13 research outputs found

    Characterisation and internalisation of recombinant humanised HMFG-1 antibodies against MUC1

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    The humanised HMFG-1 immunoglobulin has been extensively developed as a clinical immunotherapeutic agent for MUC1 expressing tumours. We have constructed a single-chain Fv (scFv) and Fab fragment from this antibody and shown that both these species retain their specificity for MUC1. The scFv was less stable and less soluble than the Fab. Detailed analyses of the binding kinetics of the whole IgG and Fab fragment show that the affinity for MUC1 synthetic peptides is low (approximately 100 n for the IgG and 10 μ for the Fab), with particularly low but similar dissociation rate constants (0.031–0.095 sβˆ’1). Binding to native antigen on the cell surface is over two orders of magnitude better. Confocal immunofluorescence microscopy shows that both the IgG and Fab are internalised rapidly (the IgG is internalised within 15 min) and colocalise to early endosomes. This work provides an appreciation of the binding, internalising and trafficking kinetics, important for the development of future therapeutics based on this antibody

    Interferon-gamma (IFN-Ξ³) and prostaglandin E2(PGE2) regulate differently IL-12 production in human intestinal lamina propria mononuclear cells (LPMC)

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    IL-12 modulates Th1 immune response during chronic colitis. Mechanisms regulating IL-12 synthesis in human intestine are poorly understood. The aim of this study was to investigate the effect of IFN-Ξ³ and PGE2 on lipopolysaccharide (LPS)-stimulated LPMC IL-12 production. Normal LPMC cultures were run in the presence or absence of IFN-Ξ³ and/or PGE2 before LPS stimulation. To examine the role of endogenous PGE2 on LPS-stimulated IL-12 release, LPMC cultures were added of indomethacin before LPS stimulation. IL-12, IL-10 and IL-8 were measured by ELISA. No IL-12 was detected in either unstimulated or LPS-stimulated LPMC cultures. In contrast, LPMC released IL-8 (650 Β± 125 pg/ml) and IL-10 (75 Β± 25 pg/ml) in response to LPS. Treatment of LPMC with IFN-Ξ³ facilitated LPS-stimulated IL-12, whereas it completely abrogated IL-10 production. IL-12 release by LPMC stimulated with IFN-Ξ³ and LPS was significantly inhibited by exogenous IL-10. The addition of PGE2 to IFN-Ξ³-treated LPMC cultures inhibited in a dose-dependent manner LPS-induced IL-12 secretion. Furthermore, IL-12 was detectable (85 Β± 25 pg/ml) in the supernatants of LPMC cultures treated with indomethacin and LPS. In contrast to the effect on IL-12, PGE2 significantly augmented LPS-stimulated LPMC IL-10 production. However, the inhibition of IL-12 by PGE2 was only partially reversed by anti-IL-10. In a simplified model of LPS tolerance, we finally showed that monocyte-derived macrophages exhibited reduced IL-12 production after repeat LPS stimulation. In these cell cultures, indomethacin abrogated the induction of LPS desensitization. IFN-Ξ³ and PGE2 modulate differently the LPMC responsiveness to LPS in terms of IL-12 synthesis

    Enhanced prostaglandin E2 production by monocytes in atopic dermatitis (AD) is not accompanied by enhanced production of IL-6, IL-10 or IL-12

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    AD is associated with a bias of the T helper cells to show increased IL-4 and reduced interferon-gamma (IFN-Ξ³) production. The production of IFN-Ξ³ and IL-4 and the development of Th cells into either high IFN-Ξ³ or high IL-4 producers is strongly influenced by factors produced by antigen-presenting cells (APC), like IL-12 and prostaglandin E2 (PGE2). IL-12 selectively enhances IFN-Ξ³ production and favours the development of IFN-Ξ³-producing Th cells, whereas PGE2 selectively inhibits IFN-Ξ³ production by Th cells. The aim of this study was to test whether the increased IL-4/IFN-Ξ³ production ratio by Th cells in AD can be explained by an increased PGE2/IL-12 production ratio by the APC. Monocytes were used as APC source. PGE2 and IL-12 production by lipopolysaccharide (LPS)-stimulated monocytes from 12 AD patients and 12 non-atopic controls was determined using two complementary experimental systems, whole blood cultures and purified monocytes. In addition, we determined IL-6 production as a measure of monocyte activation, and IL-10 production because IL-12 production by monocytes is highly influenced by endogenously produced IL-10. The monocytes from AD patients showed normal production levels of IL-6 and IL-10, a two-fold, but non-significant decrease in IL-12 production, and a significantly (three-fold) higher PGE2 production than those from non-atopic controls. Here we show for the first time that enhanced PGE2 production by monocytes in AD is not accompanied by a general rise in cytokine production. We conclude that AD is indeed associated with an increased PGE2/IL-12 production ratio by monocytes
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