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Chapter 15 Immunological Tolerance

Chapter 15 Immunological Tolerance. Outline. 1.Concept Immunological Tolerance: These antigen specific T cells and B cells can not be activated to induce immune response under stimulation of Ag. This phenomenon is called immunological tolerance. Tolerogen: antigens that induce tolerance.

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Chapter 15 Immunological Tolerance

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  1. Chapter 15 Immunological Tolerance

  2. Outline 1.Concept Immunological Tolerance: These antigen specific T cells and B cells can not be activated to induce immune response under stimulation of Ag. This phenomenon is called immunological tolerance. Tolerogen:antigens that induce tolerance. activation effect T/B Ag —

  3. 2.Features: Only play tolerance to definite Ag, but play good immune response to other Ags (immunologically specific) . Only adaptive immunityhas tolerance. Normal individuals are tolerant of their own antigens(self antigen)----- Self-tolerance.

  4. 3.Differenceamong Immunological tolerance , Immunodeficiency &Immunosuppression • Immunosuppression: The suppression of immune responses to antigens. This can be achieved by various means, including physical and chemical factors ----non-specificity to Ag • Immunodeficiency: Any condition in which there is deficiency in the production of humoral and /or cell-mediated immunity---non-specificity to Ag. Immune function is disturbed by artificial or non artificial means.

  5. 4.Classification of immunological tolerance According to Ag: • Self tolerance • self Ags • Induced tolerance • foreigen objects,need definite conditions • According to formation region: • Central tolerance • Peripheral tolerance

  6. Section I. The development of immunological tolerance I . Induction of immunologic tolerance to antigen in embryonic period and neonatal period —— maintain lifetime

  7. Owen first observed phenomenon of immunologic tolerance in Dizygotic bovine twin in 1945 A B • Graft of Skin From A to B or From B to A No rejection Self –tolerance Antigen is introduced into the body early enough in development, the animal would consider it “self” and not react against it.

  8. Medawar induced successfully immunologic tolerance in neonate period mice in 1953 Strain B mouse Strain A mouse Strain C mouse Neonate mouse Bone marrow 8 weeks later Skin graft Skin graft Graft rejected Graft survival 8

  9. II. Induction of immunologic tolerance to antigen after birth or in adult (I) Antigen-associated factors 1. Dose of antigen Inject different dose of BSA to mouse 10-8M 10-7M 10-5M No Ab Low dose tolerance High level Ab High dose tolerance No Ab Mitchison 1964

  10. low zone tolerance • T cell • antigen low dose,APC cannot form adequate peptide-MHC • high zone tolerance • T cell 、B cell • Induce Ts cell activation or induce apoptosis of responding cell High-zone tolerance Low-zone tolerance T, B cell tolerance T cell tolerance Immune response

  11. Comparison of T cell tolerance with B cell tolerance ________________________________________________ Contents T cell B cell__________________________________________________________ Tolerance formation easy difficult Antigens TD -Ag TD- Ag and TI –Ag Dose of antigens high or low high Induced time shorter (1-2 days) longer (more than 10 days) Maintaining time longer (a few months) shorter (a few weeks)___________________________________________________

  12. 2. Types of antigen • Large, aggregated, complex molecules • simple small molecules, Soluble, aggregate-free, not processed-tolerance

  13. 3. Pathway of antigen entering body • Oral Mucosa immunization, tolerance in body • Intravenous • Intra-peritoneal • Intramuscular • subcutaneous Immune response tolerance

  14. 4.Antigen exist persistently No costimulate signal Activation Apoptosis 5. Features of epitope Some epitope can induce tolerance. Determinants recognized by Ts or Treg induce tolerance.

  15. Host–associated factors Age and development stage embryonic period > neonatal period > adult age > old age Newborn (mice), immunological immature. Physiological state Immune suppression Genetic background Hepatitis B vaccine

  16. Section II. Mechanism of tolerance I.Mechanism of central tolerance -Central tolerance: occurs in the central immune organs as a consequence of immature self-reactive lymphocytes recognizing ubiquitous self-antigen.----negative selection. -Peripheral tolerance: Tolerance was induced in peripheral organs as a result of mature self-reactive lymphocytes encountering antigens in vivo or in vitro under particular conditions.

  17. I. Central tolerance • T cell central tolerance : formation in thymus Clonal deletion in negative selection • B cell central tolerance: formation in bone marrow Clonal deletion Clonal anergy (clonal inactivation) Receptor editing

  18. 1. T cell central tolerance T cell Clonal deletion (cell apoptosis) During maturation of T lymphocytes in the thymus, immature T lymphocytes that recognize ubiquitous self-antigen with high affinity are deleted bymechanism of apoptosis.

  19. Clonal deletion:negative selection in the thymus Cortex Medulla

  20. 2. B cell central tolerance Clonal deletion During maturation of B lymphocytes in bone marrow , immature lymphocytes that recognize membrane-bound self-antigen with high affinity are deleted byapoptosis. Clonal anergy (clonal inactivation) During maturation of B lymphocytes in bone marrow , immature lymphocytes that recognize soluble self-antigen are not deleted but are inactivated . Receptor editing If the BCR of some immature B lymphocyte can bind to the self-antigen at high affinity , the light chain gene of BCR on the other allele will start rearrangement to produce a new BCR to replace the old.

  21. Negative selection of B cell in bone marrow (clonal deletion) 21

  22. Clonal anergy in B cells

  23. II . Mechanisms of Peripheral Tolerance Clonal deletion Immune ignore Clonal anergy The function of immunoregulation cells Immunologically privileged sites

  24. 1.Clonal deletion: -self Ags at high concentration and affinity can induce self-reactive T cells clonal deletion. 2.Immunological ignorance: -self Ag at low concentration or affinity can induce self-reactive T cells clonal ignorance. When Ag concentration increasing , this tolerance can be stopped.

  25. Immunological ignorance Self-reactive T cell clones No response No clonal deletion No clonal anergy Enough Corresponding tissue specific Ags Corresponding tissue specific Ag Immunological response Self-reactive T cell clones Too low T cell reponse

  26. 3. Clonal anergy -Self Ag can not activate DC, which can not supply the secondary signal to T cells. 4. The function of regulatory T cells (CD4+CD25+T、Tr1、Th3) Cell-cell contacting CK(IL-10,TGF-β) Treg Inhibit T cell response

  27. 5. Immunological privileged sites Under physiological condition, Antigens in immunologically privileged sites can not induce immune response. -Physiologic barrier brain, anterior chamber of eye(crystalline lens), didymus , placenta -promote Th2 inhibit Th1 -FasL induce lymphocytes with Fas apotosis • Immunosupressive cytokines • TGF-、IL-4、IL-10

  28. Section III. Immunologic Tolerance and Clinic Medicine • To induce immunologic tolerance • Prevent the rejection of organ allografts and xenografts • Treat autoimmune diseases • Treat allergic diseases 2. To terminate immunologic tolerance • To treat tumor: enhance first signal or second signal • To treat infection diseases

  29. Exercise • Immunological tolerance definition and feature. • Comparison of T cell tolerance with B cell tolerance • Mechanism of central tolerance and periphery tolerance?

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