Joseph P. Vogel scite author profile

Legionella pneumophila, the causative agent of Legionnaires' pneumonia, replicates within alveolar macrophages by preventing phagosome-lysosome fusion. Here, a large number of mutants called dot (defective for organelle trafficking) that were unable to replicate intracellularly because of an inability of the bacteria to alter the endocytic pathway of macrophages were isolated. The dot virulence genes encoded a large putative membrane complex that functioned as a secretion system that was able to transfer plasmid DNA from one cell to another.

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KAR2, a karyogamy gene, is the yeast homolog of the mammalian BiP/GRP78 gene

Rose

Misra

Vogel

1989

Cell

681

577

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Inhibition of the histone demethylase LSD1 blocks α-herpesvirus lytic replication and reactivation from latency

Liang

Vogel

Narayanan

et al. 2009

Nat Med

262

370

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Reversible methylation of histone tails serve as either positive signals recognized by transcriptional assemblies or negative signals that result in repression 1–4. Invading viral pathogens that depend upon the host cell’s transcriptional apparatus are also subject to the regulatory impact of chromatin assembly and modifications5–8. Here we show that infection by the α-herpesviruses HSV and VZV results in the rapid accumulation of chromatin bearing repressive histone H3-lysine 9 methylation. To enable expression of viral immediate early (IE) genes, both viruses use the cellular transcriptional coactivator HCF-1 to recruit the demethylase LSD1 to the viral immediate early promoters. Depletion of LSD1 or inhibition of its activity with MAO inhibitors results in the accumulation of repressive chromatin and a block to viral gene expression. As HCF-1 is a component of the Set1 and MLL1 histone H3 lysine 4 methyl-transferase complexes 9,10, it thus coordinates modulation of repressive H3-lysine 9 methylation levels with addition of activating H3-lysine 4 trimethylation marks. Strikingly, MAO inhibitors also block the reactivation of HSV from latency in sensory neurons, indicating that the HCF-1 complex is a critical component of the reactivation mechanism. The results support pharmaceutical control of histone modifying enzymes as a strategy for controlling herpesvirus infections.

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Bacterial type IV secretion: conjugation systems adapted to deliver effector molecules to host cells

Christie

Vogel

2000

Trends in Microbiology

441

363

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Several bacterial pathogens utilize conjugation machines to export effector molecules during infection. Such systems are members of the type IV or 'adapted conjugation' secretion family. The prototypical type IV system is the Agrobacterium tumefaciens T-DNA transfer machine, which delivers oncogenic nucleoprotein particles to plant cells. Other pathogens, including Bordetella pertussis, Legionella pneumophila, Brucella spp. and Helicobacter pylori, use type IV machines to export effector proteins to the extracellular milieu or the mammalian cell cytosol.Gram-negative bacteria have adapted at least two cell-surface organelles for use in the delivery of macromolecules across kingdom boundaries by a cell-contact-dependent mechanism. The type III secretion systems are assembled from core components of the flagellar machine 1 . The type IV systems, the subject of this review, are built from core components of conjugation machines. This is a promiscuous secretion family both in terms of the translocated substrates -large nucleoprotein conjugation intermediates, an A/B toxin and monomeric proteins -and the phylogenetic diversity of cells targeted for substrate delivery -bacteria, fungi, plants and animals. In this review, we will summarize recent structure-function studies of the type IV systems, with an emphasis on the Agrobacterium tumefaciens T-DNA transfer machine.

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Joseph P. Vogel

Conjugative Transfer by the Virulence System of Legionella pneumophila

KAR2, a karyogamy gene, is the yeast homolog of the mammalian BiP/GRP78 gene

Inhibition of the histone demethylase LSD1 blocks α-herpesvirus lytic replication and reactivation from latency

Bacterial type IV secretion: conjugation systems adapted to deliver effector molecules to host cells

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