Group 2 Innate Lymphoid Cells Are Critical for the Initiation of Adaptive T Helper 2 Cell-Mediated Allergic Lung Inflammation

[1]  W. Paul,et al.  Early signaling events that underlie fate decisions of naive CD4+ T cells toward distinct T‐helper cell subsets , 2013, Immunological reviews.

[2]  Eric Vivier,et al.  Innate lymphoid cells — a proposal for uniform nomenclature , 2013, Nature Reviews Immunology.

[3]  A. McKenzie,et al.  IL-33 citrine reporter mice reveal the temporal and spatial expression of IL-33 during allergic lung inflammation , 2012, European journal of immunology.

[4]  Fumio Takei,et al.  Retinoic-acid-receptor-related orphan nuclear receptor alpha is required for natural helper cell development and allergic inflammation. , 2012, Immunity.

[5]  B. Pulendran,et al.  New Paradigms in Type 2 Immunity , 2012, Science.

[6]  A. Luster,et al.  T cell homing to epithelial barriers in allergic disease , 2012, Nature Medicine.

[7]  Fumio Takei,et al.  Lung natural helper cells are a critical source of Th2 cell-type cytokines in protease allergen-induced airway inflammation. , 2012, Immunity.

[8]  H. Hammad,et al.  Cellular networks controlling Th2 polarization in allergy and immunity , 2012, F1000 biology reports.

[9]  Freddy Radtke,et al.  Rorα is essential for nuocyte development , 2011, Nature Immunology.

[10]  David Artis,et al.  Innate lymphoid cells promote lung-tissue homeostasis after infection with influenza virus , 2011, Nature Immunology.

[11]  Hergen Spits,et al.  Human IL-25- and IL-33-responsive type 2 innate lymphoid cells are defined by expression of CRTH2 and CD161 , 2011, Nature Immunology.

[12]  E. Wherry,et al.  TSLP promotes interleukin-3-independent basophil haematopoiesis and type 2 inflammation , 2011, Nature.

[13]  Ya-Jen Chang,et al.  Innate lymphoid cells mediate influenza-induced airway hyper-reactivity independently of adaptive immunity , 2011, Nature Immunology.

[14]  B. Ryffel,et al.  IL‐33‐activated dendritic cells are critical for allergic airway inflammation , 2011, European journal of immunology.

[15]  C. Lloyd,et al.  Functions of T cells in asthma: more than just TH2 cells , 2010, Nature Reviews Immunology.

[16]  R. Maizels,et al.  CD11c depletion severely disrupts Th2 induction and development in vivo , 2010, The Journal of experimental medicine.

[17]  D. Umetsu,et al.  The many paths to asthma: phenotype shaped by innate and adaptive immunity , 2010, Nature Immunology.

[18]  T. Kepler,et al.  The T helper type 2 response to cysteine proteases requires dendritic cell–basophil cooperation via ROS-mediated signaling , 2010, Nature Immunology.

[19]  David J. Erle,et al.  Systemically dispersed innate IL-13–expressing cells in type 2 immunity , 2010, Proceedings of the National Academy of Sciences.

[20]  W. Paul What determines Th2 differentiation, in vitro and in vivo? , 2010, Immunology and cell biology.

[21]  A. McKenzie,et al.  Nuocytes represent a new innate effector leukocyte that mediates type-2 immunity , 2010, Nature.

[22]  Tsutomu Takeuchi,et al.  Innate production of TH2 cytokines by adipose tissue-associated c-Kit+Sca-1+ lymphoid cells , 2009, Nature.

[23]  R. Locksley,et al.  IL‐18 and IL‐33 elicit Th2 cytokines from basophils via a MyD88‐ and p38α‐dependent pathway , 2009, Journal of leukocyte biology.

[24]  D. Koller,et al.  The Immunological Genome Project: networks of gene expression in immune cells , 2008, Nature Immunology.

[25]  Dustin E. Schones,et al.  Priming for T helper type 2 differentiation by interleukin 2-mediated induction of IL-4 receptor α chain expression , 2008, Nature Immunology.

[26]  S. Bromley,et al.  Orchestrating the orchestrators: chemokines in control of T cell traffic , 2008, Nature Immunology.

