, in some cases approaching ribosomal RNA in number of copies/cell. Some of these molecules have an unusual cap structure at their 5'-ends similar to that found on eucaryotic messenger RNAs, and a number contain a characteristic set of internal modifications as well. Our results indicate that the small nuclear RNAs of Dictyostelium resemble their counterparts in higher eucaryotic cells structurally, but are present in significantly fewer copies/cell. The implications of these findings for small nuclear RNA function are discussed.     

Synthesis of herpes simplex virus, vaccinia virus, and adenovirus DNA in isolated HeLa cell nuclei. I. Effect of viral-specific antisera and phosphonoacetic acid.

Purified nuclei, isolated from appropriately infected HeLa cells, are shown to synthesize large amounts of either herpes simplex virus (HSV) or vaccinia virus DNA in vitro. The rate of synthesis of DNA by nuclei from infected cells is up to 30 times higher than the synthesis of host DNA in vitro by nuclei isolated from uninfected HeLa cells. Thus HSV nuclei obtained from HSV-infected cells make DNA in vitro at a rate comparable to that seen in the intact, infected cell. Molecular hybridization studies showed that 80% of the DNA sequences synthesized in vitro by nuclei from herpesvirus-infected cells are herpesvirus specific. Vaccinia virus nuclei from vaccinia virus-infected cells, also produce comparable percentages of vaccinia virus-specific DNA sequences. Adenovirus nuclei from adenovirus 2-infected HeLa cells, which also synthesize viral DNA in vitro, have been included in this study. Synthesis of DNA by HSV or vaccinia virus nuclei is markedly inhibited by the corresponding viral-specific antisera. These antisera inhibit in a similar fashion the purified herpesvirus-induced or vaccinia virus-induced DNA polymerase isolated from infected cells. Phosphonoacetic acid, reported to be a specific inhibitor of herpesvirus formation and the herpesvirus-induced DNA polymerase, is equally effective as an inhibitor of HSV DNA synthesis in isolated nuclei in vitro. However, we also find phosphonoacetic acid to be an effective inhibitor of vaccinia virus nuclear DNA synthesis and the purified vaccinia virus-induced DNA polymerase. In addition, this compound shows significant inhibition of DNA synthesis in isolated nuclei obtained from adenovirus-infected or uninfected cells and is a potent inhibitor of HeLa cell DNA polymerase alpha.     

The synthesis and processing of a nuclear RNA precursor to rat pregrowth hormone messenger RNA.

A recombinant DNA plasmid, pBR322-GH1, which contains about 80% of the sequences of rat pregrowth hormone (pGH) mRNA, allowed an analysis of nuclear RNA from GH3 cells for possible precursors of cytoplasmic pGH mRNA. A single 20-22S RNA SPECIES ABOUT 2-3 TIMes larger than pGH mRNA was detected in nuclear RNA from GH3 cells labeled for 5 min. with 3H-uridine. After longer label times a 12S RNA indistinguishable in size from cytoplasmic 12S pGH mRNA became the predominant labeled RNA complementary to the plasmid pBR322-GH1. Both of these nuclear RNA species contained poly (A). Kinetic analysis of the labeling of nuclear and cytoplasmic pGH mRNA sequences showed that the 20S and 12S nuclear RNA molecules were labeled before significant labeling of cytoplasmic pGH mRNA was detected, and also indicated that there is complete conservation of nuclear pGH mRNA sequences in the production of cytoplasmic pGH mRNA. These results indicate that cytoplasmic pGH mRNA is generated by nuclear processing of a larger nuclear RNA molecule.     

Relationship between nuclear and cytoplasmic RNA in Drosophilia cells.

Polyadenylated RNA was isolated from nuclei of cultured Drosophila cells, Schneider's line 2, and used as a template to synthesize a complementary DNA probe. Hybridization experiments were performed to study the relationship between nuclear and cytoplasmic RNA. About two-thirds of the nuclear polyadenylated RNA sequences exist in the cytoplasm. Experiments with fractionated cDNA probes demonstrated that RNA sequences that are frequent in the nucleus are also abundant in the cytoplasm. These findings are consistent with a precursor-product relationship in which some polyadenylated molecules in the nucleus are destined for the cytoplasm while other sequences are polyadenylated but not transferred.     

Low molecular weight RNAs hydrogen-bonded to nuclear and cytoplasmic poly(a)-terminated RNA from cultured chinese hamster ovary cells

A group of RNAs 90–100 nucleotides long were isolated by melting them from poly(A)-terminated nuclear or cytoplasmic RNA from cultured Chinese hamster ovary cells. Conditions that favor hydrogen bond formation allowed the reassociation of these low molecular weight RNAs with poly(A)-terminated RNA. The nuclear poly(A)-terminated molecules contained 1.3 moles of the low molecular weight RNAs per mole of poly(A), while the cytoplasmic poly(A)-terminated RNA contained only one seventh as much. These low molecular weight RNAs were also isolated from the total 4S RNA of either the nucleus or cytoplasm by polyacrylamide gel electrophoresis. They formed a prominantly labeled band of RNA in the gels after cells had been labeled with H₃³²PO₄ for 4 hr. The low molecular weight RNAs melted from the nuclear poly(A)-terminated RNA were slightly different (although not necessarily in primary nucleotide sequence) from those melted from the cytoplasmic poly(A)-terminated RNA.     

Fibrillar nucleolar remnants do not contain macromolecular precursors of ribosomal RNA : Demonstration by the effects of -galactosamine

Administration of -galactosamine to rats produces inhibition of liver nuclear RNA synthesis and associated alterations in the structure of the nucleolus. Polyacrylamide gel electrophoretic analysis of liver nuclear RNA from galactosamine-treated rats has shown the virtual complete absence of ribosomal RNA (rRNA) precursor molecules at a time when the nucleolus consists solely of a dense fibrillar core devoid of granules. No evidence for an artefactual, preferential breakdown of nuclear RNA during extraction could be obtained from either 2.7 or 8% acrylamide gels. Furthermore, the almost complete cessation of nuclear RNA synthesis makes the possibility of there being rapid synthesis and degradation of ribosomal precursor molecules in vivo unlikely. With toluidine blue stains for RNA with nuclei isolated from galactosamine-treated animals, the large, brightly staining area associated with the normal nucleolus was not seen. On the basis of these observations, it is concluded that an RNA-depleted nucleolus appears fibrillar. It is suggested that the fibrillar material of a normal nucleolus may not itself be RNA even though this region does contain RNA precursor molecules.