Peripheral Tissue Homing Receptor Control of Naïve, Effector, and Memory CD8 T Cell Localization in Lymphoid and Non-Lymphoid Tissues

T cell activation induces homing receptors that bind ligands on peripheral tissue vasculature, programing movement to sites of infection and injury. There are three major types of CD8 effector T cells based on homing receptor expression, which arise in distinct lymphoid organs. Recent publications indicate that naïve, effector, and memory T cell migration is more complex than once thought; while many effectors enter peripheral tissues, some re-enter lymph nodes (LN), and contain central memory precursors. LN re-entry can depend on CD62L or peripheral tissue homing receptors. Memory T cells in LN tend to express the same homing receptors as their forebears, but often are CD62Lneg. Homing receptors also control CD8 T cell tumor entry. Tumor vasculature has low levels of many peripheral tissue homing receptor ligands, but portions of it resemble high endothelial venules (HEV), enabling naïve T cell entry, activation, and subsequent effector activity. This vasculature is associated with positive prognoses in humans, suggesting it may sustain ongoing anti-tumor responses. These findings reveal new roles for homing receptors expressed by naïve, effector, and memory CD8 T cells in controlling entry into lymphoid and non-lymphoid tissues.

[1]  V. Engelhard,et al.  Peripheral Tissue Homing Receptors Enable T Cell Entry into Lymph Nodes and Affect the Anatomical Distribution of Memory Cells , 2013, The Journal of Immunology.

[2]  S. Bromley,et al.  Recirculating Memory T Cells Are a Unique Subset of CD4+ T Cells with a Distinct Phenotype and Migratory Pattern , 2013, The Journal of Immunology.

[3]  V. Sondak,et al.  12-Chemokine Gene Signature Identifies Lymph Node-like Structures in Melanoma: Potential for Patient Selection for Immunotherapy? , 2012, Scientific Reports.

[4]  Reinhold Förster,et al.  HEVs, lymphatics and homeostatic immune cell trafficking in lymph nodes , 2012, Nature Reviews Immunology.

[5]  L. Picker,et al.  Hidden Memories: Frontline Memory T Cells and Early Pathogen Interception , 2012, The Journal of Immunology.

[6]  C. Sautès-Fridman,et al.  The immune contexture in human tumours: impact on clinical outcome , 2012, Nature Reviews Cancer.

[7]  C. Slingluff,et al.  Immunotype and immunohistologic characteristics of tumor-infiltrating immune cells are associated with clinical outcome in metastatic melanoma. , 2012, Cancer research.

[8]  M. Goddard,et al.  Blocking lymphotoxin signaling abrogates the development of ectopic lymphoid tissue within cardiac allografts and inhibits effector antibody responses , 2012, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[9]  P. Allavena,et al.  Tertiary Intratumor Lymphoid Tissue in Colo-Rectal Cancer , 2011, Cancers.

[10]  Daniel T. Fisher,et al.  IL-6 trans-signaling licenses mouse and human tumor microvascular gateways for trafficking of cytotoxic T cells. , 2011, The Journal of clinical investigation.

[11]  Thomas Gebhardt,et al.  Different patterns of peripheral migration by memory CD4+ and CD8+ T cells , 2011, Nature.

[12]  Thomas Filleron,et al.  Human solid tumors contain high endothelial venules: association with T- and B-lymphocyte infiltration and favorable prognosis in breast cancer. , 2011, Cancer research.

[13]  T. Yeatman,et al.  Unique ectopic lymph node-like structures present in human primary colorectal carcinoma are identified by immune gene array profiling. , 2011, The American journal of pathology.

[14]  T. Curiel,et al.  CD73 has distinct roles in nonhematopoietic and hematopoietic cells to promote tumor growth in mice. , 2011, The Journal of clinical investigation.

[15]  M. Bevan Memory T cells as an occupying force , 2011, European journal of immunology.

[16]  R. Schreiber,et al.  Natural innate and adaptive immunity to cancer. , 2011, Annual review of immunology.

[17]  M. Burdick,et al.  Interferons Induce CXCR3-cognate Chemokine Production by Human Metastatic Melanoma , 2010, Journal of immunotherapy.

[18]  V. Engelhard,et al.  Tumor masses support naive T cell infiltration, activation, and differentiation into effectors , 2010, The Journal of experimental medicine.

