Your search keyword '"Dutton, Emma E"' showing total 3 results

1. Th1 responses in vivo require cell-specific provision of OX40L dictated by environmental cues.

Author

Gajdasik DW, Gaspal F, Halford EE, Fiancette R, Dutton EE, Willis C, Rückert T, Romagnani C, Gerard A, Bevington SL, MacDonald AS, Botto M, Vyse T, and Withers DR

Subjects

Animals, Cell Communication, Cues, Dendritic Cells drug effects, Dendritic Cells metabolism, Humans, Interferon-gamma biosynthesis, Interleukin-12 pharmacology, Intestines cytology, Ki-1 Antigen metabolism, Killer Cells, Natural drug effects, Killer Cells, Natural metabolism, Listeria monocytogenes physiology, Mice, Inbred C57BL, Receptors, CXCR5 metabolism, Receptors, OX40 metabolism, Spleen metabolism, Up-Regulation drug effects, Cellular Microenvironment, OX40 Ligand metabolism, Th1 Cells immunology

Abstract

The OX40-OX40L pathway provides crucial co-stimulatory signals for CD4 T cell responses, however the precise cellular interactions critical for OX40L provision in vivo and when these occur, remains unclear. Here, we demonstrate that provision of OX40L by dendritic cells (DCs), but not T cells, B cells nor group 3 innate lymphoid cells (ILC3s), is critical specifically for the effector Th1 response to an acute systemic infection with Listeria monocytogenes (Lm). OX40L expression by DCs is regulated by cross-talk with NK cells, with IFNγ signalling to the DC to enhance OX40L in a mechanism conserved in both mouse and human DCs. Strikingly, DC expression of OX40L is redundant in a chronic intestinal Th1 response and expression by ILC3s is necessary. Collectively these data reveal tissue specific compartmentalisation of the cellular provision of OX40L and define a mechanism controlling DC expression of OX40L in vivo.

Published

2020

2. Natural Th17 cells are critically regulated by functional medullary thymic microenvironments.

Author

Jenkinson WE, McCarthy NI, Dutton EE, Cowan JE, Parnell SM, White AJ, and Anderson G

Subjects

Animals, Autoimmunity immunology, Cell Differentiation, Humans, Immune Tolerance, Mice, Mice, Inbred BALB C, Thymus Gland embryology, Thymus Gland immunology, Cellular Microenvironment immunology, Th17 Cells immunology, Th17 Cells metabolism, Thymus Gland metabolism

Abstract

The thymic medulla is critical for the enforcement of central tolerance. In addition to deletion of auto-reactive T-cells, the thymic medulla supports the maturation of heterogeneous natural αβT-cells linked to tolerance mechanisms. Natural IL-17-secreting CD4(+)αβT-cells (nTh17) represent recently described natural αβT-cells that mature and undergo functional priming intrathymically. Despite a proposed potential to impact upon either protective or pathological inflammatory responses, the intrathymic mechanisms regulating the balance of nTh17 development are unclear. Here we compare the development of distinct natural αβT-cells in the thymus. We reveal that thymic stromal MHC class II expression and RelB-dependent medullary thymic epithelial cells (mTEC), including Aire(+) mTEC, are an essential requirement for nTh17 development. nTh17 demonstrate a partial, non-redundant requirement for both ICOS-ligand and CD80/86 costimulation, with a dispensable role for CD80/86 expression by thymic epithelial cells. Although mTEC constitutively expressed inducible nitric oxide synthase (iNOS), a critical negative regulator of conventional Th17 differentiation, iNOS was not essential to constrain thymic nTh17. These findings highlight the critical role of the thymic medulla in the differential regulation of novel natural αβT-cell subsets, and reveal additional layers of thymic medullary regulation of T-cell driven autoimmunity and inflammation., (Copyright © 2015 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2015

3. Natural Th17 cells are critically regulated by functional medullary thymic microenvironments

Author

Jenkinson, William E., McCarthy, Nicholas I., Dutton, Emma E., Cowan, Jennifer E., Parnell, Sonia M., White, Andrea J., and Anderson, Graham

Subjects

FTOC, fetal thymic organ culture, Central tolerance, dGuO, 2-deoxyguanosine, Immunology, SP4, single positive CD4+8− thymocyte, Autoimmunity, Thymus Gland, Article, Mice, Aire, autoimmune regulator, Immune Tolerance, Animals, Humans, Immunology and Allergy, nTh17, natural T helper 17, nTh17, mTEC, medullary TEC, Mice, Inbred BALB C, nTreg, natural T regulatory, T cell, Cell Differentiation, Thymus, Cellular Microenvironment, Aire, Thymic epithelium, iNKT, invariant natural killer T, iNOS, inducible nitric oxide synthase, Th17 Cells, TEC, thymic epithelial cell

Abstract

The thymic medulla is critical for the enforcement of central tolerance. In addition to deletion of auto-reactive T-cells, the thymic medulla supports the maturation of heterogeneous natural αβT-cells linked to tolerance mechanisms. Natural IL-17-secreting CD4+αβT-cells (nTh17) represent recently described natural αβT-cells that mature and undergo functional priming intrathymically. Despite a proposed potential to impact upon either protective or pathological inflammatory responses, the intrathymic mechanisms regulating the balance of nTh17 development are unclear. Here we compare the development of distinct natural αβT-cells in the thymus. We reveal that thymic stromal MHC class II expression and RelB-dependent medullary thymic epithelial cells (mTEC), including Aire+ mTEC, are an essential requirement for nTh17 development. nTh17 demonstrate a partial, non-redundant requirement for both ICOS-ligand and CD80/86 costimulation, with a dispensable role for CD80/86 expression by thymic epithelial cells. Although mTEC constitutively expressed inducible nitric oxide synthase (iNOS), a critical negative regulator of conventional Th17 differentiation, iNOS was not essential to constrain thymic nTh17. These findings highlight the critical role of the thymic medulla in the differential regulation of novel natural αβT-cell subsets, and reveal additional layers of thymic medullary regulation of T-cell driven autoimmunity and inflammation., Highlights • Thymic stromal MHC class II regulates intrathymic nTh17. • RelB-dependent medullary thymic epithelium is critical for nTh17 development. • Aire and B7 family costimulatory ligands regulate thymic nTh17. • Medullary thymic epithelium constitutively expresses iNOS. • iNOS is not essential for regulation of thymic nTh17.