SummaryRecent studies suggest that the sterol metabolic network participates in the interferon (IFN) antiviral response. However, the molecular mechanisms linking IFN with the sterol network and the identity of sterol mediators remain unknown. Here we report a cellular antiviral role for macrophage production of 25-hydroxycholesterol (cholest-5-en-3β,25-diol, 25HC) as a component of the sterol metabolic network linked to the IFN response via Stat1. By utilizing quantitative metabolome profiling of all naturally occurring oxysterols upon infection or IFN-stimulation, we reveal 25HC as the only macrophage-synthesized and -secreted oxysterol. We show that 25HC can act at multiple levels as a potent paracrine inhibitor of viral infection for a broad range of viruses. We also demonstrate, using transcriptional regulatory-network analyses, genetic interventions and chromatin immunoprecipitation experiments that Stat1 directly coupled Ch25h regulation to IFN in macrophages. Our studies describe a physiological role for 25HC as a sterol-lipid effector of an innate immune pathway.
We examined the transcription and splicing of open reading frames (ORFs) 71 (K13)-74 of human herpesvirus-8 (HHV-8) in the primary effusion lymphoma cell line BCP-1 (latently infected with HHV-8), using a combination of NORTHERN blot analysis, RT-PCR, and rapid amplification of cDNA ends (PCR-RACE). The three genes encoded by ORFs 71, 72, and 73 [viral FLICE inhibitory protein (v-FLIP), v-cyclin, latent nuclear antigen (LNA)] are transcribed from a common transcription start site in BCP-1 cells uninduced (latent) or induced (lytic) with n-butyrate. The resulting transcript is spliced to yield a 5.32-kb message encoding LNA, v-cyclin, and v-FLIP and a 1.7-kb bicistronic message encoding v-cyclin and v-FLIP. The two genes encoded by ORFs K14 and 74 (v-Ox2 and v-GPCR) are transcribed as a 2.7-kb bicistronic transcript that is induced with n-butyrate. A small (149-bp) intron is spliced from the intragenic noncoding region immediately before the v-GPCR initiating codon. Examination of sequence elements in the promoter of the LNA/v-cyclin/v-FLIP operon revealed TAATGARAT and Octamer binding motifs characteristic of herpesvirus immediate-early genes. Sequence elements in the v-Ox2/v-GPCR promoter included AP1 and Zta-like (EBV Zebra transactivator) binding motifs consistent with the n-butyrate induction of this operon.
RNase P is an essential enzyme that is required for the biosynthesis of tRNA. It is composed of RNA and protein subunits. The RNA subunit of the enzyme derived from eubacterial sources can carry out the catalytic function by itself in vitro. Current studies of RNase P focus on structure-function relationships with respect to interactions of the RNA subunit with its substrates and with respect to the determination of the kinetic parameters of the reaction, the role of the protein component, and the rules governing recognition of substrates.
We have produced a plasmid expression vector for the coat protein of RNA bacteriophage MS2. The vector has been modified to introduce a unique Kpni restriction site within the coat protein gene at a site corresponding to the most radially distant feature of the bacteriophage capsid, namely the top of the N-terminal fl-hairpin (between residues 15 and 16). Insertion of DNA oligonucleotides at this site allows the production of chimeric MS2 coat proteins having foreign peptide sequences expressed as the central part of the hairpin. We have produced chimeras with a number of different peptide sequences (up to 24 amino acids in length) chosen because of their known antigenic properties. The chimeric coat proteins self-assemble into largely RNAfree phage-like capsids in Escherichia coli and can be easily disassembled and reassembled in vitro. Such peptide-presenting particles may have a number of biotechnological applications, including use as a costeffective, synthetic vaccine. We have tested the antigenicity of one such construct in vivo in mice and have shown that these particles are immunogenic and that antibody titres against the inserted peptide epitope can be obtained.
We have assayed a variety of 7tm chemokine receptors (CCR-2b, CCR-3, CCR-4, CCR-5, CXCR-1, CXCR-4) and two orphan 7tm receptors (V28 and EBI.1) for their ability to allow infection of CD4-negative feline kidney CCC cells by the HIV-2 strains ROD/A and ROD/B. We found that ROD/B was able to use CXCR-4 transiently expressed in CCC cells, and infection by ROD/A was enhanced 15-fold in the presence of sCD4. Feline CCC cells also became permissive to ROD/B and ROD/A entry when transiently transfected with the chemokine receptor CCR-3 or the orphan 7tm receptor V2B, when cultured in the presence of sCD4. Entry of ROD/A into CCC cells expressing CCR-3 could be blocked by 800 ng/ml eotaxin, the natural ligand for CCR-3.
Kaposi's sarcoma-associated herpesvirus (KSHV or human herpesvirus 8) is a novel gammaherpesvirus implicated in the cause of Kaposi's sarcoma and certain malignancies of lymphatic origin. One of the candidate genes possibly involved in promoting tumor development is an open reading frame (ORF) with sequence similarity to human type D cyclin genes. This cyclin-like gene, when expressed in tissue culture cells, promotes phosphorylation and inactivation of the retinoblastoma tumor suppressor protein and thereby may result in deregulation of cell division control. We report here the biochemical characterization of this cyclin (KSHV-cyc) and the kinase activity that it elicits upon expression in tissue culture cells. We demonstrate that the kinase activity associated with KSHV-cyc is sensitive to the cdk inhibitor p27 (KIP) and due to activation of cdk6. However, in contrast to cdk6 activated by cellular type D cyclins, the cdk6 activated by KSHV-cyc is capable of phosphorylating not only the retinoblastoma protein but also histone H1. This finding implies that activation by KSHV-cyc alters the substrate preference of this cdk. This may have important physiological consequences in that the kinase activity triggered by this viral cyclin may abrogate cell cycle checkpoints in addition to those targeted by cellular cyclin D-cdk6 kinase.
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