[19]  V. Engelhard,et al.  CD8 T Cells Activated in Distinct Lymphoid Organs Differentially Express Adhesion Proteins and Coexpress Multiple Chemokine Receptors , 2010, The Journal of Immunology.

[20]  R. Webby,et al.  Dynamic T cell migration program provides resident memory within intestinal epithelium , 2010, The Journal of experimental medicine.

[21]  W. Paul,et al.  Mechanisms Underlying Lineage Commitment and Plasticity of Helper CD4+ T Cells , 2010, Science.

[22]  V. Engelhard,et al.  Mechanisms of Spatial and Temporal Development of Autoimmune Vitiligo in Tyrosinase-Specific TCR Transgenic Mice , 2010, The Journal of Immunology.

[23]  Baohui Xu,et al.  Expression of endothelia and lymphocyte adhesion molecules in bronchus-associated lymphoid tissue (BALT) in adult human lung , 2009, Respiratory research.

[24]  D. Jarrossay,et al.  Production of interleukin 22 but not interleukin 17 by a subset of human skin-homing memory T cells , 2009, Nature Immunology.

[25]  A. Bolstad,et al.  Blockade of lymphotoxin-beta receptor signaling reduces aspects of Sjögren's syndrome in salivary glands of non-obese diabetic mice , 2009, Arthritis research & therapy.

[26]  Si-young Song,et al.  GM-CSF and IL-4 synergistically trigger dendritic cells to acquire retinoic acid-producing capacity , 2009, International immunology.

[27]  K. Lam,et al.  An alpha4beta1 integrin antagonist decreases airway inflammation in ovalbumin-exposed mice. , 2009, European journal of pharmacology.

[28]  G. Getz,et al.  Lymphotoxin β receptor signaling promotes tertiary lymphoid organogenesis in the aorta adventitia of aged ApoE−/− mice , 2009, The Journal of experimental medicine.

[29]  F. Sallusto,et al.  CD40L+ CD4+ memory T cells migrate in a CD62P-dependent fashion into reactive lymph nodes and license dendritic cells for T cell priming , 2008, The Journal of experimental medicine.

[30]  R. Clark,et al.  Human squamous cell carcinomas evade the immune response by down-regulation of vascular E-selectin and recruitment of regulatory T cells , 2008, The Journal of experimental medicine.

[31]  V. Engelhard,et al.  Activated CD8 T Cells Redistribute to Antigen-Free Lymph Nodes and Exhibit Effector and Memory Characteristics1 , 2008, The Journal of Immunology.

[32]  M. Cybulsky,et al.  Getting to the site of inflammation: the leukocyte adhesion cascade updated , 2007, Nature Reviews Immunology.

[33]  A. Hamann,et al.  Long-Term Commitment to Inflammation-Seeking Homing in CD4+ Effector Cells1 , 2007, The Journal of Immunology.

[34]  Ronald N Germain,et al.  L-selectin-negative CCR7− effector and memory CD8+ T cells enter reactive lymph nodes and kill dendritic cells , 2007, Nature Immunology.

[35]  T. Kupper,et al.  T-Cell Distribution and Adhesion Receptor Expression in Metastatic Melanoma , 2007, Clinical Cancer Research.

[36]  James J. Campbell,et al.  Cutting Edge: Chemokine Receptor CCR4 Is Necessary for Antigen-Driven Cutaneous Accumulation of CD4 T Cells under Physiological Conditions1 , 2007, The Journal of Immunology.

[37]  Junliang Pan,et al.  DCs metabolize sunlight-induced vitamin D3 to 'program' T cell attraction to the epidermal chemokine CCL27 , 2007, Nature Immunology.

[38]  V. Engelhard,et al.  Dendritic Cell Immunization Route Determines Integrin Expression and Lymphoid and Nonlymphoid Tissue Distribution of CD8 T Cells1 , 2007, The Journal of Immunology.

[39]  W. Agace,et al.  Generation of gut‐homing T cells and their localization to the small intestinal mucosa , 2007, Immunological reviews.

[40]  Gang Wang,et al.  A Phase I Study on Adoptive Immunotherapy Using Gene-Modified T Cells for Ovarian Cancer , 2006, Clinical Cancer Research.

[41]  Z. Trajanoski,et al.  Type, Density, and Location of Immune Cells Within Human Colorectal Tumors Predict Clinical Outcome , 2006, Science.

