Linley M. Fray scite author profile

Bacteria used in commercial probiotic preparations are most commonly gram-positive lactic acid-producing species, although there are also some probiotic products which utilise gram-negative coliform bacteria. Characterising how the innate immune system responds to these bacteria in vitro may give an indication as to the likely immunomodulatory events that can be triggered following probiotic administration in vivo. Here, an established gram-positive probiotic (Lactobacillus casei Shirota) was compared against a novel gram-negative probiotic strain (Escherichia coli Nissle 1917) for its ability to induce cytokine production in a cell type representative of the innate immune system; in addition, responses were contrasted against those induced by an enteropathogenic coliform, E. coli 2282. We investigated the ability of these three bacterial strains to modulate production of interleukins-10, -12 and -18; tumour necrosis factor-alpha; interferon-alpha; and transforming growth factor-beta, via a series of in vitro culture experiments involving the murine monocyte/macrophage cell line J774A.1. All bacteria induced marked secretion of IL-12 and TNFalpha by cells, while only coliforms induced production of IL-10; there was minimal or no induction of IL-18 or TGFbeta. Activation of cells with recombinant gamma-interferon promoted increased production of IL-12, but decreased production of IL-10, in response to the co-culture of coliform bacteria, indicating differential cytokine induction depending on the activation status of the target cell. In general, live bacteria stimulated higher levels of IL-10, IL-12 and TNFalpha secretion than heat-killed preparations, while only live coliforms induced IFNalpha. These findings are discussed in relation to the likely immunomodulatory effects of gram-positive and gram-negative bacteria on the innate immune system in vivo, with particular emphasis on the marked similarity in cytokine response patterns observed between probiotic versus pathogenic coliform bacteria.

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Activation of endogenous opioid gene expression in human keratinocytes and fibroblasts by pulsed radiofrequency energy fields

Moffett¹,

Fray²,

Kubat³

2012

JPR

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BackgroundPulsed radiofrequency energy (PRFE) fields are being used increasingly for the treatment of pain arising from dermal trauma. However, despite their increased use, little is known about the biological and molecular mechanism(s) responsible for PRFE-mediated analgesia. In general, current therapeutics used for analgesia target either endogenous factors involved in inflammation, or act on endogenous opioid pathways.Methods and ResultsUsing cultured human dermal fibroblasts (HDF) and human epidermal keratinocytes (HEK), we investigated the effect of PRFE treatment on factors, which are involved in modulating peripheral analgesia in vivo. We found that PRFE treatment did not inhibit cyclooxygenase enzyme activity, but instead had a positive effect on levels of endogenous opioid precursor mRNA (proenkephalin, pro-opiomelanocortin, prodynorphin) and corresponding opioid peptide. In HEK cells, increases in opioid mRNA were dependent, at least in part, on endothelin-1. In HDF cells, additional pathways also appear to be involved. PRFE treatment was also followed by changes in endogenous expression of several cytokines, including increased levels of interleukin-10 mRNA and decreased levels of interleukin-1β mRNA in both cell types.ConclusionThese findings provide a new insight into the molecular mechanism underlying PRFE-mediated analgesia reported in the clinical setting.

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Daily supplementation with aged garlic extract, but not raw garlic, protects low density lipoprotein against in vitro oxidation

et al. 1999

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Effect of Flavone Acetic Acid on Lewis Lung Carcinoma: Evidence for an Indirect Effect1

Finlay¹,

Smith²,

Fray³

et al. 1988

JNCI Journal of the National Cancer Institute

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Flavone-8-acetic acid (FAA), a new antitumor agent currently undergoing clinical trial, fails to inhibit the growth of early stage Lewis lung (LL) tumors growing in the lung. However, the growth of advanced subcutaneous tumors, arising from inoculation of either the original in vivo LL line or a tissue culture-adapted cell line (LLTC) derived from the LL line was delayed significantly by FAA treatment. Comparison, by clonogenic survival assays, of the cytotoxic effect of FAA on LLTC cells demonstrated that most cell killing occurred between 2 and 8 hours following in vivo exposure but occurred to a much lesser extent and at later times following in vitro exposure. FAA was inactive against LLTC cells growing in vivo in diffusion chambers, suggesting that a host cellular component was necessary for activity. FAA was found to induce hemorrhagic necrosis in the advanced LL tumors, as well as in a number of human tumor xenografts growing in athymic mice. The human cell lines from which the xenografts were derived, as well as the LL tumor lines and P388 leukemia lines, were inhibited by FAA in vitro. However, the ranking of FAA activity in vivo did not parallel that observed in vitro. Together, these observations strongly suggest that FAA has an indirect mode of antitumor action.

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Cellular responses and Mycobacterium bovis BCG growth inhibition by bovine lymphocytes

1997

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Summary Cellular responses of a group of cattle immunized subcufaneously with a low dose of Mycobacterium bovis bacille Calmette-Guerin vaccine (BCG) were measured in vitro and compared with nonimmunized control animals. PBMC taken from immunized animals proliferated and produced IFN-y in the presence of M. bovis BCG culture filtrate proteins. The addition of PBMC from immunized animals to M. bovis BCG-infected autologous macrophages also resulted in secretion of IFN-y. In contrast, the responses of PBMC from control animals were comparatively low over the period of study. In experiments to study the interaction of non-adherent lymphocytes with infected macrophages, M. bovis BCG growth was inhibited in cultures containing autologous PBMC from immunized and non-immunized control animals. The degree of inhibition was related to lymphocyte concentration but did not correlate with IFN-y production. Treatment of macrophages with recombinant IFN-y prior to, or postinfection did not alter the intracellular growth kinetics of mycobacferia. It appears, fherefore, that although M. bovis BCG immunization of cattle stimulates the generation of a T cell-mediated immune response to M. bovis BCG, the cattle may already possess a high level of innate resistance to M. bovis BCG that requires the presence of lymphocytes.

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Linley M. Fray

Patterns of cytokine induction by gram-positive and gram-negative probiotic bacteria

Activation of endogenous opioid gene expression in human keratinocytes and fibroblasts by pulsed radiofrequency energy fields

Daily supplementation with aged garlic extract, but not raw garlic, protects low density lipoprotein against in vitro oxidation

Effect of Flavone Acetic Acid on Lewis Lung Carcinoma: Evidence for an Indirect Effect1

Cellular responses and Mycobacterium bovis BCG growth inhibition by bovine lymphocytes

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