Showing papers by "Michael Bachmann published in 1986"

Association of La and Ro antigens with intracellular structures in HEp-2 carcinoma cells.

Abstract: Monoclonal antibodies were raised against homogeneous Ro and La antigens, two proteins associated with Ro and La ribonucleoproteins (RNPs). The specificity of the monoclonal antibodies was proven by immunoblot analysis and by immunoprecipitation. The anti-Ro antibody reacted with a Mr 95,000 protein in a mouse lymphoma cell extract and with a Mr 60,000 polypeptide in extracts from human spleen. The anti-La antibody recognized a Mr 50,000 polypeptide in the mouse L5178y cell extract. The two monoclonal antibodies precipitated RNPs that contained the typical RNA species of Ro or La RNPs. The localization of Ro and La antigen was performed by direct immunofluorescence microscopy. It was found that the anti-Ro antibody reacted with a fibrous network that behaves like cytokeratin, one of the intermediate filament systems. The anti-La antibody reacted with nuclear structures that gave a speckled-type pattern.

Identification and further characterization of the specific cell binding fragment from sponge aggregation factor.

Abstract: Monoclonal antibodies (McAbs) were raised against the aggregation factor (AF) from the marine sponge Geodia cydonium. Two clones were identified that secrete McAbs against the cell binding protein of the AF complex. Fab fragments of McAbs: 5D2-D11 completely abolished the activity of the AF to form secondary aggregates from single cells. The McAbs were determined to react with the AF in vitro; this interaction was prevented by addition of the aggregation receptor, isolated and purified from the same species. After dissociation of the AF by sodium dodecyl sulfate and 2-mercaptoethanol, followed by electrophoretical fractionation, a 47-kD protein was identified by immunoblotting which interacted with the McAbs: 5D2-D11. During this dissociation procedure, the sunburst structure of the AF was destroyed. In a second approach, the 47-kD protein was isolated by immunoprecipitation; 12 molecules of this protein species were calculated to be associated with the intact AF particle. The 47-kD AF fragment bound to dissociated Geodia cells with a high affinity (Ka of 7 X 10(8) M-1) even in the absence of Ca++ ions; the number of binding sites was approximately 4 X 10(6)/cell. This interaction was prevented by addition of the aggregation receptor to the 47-kD protein in the homologous cell system. Moreover, it was established that this binding occurs species-specifically. The 47-kD fragment of the AF was localized only extracellularly by indirect immunofluorescence staining in cryostat slices. These data suggest that the 47-kD protein is the cell binding molecule of the AF from Geodia.

Proteins from rat liver cytosol which stimulate mRNA transport: purification and interactions with the nuclear envelope mRNA translocation system

Abstract: Two polysome-associated proteins with particular affinities for poly(A) have been purified from rat liver These proteins stimulate the efflux of mRNA from isolated nuclei in conditions under which such efflux closely stimulates mRNA transport in vivo, and they are therefore considered as mRNA-transport-stimulatory proteins Their interaction with the mRNA-translocation system in isolated nuclear envelopes has been studied The results are generally consistent with the most recently proposed kinetic model of mRNA translocation One protein, P58, has not been described previously It inhibits the protein kinase that down-regulates the NTPase, it enhances the NTPase activity in both the presence and the absence of poly(A) and it seems to increase poly(A) binding in unphosphorylated, but not in phosphorylated, envelopes The other protein, P31, which probably corresponds to the 35,000-Mr factor described by Webb and his colleagues, enhances the binding of poly(A) to the mRNA-binding site in the envelope, thus stimulating the phosphoprotein phosphatase and, in consequence, the NTPase The possible physiological significance of these two proteins is discussed

Occurrence of novel small RNAs with concomitant inhibition of host cellular U small nuclear RNA synthesis in Vero cells infected with herpes simplex virus type 1.

Abstract: Summary In eukaryotic cells, small nuclear and small cytoplasmic RNAs (sn- or scRNAs) are associated with distinct proteins, forming ribonucleoproteins (snRNPs or scRNPs). In the present study we analysed the protein composition as well as the small RNA pattern in non-infected and herpes simplex virus type 1 (HSV)-infected Vero cells. We found that concomitantly with the shut-off of host cell mRNA synthesis, synthesis of U-snRNAs was stopped. Due to their stability, however, U-snRNAs were still present in cells 36 h after HSV infection. Besides these RNAs, two novel small RNAs which we termed HVR1 and HVR2 were detected in infected cells. On the basis of their relative mobilities in urea gels, the apparent chain lengths of these newly synthesized RNAs were determined to be 255 and 154 nucleotides respectively. The small RNA-binding proteins Sm, RNP, Ro and La were found to increase up to 15-fold after HSV infection. The data presented suggest that new, virus-coded small RNPs are synthesized which might play a role in the maturation and regulation of HSV-coded RNA transcripts.

Purification and characterization of the Ro and La antigens. Modulation of their binding affinities to poly(U) by phosphorylation and the presence of ATP.

Abstract: Both the La and the Ro antigen (the latter for the first time) were purified to apparent homogeneity. Ro was found to be a 94 (90)-kDa and La a 50-kDa polypeptide. Both antigens bind to RNA with a high preference for poly(U). The binding hierarchy is U much greater than G greater than A greater than C for La and U much greater than C greater than G greater than A for Ro. Only 15% of the total amount of La or 21% of that of Ro, present in the L5178y cell extract, is able to bind to poly(U), indicating the existence of RNA binding and nonbinding subclasses of La and Ro. The purified antigens were used for the isolation of monospecific antibodies. These antibodies were specific for their respective antigen and did not cross-react. Both the Ro and the La antigen are phosphorylated in vitro by the cytoplasmic protein kinase CII, whereas the nuclear protein kinases NI and NII are unable to phosphorylate the antigens. After phosphorylation or in the presence of ATP the binding affinity of both antigens to poly(U) strongly decreases. The phosphorylation reaction together with the immunoprecipitation by the monospecific antibodies represents a highly sensitive and specific assay which was used during purification and characterization of the Ro and La antigen.

Nuclear Envelope Vesicles as an In Vitro Model System to Study Nucleocytoplasmic Transport of Proteins and Ribonucleic Acids

Abstract: We describe a procedure for the preparation of nuclear envelope vesicles from rat liver nuclei. These vesicles contain the components of the nuclear envelope, e.g. the pore-complex-lamina fraction, and a residual DNA content of 1.5%. Typical preparations consist of about 90% vesicles with the vesicular character of these envelopes shown by means of microscopic and biochemical studies. Uptake measurements using nuclear and non-nuclear proteins show that the vesicles have a high affinity only for proteins that are specific for the nuclear compartment and indicate that the nuclear envelope affects the uptake kinetics and increases the capacity for nuclear proteins. The nuclear envelope vesicles contain the translocation mechanism for mRNA and show an unidirectional transport of mRNA from the vesicular interior into the medium; this efflux can be stimulated by ATP. Because the vesicles are virtually free of the components of the nuclear interior, but retain properties of intact nuclei, we believe that they are a valuable model system to investigate the structures and mechanisms involved in the regulation of nucleocytoplasmic transport processes.