[42]  T. Kupper,et al.  Dynamic programming of CD8+ T cell trafficking after live viral immunization. , 2006, Immunity.

[43]  R. Clark,et al.  Response to Comment on “The Vast Majority of CLA+ T Cells Are Resident in Normal Skin” , 2006, The Journal of Immunology.

[44]  J. Mora,et al.  T-cell homing specificity and plasticity: new concepts and future challenges. , 2006, Trends in immunology.

[45]  M. Mack,et al.  Gut-associated lymphoid tissue-primed CD4+ T cells display CCR9-dependent and -independent homing to the small intestine. , 2006, Blood.

[46]  S. Liao,et al.  Lymphoid organ development: from ontogeny to neogenesis , 2006, Nature Immunology.

[47]  P. Gimotty,et al.  Migration of cytotoxic T lymphocytes toward melanoma cells in three‐dimensional organotypic culture is dependent on CCL2 and CCR4 , 2006, European journal of immunology.

[48]  M. Kinouchi,et al.  Selective infiltration of CCR5+CXCR3+ T lymphocytes in human colorectal carcinoma , 2005, International journal of cancer.

[49]  S. Bromley,et al.  Chemokine receptor CCR7 guides T cell exit from peripheral tissues and entry into afferent lymphatics , 2005, Nature Immunology.

[50]  E. Butcher,et al.  Chemokine receptor CCR7 required for T lymphocyte exit from peripheral tissues , 2005, Nature Immunology.

[51]  Leo Lefrançois,et al.  Initial T cell frequency dictates memory CD8+ T cell lineage commitment , 2005, Nature Immunology.

[52]  P. Hensbergen,et al.  The CXCR3 Targeting Chemokine CXCL11 Has Potent Antitumor Activity In Vivo Involving Attraction of CD8+ T Lymphocytes But Not Inhibition of Angiogenesis , 2005, Journal of immunotherapy.

[53]  E. Kremmer,et al.  Dendritic cells govern induction and reprogramming of polarized tissue‐selective homing receptor patterns of T cells: important roles for soluble factors and tissue microenvironments , 2005, European journal of immunology.

[54]  D. A. Carlow,et al.  Inducing P-Selectin Ligand Formation in CD8 T Cells: IL-2 and IL-12 Are Active In Vitro but Not Required In Vivo1 , 2005, The Journal of Immunology.

[55]  H. Pircher,et al.  Complex Memory T-Cell Phenotypes Revealed by Coexpression of CD62L and CCR7 , 2005, Journal of Virology.

[56]  C. Blank,et al.  ICAM-1 Contributes to but Is Not Essential for Tumor Antigen Cross-Priming and CD8+ T Cell-Mediated Tumor Rejection In Vivo1 , 2005, The Journal of Immunology.

[57]  Curzio Rüegg,et al.  Homing phenotypes of tumor-specific CD8 T cells are predetermined at the tumor site by crosspresenting APCs. , 2005, Immunity.

[58]  J. Mora,et al.  Reciprocal and dynamic control of CD8 T cell homing by dendritic cells from skin- and gut-associated lymphoid tissues , 2005, The Journal of experimental medicine.

[59]  B. Malissen,et al.  Selective Generation of Gut‐Tropic T Cells in Gut‐Associated Lymphoid Tissues: Requirement for GALT Dendritic Cells and Adjuvant , 2004, Annals of the New York Academy of Sciences.

[60]  Si-young Song,et al.  Retinoic acid imprints gut-homing specificity on T cells. , 2004, Immunity.

[61]  Antonio Lanzavecchia,et al.  Chemokine Receptor Expression Identifies Pre–T Helper (Th)1, Pre–Th2, and Nonpolarized Cells among Human CD4+ Central Memory T Cells , 2004, The Journal of experimental medicine.

[62]  L. Lefrançois,et al.  Dynamics of blood-borne CD8 memory T cell migration in vivo. , 2004, Immunity.

[63]  R. Ward,et al.  Activated Primary and Memory CD8 T Cells Migrate to Nonlymphoid Tissues Regardless of Site of Activation or Tissue of Origin1 , 2004, The Journal of Immunology.

[64]  S. Rosen Ligands for L-selectin: homing, inflammation, and beyond. , 2004, Annual review of immunology.

