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MIGRATION OF IMMUNE CELLS LYMPHOCYTE HOMING AND RECIRCULATION

MIGRATION OF IMMUNE CELLS LYMPHOCYTE HOMING AND RECIRCULATION. NEUTROPHIL GRANULOCYTES ARE RECRUITED FROM THE BONE MARROW RESERVOIRE TO INFECTED TISSUES. LYMPHOCYTE RECIRCULATION. 1. Homing – most lymphocytes reside in lymphoid organs, few in circulation

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MIGRATION OF IMMUNE CELLS LYMPHOCYTE HOMING AND RECIRCULATION

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  1. MIGRATION OF IMMUNE CELLS LYMPHOCYTE HOMING AND RECIRCULATION

  2. NEUTROPHIL GRANULOCYTES ARE RECRUITED FROM THE BONE MARROW RESERVOIRE TO INFECTED TISSUES

  3. LYMPHOCYTE RECIRCULATION 1. Homing – most lymphocytes reside in lymphoid organs, few in circulation 2. Recruitment – chemokines and chemokine receptors, chemotaxis Few antigen-specific lymphocytes should be recruited to the site of antigen entry – ANTIGEN RECOGNITION (lymph node) The appropriate effector lymphocytes shoud migrate to the site of antigen EFFECTOR/MEMORY CELLS (tissue, lymphoid tissue) 3. Migration Among tissues, organs Lymph node - Lymph node, Lymph node - Tissues BLOOD CIRCULATION - LYMPHATICS 4. Adhesion molecules HOMING RECEPTORS Antigen independent appearance (dependent on activation state of lymphocyte Selectins Integrins Ig supergene family molecules LIGANDS FOR VASCULAR ENDOTHELIAL CELL RECEPTORS Adressin ligands INTERACTION WITH THE EXTRAVASCULAR CONNECTIVE TISSUE Binding, detachement

  4. Thoracic duct Lymphatics MIGRATION OF LYMPHOCYTES IN CENTRAL AND PERIPHERAL LYMPHOID ORGANS SPLEEN BONE MARROW THYMUS BLOOD MALT SALT BALT TISSUES HEV LYMPH NODES • The central lymphoid organs are not connected to lymphatics – Isolated from the environment • The spleen has no lymph circulation – immune response to blood borne antigens • HEV – high endothelial venules – special entry sites of blood circulating lymphocytes to peripheral lymphoid organs • 1 lymph node circle/hour, 25 billion lymphocytes (25x109)/lymph nodes/day

  5. LYMPH CIRCULATION HEV

  6. High endothelial venules Constitutively present in secondary lymphoid tissue Need to allow egress of naïve cells from the circulation Post-capillary venules Present in non-lymphoid tissues Role of endothelial cells in trafficking and recirculation Endothelial cells are involved in: Vasomotor tone, vascular permeability, regulation of coagulation, immune modulation and lymphocyte extravasation Molecules expressed by endothelial cells regulate trafficking and recirculation through lymphoid and non-lymphoid tissues

  7. High endothelial venules Post capillary venules in 2º lymphoid tissue are called HIGH ENDOTHELIAL VENULES. Specialised to allow lymphocytes and nothing else into the lymph node HEV Post capillary venules in other tissues are lined by simple squamous epithelium Blood enters lymph node via the arteryPost capillary venules in the paracortex have cuboidal endothelial cells HIGH ENDOTHELIAL VENULES - specialised properties to allow lymphocytes and nothing else into the lymph node

  8. L-selectin CD34 HEV MIGRATION OF LYMPHOCYTES NAIVE LYMPHOCYTES Homing to lymphoid tissues Homing receptor on naive lymphocyte L-selectin – carbohydrate binding Ligand on HEV - mucin-like adressin CD34+ and GlyCAM-1 sulphated sialyl-Lewisx Lymph node - PNAd – retention (peripheral node addressin) Naivelymphocyte HIGH ENDOTHELIAL VENULES HEV Lymphocytes slow down and bind to HEV LFA-1 integrin – ICAM-1/2 Ig family CCL21 chemokine and CCR7 chemokine receptor

  9. HOMING OF B LYMPHOCYTES TO LYMPH NODES Naive B lymphocytes migrate to lymph node through HEV Naive B cells are recruited to HEV by CCL21 kemokin produced by stromal cells CCL21 and CCL19 chemokines produced by dendritic cells target B lynphocytes to lymph nodes

  10. Limfocyte Homing I NAIVE LYMPHOCYTES Homing to lymphoid tissues Homing receptor on naive lymphocyte L-selectin – carbohydrate binding Ligand on HEV – mucin-like adressin CD34+ and GlyCAM-1 sulphated sialyl-Lewisx PSGL-1 Lymph node – PNAd - retention

  11. Limfocita Homing II Extravasation HIGH ENDOTHELIAL VENULES HEV Lymphocytes slow down and bind to HEV LFA-1 integrin – ICAM-1/2 Ig family CCL21 chemokine and CCR7 chemokine receptor

  12. Initial lymphocyte adhesion to antigen presenting cells in LN

  13. Different adhesion molecules of naive, armed and effector CD4+ T cells Associates with TcR and CD4 - phosphatase activity reduces threshold of T cell signalling CD44 CD45RA L-selectin CD45RO VLA-4 LFA-1 CD2 Naïve Activated Homing to lymph node Homing to inflamed vascular endothelium Differential splicing of CD45 mRNA in naïve & armed T cells Adhesion molecules + + + + + - - - ++ ++ ++ - + ++

  14. EFFECTOR/MEMORY LYMPHOCYTES Return to the site of stimulation (antigen) Mucosal surface- MADCAM-1 Retention in spleen, lymph node LFA-1 – ICAM-1/2 integrin – cell and extracellular matrix Migration through activated endothelial cells of inflammed tissues Lamina propria in gut Mucosal epithelium Dermis in skin Activated/effector/memory lymphocyte LFA-1 VLA-4 ICAM-1 VCAM-1 Activated endothel ALTERED EXPRESSION OF CELL SURFACE ADHESION MOLECULES

  15. Adhesion molecules and chemokines controlling T- cell homing to lamina propria T-cells activated in mucosal tissue associated lymphoid tissues return to MALT

  16. T-cell activated in mucosal tissue associated lymphoid tissues return to MALT Activated T cell Naive T cell

  17. Elephantiasis caused by blockage of lymphatic vessels with Wuchereria bancrofti microfilariae

  18. INAPPROPRIATE DRAINAGE IN CHRONIC INFLAMMATION TOLERANT STATE

  19. A BÉLFALHOZ KAPCSOLÓDÓ SZERVEZETT LIMFOID SZÖVET ÉS IZOLÁLT LIMFOID FOLLICULUS Villus Bél lumen Epithelium Kripta Peyer patch M sejt Izolált limfoid folliculus Lamina propria Nyirok Mesenteriális nyirokcsomó felé

  20. Thoracic duct Lymphatics MIGRATION OF LYMPHOCYTES IN CENTRAL AND PERIPHERAL LYMPHOID ORGANS SPLEEN BONE MARROW THYMUS BLOOD MALT SALT BALT TISSUES HEV LYMPH NODES • The central lymphoid organs are not connected to lymphatics – Isolated from the environment • The spleen has no lymph circulation – immune response to blood borne antigens • HEV – high endothelial venules – special entry sites of blood circulating lymphocytes to peripheral lymphoid organs • 1 lymph node circle/hour, 25 billion lymphocytes (25x109)/lymph nodes/day

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