[27]  S. Jenkins,et al.  Full Development of Th2 Immunity Requires Both Innate and Adaptive Sources of CD1541 , 2008, The Journal of Immunology.

[28]  F. Takei,et al.  Unique subset of natural killer cells develops from progenitors in lymph node. , 2008, Blood.

[29]  N. Ishii,et al.  The Journal of Immunology Dendritic Cell Expression of OX40 Ligand Acts as a Costimulatory, Not Polarizing, Signal for Optimal Th2 Priming and Memory Induction In Vivo 1 , 2022 .

[30]  P. Krause,et al.  Prostaglandin E2 Is Generally Required for Human Dendritic Cell Migration and Exerts Its Effect via EP2 and EP4 Receptors1 , 2006, The Journal of Immunology.

[31]  H. D. Liggitt,et al.  Thymic stromal lymphopoietin as a key initiator of allergic airway inflammation in mice , 2005, Nature Immunology.

[32]  Melody A. Swartz,et al.  Dendritic-cell trafficking to lymph nodes through lymphatic vessels , 2005, Nature Reviews Immunology.

[33]  M. Willart,et al.  In vivo depletion of lung CD11c+ dendritic cells during allergen challenge abrogates the characteristic features of asthma , 2005, The Journal of experimental medicine.

[34]  T. Wynn,et al.  Opposing roles for IL‐13 and IL‐13 receptor α2 in health and disease , 2004 .

[35]  T. Wynn IL-13 effector functions. , 2003, Annual review of immunology.

[36]  S. Narumiya,et al.  Prostaglandin E2–EP4 signaling initiates skin immune responses by promoting migration and maturation of Langerhans cells , 2003, Nature Medicine.

[37]  F. Netter,et al.  Supplemental References , 2002, We Came Naked and Barefoot.

[38]  T. Luft,et al.  Functionally distinct dendritic cell (DC) populations induced by physiologic stimuli: prostaglandin E(2) regulates the migratory capacity of specific DC subsets. , 2002, Blood.

[39]  R. Förster,et al.  Prostaglandin E2 is a key factor for CCR7 surface expression and migration of monocyte-derived dendritic cells. , 2002, Blood.

[40]  E. Pearce,et al.  Cutting Edge: Th2 Response Induction by Dendritic Cells: A Role for CD401 , 2002, The Journal of Immunology.

[41]  Melissa A Brown,et al.  Regulation of IL‐4 production in mast cells: a paradigm for cell‐type‐specific gene expression , 2001, Immunological reviews.

[42]  T. Pawson,et al.  ICOS is essential for effective T-helper-cell responses , 2001, Nature.

[43]  D. J. Matthews,et al.  T1/St2-Deficient Mice Demonstrate the Importance of T1/St2 in Developing Primary T Helper Cell Type 2 Responses , 2000, The Journal of experimental medicine.

[44]  E. Wolf,et al.  CCR7 Coordinates the Primary Immune Response by Establishing Functional Microenvironments in Secondary Lymphoid Organs , 1999, Cell.

[45]  P. Ferrara,et al.  IL-13 induces serine phosphorylation of cPLA2 in mouse peritoneal macrophages leading to arachidonic acid and PGE2 production and blocks the zymosan-induced serine phosphorylation of cPLA2 and eicosanoid production. , 1999, Biochimica et biophysica acta.

[46]  D B Corry,et al.  Requirement for IL-13 independently of IL-4 in experimental asthma. , 1998, Science.

[47]  G. McKenzie,et al.  Impaired development of Th2 cells in IL-13-deficient mice. , 1998, Immunity.

[48]  Richard A Flavell,et al.  The Transcription Factor GATA-3 Is Necessary and Sufficient for Th2 Cytokine Gene Expression in CD4 T Cells , 1997, Cell.

[49]  W. Paul,et al.  IL-4 is required to generate and sustain in vivo IgE responses. , 1988, Journal of immunology.

[50]  H S Novey,et al.  Papain-induced asthma--physiological and immunological features. , 1979, The Journal of allergy and clinical immunology.

[51]  A. McKenzie,et al.  Innate IL-13-producing nuocytes arise during allergic lung inflammation and contribute to airways hyperreactivity. , 2012, The Journal of allergy and clinical immunology.