[65]  J. Simon,et al.  Dendritic Cell Immunization Route Determines CD8+ T Cell Trafficking to Inflamed Skin: Role for Tissue Microenvironment and Dendritic Cells in Establishment of T Cell-Homing Subsets1 , 2004, The Journal of Immunology.

[66]  Youjin Lee,et al.  Priming of naive T cells inside tumors leads to eradication of established tumors , 2004, Nature Immunology.

[67]  V. Engelhard,et al.  Route of Immunization with Peptide-pulsed Dendritic Cells Controls the Distribution of Memory and Effector T Cells in Lymphoid Tissues and Determines the Pattern of Regional Tumor Control , 2003, The Journal of experimental medicine.

[68]  B. Malissen,et al.  Selective Generation of Gut Tropic T Cells in Gut-associated Lymphoid Tissue (GALT) , 2003, The Journal of experimental medicine.

[69]  Wolfgang Weninger,et al.  Selective imprinting of gut-homing T cells by Peyer's patch dendritic cells , 2003, Nature.

[70]  Baohui Xu,et al.  Lymphocyte Homing to Bronchus-associated Lymphoid Tissue (BALT) Is Mediated by L-selectin/PNAd, α4β1 Integrin/VCAM-1, and LFA-1 Adhesion Pathways , 2003, The Journal of experimental medicine.

[71]  W. Lesslauer,et al.  Ectopic LTαβ Directs Lymphoid Organ Neogenesis with Concomitant Expression of Peripheral Node Addressin and a HEV-restricted Sulfotransferase , 2003, The Journal of experimental medicine.

[72]  M. O. oude Egbrink,et al.  Tumor angiogenesis modulates leukocyte-vessel wall interactions in vivo by reducing endothelial adhesion molecule expression. , 2003, Cancer research.

[73]  Rustom Antia,et al.  Lineage relationship and protective immunity of memory CD8 T cell subsets , 2003, Nature Immunology.

[74]  David E. Misek,et al.  RANTES expression is a predictor of survival in stage I lung adenocarcinoma. , 2002, Clinical cancer research : an official journal of the American Association for Cancer Research.

[75]  B. Furie,et al.  P-, E-, and L-Selectin Mediate Migration of Activated CD8+ T Lymphocytes into Inflamed Skin1 , 2002, The Journal of Immunology.

[76]  Klaus Ley,et al.  Chemokines and chemokine receptors in leukocyte trafficking. , 2002, American journal of physiology. Regulatory, integrative and comparative physiology.

[77]  W. Park,et al.  Induction of the chemokine receptor CXCR3 on TCR‐stimulated T cells: dependence on the release from persistent TCR‐triggering and requirement for IFN‐γ stimulation , 2002, European journal of immunology.

[78]  L. Heinzerling,et al.  Fucosyltransferase VII-Deficient Mice with Defective E-, P-, and L-Selectin Ligands Show Impaired CD4+ and CD8+ T Cell Migration into the Skin, but Normal Extravasation into Visceral Organs1 , 2002, The Journal of Immunology.

[79]  E. Butcher,et al.  Rapid Acquisition of Tissue-specific Homing Phenotypes by CD4+ T Cells Activated in Cutaneous or Mucosal Lymphoid Tissues , 2002, The Journal of experimental medicine.

[80]  James J. Campbell,et al.  CC Chemokine Receptor (CCR)4 and the CCR10 Ligand Cutaneous T Cell–attracting Chemokine (CTACK) in Lymphocyte Trafficking to Inflamed Skin , 2001, The Journal of experimental medicine.

[81]  F. Luscinskas,et al.  IL-12, STAT4-Dependent Up-Regulation of CD4+ T Cell Core 2 β-1,6-n-Acetylglucosaminyltransferase, an Enzyme Essential for Biosynthesis of P-Selectin Ligands1 , 2001, The Journal of Immunology.

[82]  W. Park,et al.  A critical role for IL‐12 in CCR5 induction on T cell receptor‐triggered mouse CD4+ and CD8+ T cells , 2001, European journal of immunology.

[83]  L. Lefrançois,et al.  Preferential Localization of Effector Memory Cells in Nonlymphoid Tissue , 2001, Science.

[84]  Y. Ozaki,et al.  Correlation of tissue and plasma RANTES levels with disease course in patients with breast or cervical cancer. , 2001, Clinical cancer research : an official journal of the American Association for Cancer Research.

