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Transplantation

Transplantation. Transplantation = transfer of tissue or organ ● autologous - donor = recipient ● syngeneic - genetically identical donor and recipient (identical twins) ● allogeneic - genetically nonidentical donor of the same species

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Transplantation

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  1. Transplantation

  2. Transplantation = transfer of tissue or organ ●autologous - donor = recipient ● syngeneic - genetically identical donor and recipient (identical twins) ● allogeneic - genetically nonidentical donor of the same species ● xenogenic - the donor of another species ● implant - artificial tissue compensation

  3. Allotransplantation ● differences in donor-recipient MHC gp and secondary histocompatibility Ag ●alloreactivity of T lymphocytes - the risk of rejection and graft-versus-host disease ●direct detection of alloantigens – recipient T lymphocytes recognize the different MHC gp and non-MHC molecules on donor cells ●indirect recognition of alloantigens - APC absorb different MHC gp from donor cells and present the fragments to T lymphocytes ● CD8+ T cells recognize MHC gp I. ● CD4+ T cells recognize MHC gp II.

  4. Recognition of alloantigens

  5. Testing before transplantation ●ABOcompatibility -risk of hyperacute or accelerated rejection (= formation of Ab against A or B Ag on graft vascular endothelium) ●HLA typing (determining of MHC gp alelic forms) phenotyping and genotyping by PCR ●Cross-match - lymphocytotoxic test – detection of preformed Ab (after blood transfusions, transplantation, repeated childbirth) ●Mixed lymphocyte reaction - testing of T lymphocytesalloreactivity, monitor for reactivity of lymphocytes to allogeneic HLA

  6. HLA typing a) phenotyping: Evaluation of HLA molecules using typing serums Typing antiserums = alloantiserums of multipar (created cytotoxic Ab against paternal HLA Ag of their children), serum of patients after repeated blood transfusions, monoclonal Ab - molecules HLA class I: separated T lymphocytes - molecules HLA class II: separated B lymphocytes b) genotyping: evaluation of specific alleles DNA typing of HLA class II: DR, DP, DQ by PCR

  7. Cross-match test ● determination of preformed antibodies ● recipient serum + donor lymphocytes + rabbit complement → if cytotoxic Ab against donor HLA Ag are present in recipient serum (called alloantibodies = Ab activating complement) → lysis of donor lymphocytes. Visualization of dye penetration into lysis cells. ●positive test = the presence of preformed Ab → risk of hyperacute rejection! → contraindication to transplantation

  8. Mixed lymphocyte reaction (MRL) ● determination of T lymphocytesalloreactivity ● mixed donor and recipient lymphocytes → T lymphocytes after recognition of allogeneic MHC gp activate and proliferate One-way MRL ● determination of recipient T lymphocytesreactivity against donor cells ● donor cells treated with chemotherapy or irradiated lose the ability of proliferation

  9. Mixed lymphocyte reaction (MRL)

  10. Immunologically privileged sites and tissues • Transplantation of some tissues don´t lead to the induction of allogeneic reactivity • minimal content of lecocytes • mechanisms that prevent to the development of injurious inflammation • Evolutionarily significant, protection of vital organs (brain, eye, gonads) • Factors protecting immunologically privileged structures • isolation from the immune system • preference of TH2 reactoin, supression of TH1 reaction • FasL expression • production of TGFb

  11. Rejection Factors: ●The genetic difference between donor and recipient, especially in the genes coding for MHC gp (HLA) ●Type of tissue / organ - the strongest reactions against vascularized tissues containing many APC (skin) ●The activity of the recipientimmune system - the immunodeficiency recipient has a smaller rejection reaction; immunosuppressive therapy after transplantation – suppression of rejection ●State of transplanted organ - the length of ischemia, the method of preservation, traumatization of organ at collection

  12. Hyperacute rejection ● minutes to hours after transplantation ●humoral mediated immune response mechanism: ● if in recipients blood are present preformed or natural Ab (IgM anti-carbohydrate Ag) before transplantation→ Ab + Ag of graft (MHC gp or endothelial Ag) → graft damage by activated complement (lysis of cells) ● the graft endothelium: activation of coagulation factors and platelets, formation thrombi, accumulation of neutrophil granulocytes prevention: ● negative cross match before transplantation, ABO compatibility

  13. Accelerated rejection ● 3 to 5 days after transplantation ● caused by antibodies that don´t activate complement ●cytotoxic and inflammatory responses triggered by binding of antibodies to Fc-receptors on phagocytes and NK cells prevention: ● negative cross match before transplantation, ABO compatibility

  14. Acute rejection ● days to weeks after the transplantation or after a lack of immunosuppressive treatment ●cell-mediated immune response mechanism: ● reaction of recipient TH1 and TC cells against Ag of graft tissue ● infiltration by lymphocytes, mononuclears, granulocytes around smallvessels → destruction of tissue transplant

