L.M.G. Forsyth scite author profile

Signals derived from antigen-presenting cells (APC) influence the functional differentiation of CD4(+) T cells. We report here that Serrate1 (Jagged1), a ligand for the Notch1 receptor, may contribute to the differentiation of peripheral CD4(+) T cells into either helper or regulatory cells. Our findings demonstrate that antigen presented by murine APC overexpressing human Serrate1 induces naive peripheral CD4(+) T cells to become regulatory cells. These cells can inhibit primary and secondary immune responses, and transfer antigen-specific tolerance to recipient mice. Our results show that Notch signalling may help explain 'linked' suppression in peripheral tolerance, whereby tolerance induced to one epitope encompasses all epitopes on that antigen during the course of an immune response.

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Tissue Damage in Cattle Infected withTheileria annulataAccompanied by Metastasis of Cytokine-producing, Schizont-infected Mononuclear Phagocytes

Forsyth

Minns

Kirvar

et al. 1999

Journal of Comparative Pathology

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The Evaluation of Partnership Working in the Delivery of Health and Social Care

Ball

Forbes

Parris

et al. 2010

Public Policy and Administration

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Recent Government policy in the UK has resulted in a rapid growth of partnership working. This has lead to a need for the evaluation of partnership performance, particularly in the area of health and social care partnerships. Methodologies were developed to evaluate progress on both 'process' and 'outcome' aspects of partnership working and this was applied to evaluating the performance of three Community Health Partnerships in Central Scotland. Results obtained demonstrate that the methodology is capable of discriminating between the performance of different partnerships and also between different aspects of partnership working.

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Induction of Tolerance via the Respiratory Mucosa

Lowrey

Savage

Palliser

et al. 1998

Int Arch Allergy Immunol

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Immunological tolerance is defined as a state of specific non-responsiveness to a particular antigen induced by previous exposure to that same antigen. The mucosal surfaces comprise the upper and lower respiratory tracts, the gastrointestinal tract and the urogenitary tract, and are a major site of antigenic challenge. The immune system associated with the mucosa has the extraordinary potential to discriminate between antigens that are harmless (e.g. inhaled and dietary antigens) and those that are associated with pathogens. Normally soluble proteins delivered through the mucosal surfaces do not elicit a strong systemic immune response but instead induce a transient local immune response that is replaced by long-term peripheral unresponsiveness – this is termed mucosal tolerance. The phenomenon of oral tolerance is well established and considerable attention has focussed on defining the underlying mechanisms. However, only comparatively recently was the induction of tolerance via the respiratory mucosa described, and it is this form of mucosal tolerance which forms the basis of this review.

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Untitled

Forsyth

Jackson

Wilkie³

et al. 1997

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Bovine cells from cattle infected with Theileria annulata were phenotyped with monoclonal antibodies recognizing bovine leukocyte antigens. Macroschizont-infected, transformed cell lines prepared from peripheral blood mononuclear cells of cattle, infected with sporozoites, were assessed by flow cytometry; parasitized cells in tissues from infected cattle were examined by immunocytochemical techniques. Co-expression of markers for different cell lineages by the cell lines precluded a definite conclusion as to their phenotypic origins. For, while the pattern of leukocyte antigens expressed by these in vivo-derived schizont-infected cells, which included CD11b, was indicative of a myeloid origin, the possibility that they were NK cells could not be excluded. The monoclonal antibody (MAb) IL-A15, which recognizes CD11b, reacted with a high proportion of parasitized cells in sections of tissues from infected cattle at all stages of acute disease. Mononuclear cells infected with parasites at all stages of differentiation, from macroschizont to microschizont, expressed CD11b. Such parasitized cells occurred throughout the lymphoid tissues, being found in the thymus, spleen and lymph nodes, particularly the prescapular node draining the site of infection, the hepatic, mesenteric and precrural nodes, as well as in the reticulo-endothelial tissue of the liver, kidney, lung, abomasum, adrenal and pituitary glands. These observations provided the first evidence for a myeloid origin for the parasitized T. annulata cells found in infected bovine tissues and blood and suggested a mechanism whereby schizonts could transfer from cell to cell during mechanical infection with schizont-infected cells.

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Protective Immune Responses toTheileria Annulata of Relevance to Vaccine Development

Preston

Visser

Abraham

et al. 1997

Trop Anim Health Prod

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Allergen-derived T-cell peptide immunotherapy in allergic asthmatic individuals is associated with induction of CD4+ IFN-gamma+/CD4+CD25+ T cells and enhanced expression of TGF-beta and Notch-1 ligands at sites of cutaneous allergen challenge

Alexander¹,

Barkans²,

Forsyth³

et al. 2003

Journal of Allergy and Clinical Immunology

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Untitled

Richardson

Forsyth

Brown

et al. 1998

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The proliferation of Theileria annulata macroschizont-infected cell lines in vitro was significantly inhibited by nitric oxide (NO) generated by S-nitroso-N-acetyl-DL-penicillamine (SNAP). Incubation with SNAP caused the macroschizonts to disappear and host cells to become apoptotic. SNAP-derived NO also significantly inhibited the incorporation of tritiated thymidine by cultures of cells in which the schizonts had been induced to differentiate into merozoites by maintenance at 41 degrees C instead of 37 degrees C, the temperature used for culturing macroschizont-infected cells. These results point to NO as the mediator of macrophage anti-T. annulata activity and provide new evidence that the protective immune mechanisms which allow cattle to recover from primary infection and resist challenge may be attributed principally to the products of activated macrophages. These findings indicate that effective inactivated vaccines against T. annulata should include antigens able to stimulate the type of CD4+ T cell response which elicits macrophage activation and NO synthesis.

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L.M.G. Forsyth

Serrate1-induced Notch signalling regulates the decision between immunity and tolerance made by peripheral CD4+ T cells

Tissue Damage in Cattle Infected withTheileria annulataAccompanied by Metastasis of Cytokine-producing, Schizont-infected Mononuclear Phagocytes

The Evaluation of Partnership Working in the Delivery of Health and Social Care

Induction of Tolerance via the Respiratory Mucosa

Untitled

Protective Immune Responses toTheileria Annulata of Relevance to Vaccine Development

Allergen-derived T-cell peptide immunotherapy in allergic asthmatic individuals is associated with induction of CD4+ IFN-gamma+/CD4+CD25+ T cells and enhanced expression of TGF-beta and Notch-1 ligands at sites of cutaneous allergen challenge

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