Robin Soper scite author profile

Cytokines orchestrate the tumor-promoting interplay between malignant cells and the immune system. In many experimental and human cancers, the cytokine TNF-α is an important component of this interplay, but its effects are pleiotropic and therefore remain to be completely defined. Using a mouse model of ovarian cancer in which either TNF receptor 1 (TNFR1) signaling was manipulated in different leukocyte populations or TNF-α was neutralized by antibody treatment, we found that this inflammatory cytokine maintained TNFR1-dependent IL-17 production by CD4 + cells and that this led to myeloid cell recruitment into the tumor microenvironment and enhanced tumor growth. Consistent with this, in patients with advanced cancer, treatment with the TNF-α-specific antibody infliximab substantially reduced plasma IL-17 levels. Furthermore, expression of IL-1R and IL-23R was downregulated in CD4 + CD25 -cells isolated from ascites of ovarian cancer patients treated with infliximab. We have also shown that genes ascribed to the Th17 pathway map closely with the TNF-α signaling pathway in ovarian cancer biopsy samples, showing particularly high levels of expression of genes encoding IL-23, components of the NF-κB system, TGF-β1, and proteins involved in neutrophil activation. We conclude that chronic production of TNF-α in the tumor microenvironment increases myeloid cell recruitment in an IL-17-dependent manner that contributes to the tumor-promoting action of this proinflammatory cytokine.

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ADAM8 as a drug target in pancreatic cancer

Schlomann

et al. 2015

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Pancreatic ductal adenocarcinoma (PDAC) has a grim prognosis with less than 5% survivors after 5 years. High expression levels of ADAM8, a metalloprotease-disintegrin, are correlated with poor clinical outcome. We show that ADAM8 expression is associated with increased migration and invasiveness of PDAC cells caused by activation of ERK 1/2 and higher MMP activities. For biological function, ADAM8 requires multimerisation and associates with β1-integrin on the cell surface. A peptidomimetic ADAM8 inhibitor, BK-1361, designed by structural modelling of the disintegrin domain, prevents ADAM8 multimerisation. In PDAC cells, BK-1361 affects ADAM8 function leading to reduced invasiveness, and less ERK 1/2 and MMP activation. BK-1361 application in mice decreased tumour burden and metastasis of implanted pancreatic tumour cells and provides improved metrics of clinical symptoms and survival in a KrasG12D-driven mouse model of PDAC. Thus, our data integrate ADAM8 in pancreatic cancer signalling and validate ADAM8 as a target for PDAC therapy.

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Up for Mischief? IL-17/Th17 in the tumour microenvironment

2010

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The role of IL-17 and the IL-17 producing Th17 cells in cancer has recently become the focus of extensive investigation. An expanding body of literature implicate Th17 cells and their hallmark cytokine in both pro and anti-tumourigenic processes. In this review we describe their biological activities and outline the reciprocal interactions between Th17 cells and other cells of the immune system. We also discuss the evidence regarding their dual role in the tumour microenvironment. An understanding of the processes that regulate the pro or anti-tumour activities of Th17 cell and IL-17 will allow the development of more effective means for cancer immunotherapy.

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Determination of the urinary aglycone metabolites of vitamin K by HPLC with redox-mode electrochemical detection

Harrington

Soper

Edwards

et al. 2005

Journal of Lipid Research

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We describe a method for the determination of the two major urinary metabolites of vitamin K as the methyl esters of their aglycone structures, 2-methyl-3-(3 -3 -carboxymethylpropyl)-1,4-naphthoquinone (5C-aglycone) and 2-methyl-3-(5 -carboxy-3 -methyl-2 -pentenyl)-1,4-naphthoquinone (7C-aglycone), by HPLC with electrochemical detection (ECD) in the redox mode. Urinary salts were removed by reversedphase (C 18 ) solid-phase extraction (SPE), and the predominantly conjugated vitamin K metabolites were hydrolyzed with methanolic HCl. The resulting carboxylic acid aglycones were quantitatively methylated with diazomethane and fractionated by normal-phase (silica) SPE. Final analysis was by reversed-phase (C 18 ) HPLC with a methanol-aqueous mobile phase. Metabolites were detected by amperometric, oxidative ECD of their quinol forms, which were generated by postcolumn coulometric reduction at an upstream electrode. The assay gave excellent linearity (typically, r 2 у 0.999) and high sensitivity with an on-column detection limit of Ͻ 3.5 fmol ( Ͻ 1 pg). The interassay precision was typically 10%. Metabolite recovery was compared with that of an internal standard [2-methyl-3-(7 -carboxy-heptyl)-1,4-naphthoquinone] added to urine samples just before analysis. Using this methodology, we confirmed that the 5C-and 7C-aglycones were major catabolites of both phylloquinone (vitamin K 1 ) and menaquinones (vitamin K 2 ) in humans. We propose that the measurement of urinary vitamin K metabolite excretion is a candidate noninvasive marker of total vitamin K status. -Harrington, D. J., R. Soper, C. Edwards, G. F. Savidge, S. J. Hodges, and M. J. Shearer. Determination of the urinary aglycone metabolites of vitamin K by HPLC with redox-mode electrochemical detection. J. Lipid Res.

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Role of aquaporin-4 in the development of brain oedema in liver failure

Wright

Soper²,

Brooks

et al. 2010

Journal of Hepatology

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Robin Soper

The tumor-promoting actions of TNF-α involve TNFR1 and IL-17 in ovarian cancer in mice and humans

ADAM8 as a drug target in pancreatic cancer

Up for Mischief? IL-17/Th17 in the tumour microenvironment

Determination of the urinary aglycone metabolites of vitamin K by HPLC with redox-mode electrochemical detection

Role of aquaporin-4 in the development of brain oedema in liver failure

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