[85]  Alan D. Roberts,et al.  Activated Antigen-Specific CD8+ T Cells Persist in the Lungs Following Recovery from Respiratory Virus Infections1 , 2001, The Journal of Immunology.

[86]  Eric J. Kunkel,et al.  CCR7 Expression and Memory T Cell Diversity in Humans1 , 2001, The Journal of Immunology.

[87]  M. Siegelman,et al.  The CD44-initiated pathway of T-cell extravasation uses VLA-4 but not LFA-1 for firm adhesion. , 2000, The Journal of clinical investigation.

[88]  E. Bröcker,et al.  Strong expression of the lymphoattractant C‐X‐C chemokine Mig is associated with heavy infiltration of T cells in human malignant melanoma , 1999, The Journal of pathology.

[89]  F. Sallusto,et al.  Two subsets of memory T lymphocytes with distinct homing potentials and effector functions , 1999, Nature.

[90]  C. Cuff,et al.  Differential Induction of Adhesion Molecule and Chemokine Expression by LTα3 and LTαβ in Inflammation Elucidates Potential Mechanisms of Mesenteric and Peripheral Lymph Node Development , 1999, The Journal of Immunology.

[91]  K. Rajewsky,et al.  L‐selectin and β7 integrin synergistically mediate lymphocyte migration to mesenteric lymph nodes , 1998 .

[92]  R. Jain,et al.  Mice Lacking E‐Selection Show Normal Numbers of Rolling Leukocytes but Reduced Leukocyte Stable Arrest on Cytokine‐Activated Microvascular Endothelium , 1998, Microcirculation.

[93]  E. Butcher,et al.  Homing of naive and memory T lymphocyte subsets to Peyer's patches, lymph nodes, and spleen. , 1997, Journal of immunology.

[94]  E. Berg,et al.  A fundamental subdivision of circulating lymphocytes defined by adhesion to mucosal addressin cell adhesion molecule-1. Comparison with vascular cell adhesion molecule-1 and correlation with beta 7 integrins and memory differentiation. , 1996, Journal of immunology.

[95]  L. Picker,et al.  Lymphocyte Homing and Homeostasis , 1996, Science.

[96]  A. Campos-Neto,et al.  Chronic inflammation caused by lymphotoxin is lymphoid neogenesis , 1996, The Journal of experimental medicine.

[97]  R. Figlin,et al.  In vivo trafficking of adoptively transferred interleukin-2 expanded tumor-infiltrating lymphocytes and peripheral blood lymphocytes. Results of a double gene marking trial. , 1996, The Journal of clinical investigation.

[98]  G. Vachino,et al.  P-selectin Glycoprotein Ligand-1 Is the Major Counter-receptor for P-selectin on Stimulated T Cells and Is Widely Distributed in Non-functional Form on Many Lymphocytic Cells * , 1995, The Journal of Biological Chemistry.

[99]  E. Berg,et al.  α4 integrins mediate lymphocyte attachment and rolling under physiologic flow , 1995, Cell.

[100]  E. Butcher,et al.  Role of alpha 4-integrins in lymphocyte homing to mucosal tissues in vivo. , 1994, Journal of immunology.

[101]  E. Berg,et al.  The cutaneous lymphocyte antigen is a skin lymphocyte homing receptor for the vascular lectin endothelial cell-leukocyte adhesion molecule 1 , 1991, The Journal of experimental medicine.

[102]  S. Rosenberg,et al.  In vivo distribution of adoptively transferred indium-111-labeled tumor infiltrating lymphocytes and peripheral blood lymphocytes in patients with metastatic melanoma. , 1989, Journal of the National Cancer Institute.

[103]  S M Larson,et al.  Tumor localization of adoptively transferred indium-111 labeled tumor infiltrating lymphocytes in patients with metastatic melanoma. , 1989, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[104]  P. Gimotty,et al.  Endothelin B receptor mediates the endothelial barrier to T cell homing to tumors and disables immune therapy , 2008, Nature Medicine.

[105]  S. Perrin,et al.  Lymphotoxin-beta receptor signaling is required for the homeostatic control of HEV differentiation and function. , 2005, Immunity.

[106]  Mark V. Dahl,et al.  α4 Integrins mediate lymphocyte attachment and rolling under physiologic flow , 1996 .