Pius Spielhofer scite author profile

A system has been established allowing the rescue of replicating measles viruses (MVs) from cloned DNA. On one hand, plasmids were constructed from which MV antigenomic RNAs with the correct termini are transcribed by phage T7 RNA polymerase. On the other hand, helper cells derived from the human embryonic kidney 293 cell line were generated constitutively expressing T7 RNA polymerase together with MV nucleocapsid protein and phosphoprotein. Simultaneous transfection of the helper cells with the MV antigenomic plasmid and with a plasmid encoding the MV polymerase under direction of a T7 promoter led to formation of syncytia from which MVs were easily recovered. A genetic tag comprising three nucleotide changes was present in the progeny virus. As a first application of reverse genetics, a segment of 504 nucleotides from the 5′ non‐coding region of the fusion gene was deleted, leading to an MV variant whose replication behaviour in Vero cells was indistinguishable from that of the laboratory Edmonston B strain. Since no helper virus is involved, this system, in principle, should be applicable to the rescue of any member of the large virus order Mononegavirales, i.e. viruses with a nonsegmented negative‐strand RNA genome.

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Rac Homologues and Compartmentalized Phosphatidylinositol 4, 5-Bisphosphate Act in a Common Pathway to Regulate Polar Pollen Tube Growth

Kost

et al. 1999

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Pollen tube cells elongate based on actin- dependent targeted secretion at the tip. Rho family small GTPases have been implicated in the regulation of related processes in animal and yeast cells. We have functionally characterized Rac type Rho family proteins that are expressed in growing pollen tubes. Expression of dominant negative Rac inhibited pollen tube elongation, whereas expression of constitutive active Rac induced depolarized growth. Pollen tube Rac was found to accumulate at the tip plasma membrane and to physically associate with a phosphatidylinositol monophosphate kinase (PtdIns P-K) activity. Phosphatidylinositol 4, 5-bisphosphate (PtdIns 4, 5-P2), the product of PtdIns P-Ks, showed a similar intracellular localization as Rac. Expression of the pleckstrin homology (PH)-domain of phospholipase C (PLC)-δ1, which binds specifically to PtdIns 4, 5-P2, inhibited pollen tube elongation. These results indicate that Rac and PtdIns 4, 5-P2 act in a common pathway to control polar pollen tube growth and provide direct evidence for a function of PtdIns 4, 5-P2 compartmentalization in the regulation of this process.

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A GFP‐mouse talin fusion protein labels plant actin filamentsin vivoand visualizes the actin cytoskeleton in growing pollen tubes

1998

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Interaction of measles virus glycoproteins with the surface of uninfected peripheral blood lymphocytes induces immunosuppressionin vitro

Schlender

Schnorr

Spielhofer

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

174

163

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A marked suppression of immune function has long been recognized as a major cause of the high morbidity and mortality rate associated with acute measles. As a hallmark of measles virus (MV)-induced immunosuppression, peripheral blood lymphocytes (PBLs) isolated from patients exhibit a significantly reduced capacity to proliferate in response to mitogens, allogens, or recall antigens. In an in vitro system we show that proliferation of naive PBLs [responder cells (RCs)] in response to a variety of stimuli was significantly impaired after cocultivation with MV-infected, UV-irradiated autologous PBLs [presenter cells (PCs)]. We further observed that a 50% reduction in proliferation of RCs could still be observed when the ratio of PC to RC was 1:100. The effect was completely abolished after physical separation of the two populations, which suggests that soluble factors were not involved. Proliferative inhibition of the RCs was observed after short cocultivation with MV-infected cells, which indicates that surface contact between one or more viral proteins and the RC population was required. We identified that the complex of both MV glycoproteins, F and H, is critically involved in triggering MV-induced suppression of mitogen-dependent proliferation, since the effect was not observed (i) using a recombinant MV in which F and H were replaced with vesicular stomatitis virus G or (ii) when either of these proteins was expressed alone. Coexpression of F and H, however, lead to a significant proliferative inhibition in the RC population. Our data indicate that a small number of MV-infected PBLs can induce a general nonresponsiveness in uninfected PBLs by surface contact, which may, in turn, account for the general suppression of immune responses observed in patients with acute measles.

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Mutated and hypermutated genes of persistent measles viruses which caused lethal human brain diseases

et al. 1989

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Rescue of Synthetic Measles Virus Minireplicons: Measles Genomic Termini Direct Efficient Expression and Propagation of a Reporter Gene

et al. 1995

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Measles virus (MV) mRNA transcription and replication are thought to be controlled by cis-acting sequence elements contained within the terminal MV genomic noncoding nucleotides. To validate these promoter and regulatory signal assignments, cDNAs were constructed allowing synthesis of RNAs corresponding to a MV genome in which all coding and intercistronic regions were replaced by the chloramphenicol acetyl transferase (CAT) coding sequence. Transcript production by T7 polymerase starting and ending precisely with the MV genome terminal residues was achieved by fusing the T7 polymerase promoter and the hepatitis delta virus genome ribozyme followed by tandem T7 polymerase termination sequences to the MV genomic 5' and 3' ends, respectively. Transfection of these negative polarity transcripts, mimicking natural defective interfering RNAs of the internal deletion type, into MV-infected 293 cells gave rise to CAT activity which could be serially transferred and massively amplified together with progeny helper virus in fresh cells. Transfer was blocked only by antibodies able to neutralize MV infectivity, indicating that the chimeric RNA not only was encapsidated, transcribed, and replicated, but also packaged into virions. Sequence analyses confirmed that both the expected chimeric antigenome and mRNA products were transcribed and replicated with fidelity during serial passage. Minor changes introduced in the transcription promoter markedly compromised function. This system now can be exploited to examine MV genomic cis-acting regulatory elements and extended to the development of full-length MV cDNAs.

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Measles virus phosphoprotein retains the nucleocapsid protein in the cytoplasm

Huber

Cattaneo²,

Spielhofer³

et al. 1991

Virology

120

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Subacute sclerosing panencephalitis is typically characterized by alterations in the fusion protein cytoplasmic domain of the persisting measles virus

et al. 1992

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Pius Spielhofer

Rescue of measles viruses from cloned DNA.

Rac Homologues and Compartmentalized Phosphatidylinositol 4, 5-Bisphosphate Act in a Common Pathway to Regulate Polar Pollen Tube Growth

A GFP‐mouse talin fusion protein labels plant actin filamentsin vivoand visualizes the actin cytoskeleton in growing pollen tubes

Interaction of measles virus glycoproteins with the surface of uninfected peripheral blood lymphocytes induces immunosuppressionin vitro

Mutated and hypermutated genes of persistent measles viruses which caused lethal human brain diseases

Rescue of Synthetic Measles Virus Minireplicons: Measles Genomic Termini Direct Efficient Expression and Propagation of a Reporter Gene

Measles virus phosphoprotein retains the nucleocapsid protein in the cytoplasm

Subacute sclerosing panencephalitis is typically characterized by alterations in the fusion protein cytoplasmic domain of the persisting measles virus

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