A. R. Moore scite author profile

A. R. Moore

5Publications

194Citation Statements Received

58Citation Statements Given

How they've been cited

257

167

How they cite others

108

Affiliations

The Wistar Institute, Fisheries and Oceans Canada, University of California, Berkeley

Publications

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Inhibition of IL-12 Production in Human Monocyte-Derived Macrophages by TNF

Sun

Papasavvas

et al. 2000

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IL-12 is a pivotal cytokine that links the innate and adaptive immune responses. TNF-α also plays a key role in orchestrating inflammation and immunity. The reciprocal influence of these two inflammatory mediators on each other may have significant impact on the cytokine balance that shapes the type and extent of immune responses. To investigate the relationship between TNF-α and IL-12 production, we analyzed the effects of exposure of human monocyte-derived macrophages to TNF-α on LPS- or Staphylococcus aureus-induced IL-12 production in the presence or absence of IFN-γ. TNF-α is a potent inhibitor of IL-12 p40 and p70 secretion from human macrophages induced by LPS or S. aureus. IL-10 is not responsible for the TNF-α-mediated inhibition of IL-12. TNF-α selectively inhibits IL-12 p40 steady-state mRNA, but not those of IL-12 p35, IL-1α, IL-1β, or IL-6. Nuclear run-on analysis identified this specific inhibitory effect at the transcriptional level for IL-12 p40 without down-regulation of the IL-12 p35 gene. The major transcriptional factors identified to be involved in the regulation of IL-12 p40 gene expression by LPS and IFN-γ, i.e., c-Rel, NF-κB p50 and p65, IFN regulatory factor-1, and ets-2, were not affected by TNF-α when examined by nuclear translocation and DNA binding. These data demonstrate a selective negative regulation on IL-12 by TNF-α, identifying a direct negative feedback mechanism for inflammation-induced suppression of IL-12 gene expression.

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Host cell invasion and intracellular residence byAeromonas salmonicida: Role of the S-layer

Garduño

Moore²,

Olivier³

et al. 2000

Can. J. Microbiol.

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Virulent strains of the fish pathogen Aeromonas salmonicida, which have surface S-layers (S+), efficiently adhere to, enter, and survive within macrophages. Here we report that S+ bacteria were 10- to 20-fold more adherent to non-phagocytic fish cell lines than S-layer-negative (S-) mutants. When reconstituted with exogenous S-layers, these S- mutants regained adherence. As well, latex beads coated with purified S-layers were more adherent to fish cell lines than uncoated beads, or beads coated with disorganized S-layers, suggesting that purified S-layers were sufficient to mediate high levels of adherence, and that this process relied on S-layer structure. Gentamicin protection assays and electron microscopy indicated that both S+ and S- A. salmonicida invaded non-phagocytic fish cells. In addition, these fish cells were unable to internalize S-layer-coated beads, clearly suggesting that the S-layer is not an invasion factor. Lipopolysaccharide (which is partially exposed in S+ bacteria) appeared to mediate invasion. Surprisingly, A. salmonicida did not show net growth inside fish cells cultured in the presence of gentamicin, as determined by viable bacterial cell counts. On the contrary, bacterial viability sharply decreased after cell infection. We thus concluded that the S-layer is an adhesin that promotes but does not mediate invasion of non-phagocytic fish cell lines. These cell lines should prove useful in studies aimed at characterizing the invasion mechanisms of A. salmonicida, but of limited value in studying the intracellular residence and replication of this invasive bacterium in vitro.

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Replication of infectious pancreatic necrosis virus in trout leucocytes and detection of the carrier state

Macdonald

Moore

1982

Journal of Fish Diseases

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The exact cellular site of replication of infectious pancreatic necrosis virus (IPNV) in carrier fish is unknown. In order to determine if IPNV replicates in trout leucocytes, we purified leucocytes from normal (non-carrier) trout and separated the cells into an adherent and a non-adherent population. IPNV replicated in less than 0-01 % of the adherent leucocytes with a yield of about 400 p.f.u./cell. IPNV also became associated with less than 0-07% of the non-adherent leucocytes; either IPNV did not replicate in these cells or the yield was, at best, only a few p.f.u./cell. Trout persistently infected with IPNV (carrier fish) were tested for the presence of IPNV in leucocytes by co-cultivating with a sensitive fish cell line; this same population of trout was also tested for IPNV by organ sampling using standard methods. Ninety-eight per cent of the trout were positive for IPNV by organ sampling, but only 75 % yielded IPNV from leucocytes. Thus a blood sample from a living fish can be used to detect the presence of IPNV.

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Host cell invasion and intracellular residence by <i>Aeromonas salmonicida</i>: Role of the S-layer

Garduño¹,

Moore²,

Olivier³

et al. 2000

Can. J. Microbiol.

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A colorimetric assay for the quantification of brook trout (Salvelinus fontinalis) lymphocyte mitogenesis

Daly

Moore

Olivier

1995

Fish & Shellfish Immunology

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A. R. Moore

Inhibition of IL-12 Production in Human Monocyte-Derived Macrophages by TNF

Host cell invasion and intracellular residence byAeromonas salmonicida: Role of the S-layer

Replication of infectious pancreatic necrosis virus in trout leucocytes and detection of the carrier state

Host cell invasion and intracellular residence by <i>Aeromonas salmonicida</i>: Role of the S-layer

A colorimetric assay for the quantification of brook trout (Salvelinus fontinalis) lymphocyte mitogenesis

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