  15. Chronic rejection ● from 2 months after transplantation ● the most common cause of graft failure mechanism is not fully understood: ● non-immunological factors (tissue ischemia) and TH2 responses with production alloantibodies, pathogenetic role of cytokines and growth factors (TGF β) ● fibrosis of the internal blood vessels of the transplanted tissue, endothelial damage →impaired perfusion of graft → gradual loss of its function dominating findings: vascular damage

  16. Bone Marrow Transplantation ● Collection of hematopoietic stem cells● Myeloablation● Transplantation● Engraftment● Rejection● Graft-versus-host reaction

  17. Graft-versus-host (GvH) disease ● after bone marrow transplantation ● GvH also after blood transfusion to immunodeficiency recipients ● T-lymphocytes in the graft bone marrow recognize recipient tissue Ag as foreign (alooreactivity)

  18. Acute GvH disease ● days to weeks after the transplantation of stem cells ● damage of liver, skin and intestinal mucosa ● prevention: appropriate donor selection, the removal of T lymphocytes from the graft and effective immunosuppression

  19. Chonic GvH disease ● months to years after transplantation ● infiltration of tissues and organs by TH2 lymphocytes, production of alloantibodies and cytokines → fibrosis ● process like autoimmune disease: vasculitis, scleroderma, sicca-syndrome ● chronic inflammation of blood vessels, skin, internal organs and glands, which leads to fibrosis, blood circulation disorders and loss of function

  20. Graft versus leukemia effect (GvL) ● donor T lymphocytes react against residual leukemick cells of recipient (setpoint response) ● mechanism is consistent with acute GvH ● associated with a certain degree of GvH (adverse reactions)

  21. Immunologic relationship between mother and allogenic fetus

  22. Immunologic relationship between mother and allogenic fetus ●fetal cells have on the surface alloantigens inherited from his father ●pregnancy = "semiallogenic transplantation“ Tolerance of fetus by mother allow the following mechanisms: ●the relative isolation of the fetus from maternal immune system (no mixing of blood circulation) ●trophoblast - immune barrier witch protects against mother alloreactive T lymphocytes - don´t express classical MHC gp, expresses non-classical HLA-E and HLA-G ● transfer of small doses of fetal antigens in maternal circulation causes tolerance ... suppressin of TH1 and preference of TH2 immune mechanisms in pregnancy

  23. Rh incompatibility • Complications in pregnancy: production of anti-RhD antibodies by RhD- mother carrying an RhD+ fetus (hemolytic disease of newborns) • Fetal erythrocytes penetrate into the maternal bloodstream during pregnancy - a small amount, don´t immunize • During childbirth or abortion (after 8 weeks of gestation) fetal erythrocytes can penetrate into the bloodstream of mother → immunization, formation of anti-RhD antibodies • After childbirth, investigate Rh factor of born child, if is child Rh+, mother gets up to 72 hours after birth injection of anti-Rh antibodies (administered after abortion too)

  24. Rh incompatibility

  25. Anti-Rh(D) injection, this antibodies bind to RhD Ag on baby´s red blood cells, this Ag than can´t bind to BCR and can´t activate B lymphocytes, this immune comlexes also actively inhibit B lymphocytes • During next childbirths, if fetus is Rh+ and mother produce anti-Rh antibodies, this Abb destroy red blood cells of fetus, which can lead to fetal death, or in severe postpartum anemia(anemia neonatorum) and neonatal jaundice (icterus gravis neonatorum) • For each pregnant woman during the first trimester investigate blod Rh factor and the presence of antibodies, in Rh- women performed a test for antibodies also in II. and III. trimester

  26. Immunopathological reactions

  27. Classification by Coombs and Gell Immunopathological reactions: immune response, which caused damage to the body (secondary consequence of defense responses against pathogens, inappropriate responses to harmless antigens, autoimmunity) IV types of immunopathological reactions: Type I reaction - a response based on IgE antibodies Type II reaction - a response based on antibodies, IgG and IgM Type III reaction- a response based on the formation of immune complexes Type IV reaction - cell-mediated response

  28. Immunopathological reactions based on antibodies IgG and IgM (reaction type II) Cytotoxic antibodies IgG and IgM: ● complement activation ● ADCC ● binding to Fc receptors on phagocytes and NK cells

  29. Examples of immunopathological reaction Type II • Transfusion reactions in administration of incompatibile blood: binding of antibodies to antigens on erythrocytes → activation of the classical way of complement → cell lysis • Hemolytic disease of newborns:caused by antibodies against RhD antigen

  30. Autoimmune diseases: ● organ-specific cytotoxic antibodies (antibodies against erythrocytes, neutrophils, thrombocytes, glomerular basement membrane ...) ● blocking or stimulating antibodies Graves - Basedow's disease - stimulating antibodies against the receptor for TSH Myasthenia gravis - blocking of acetylcholin receptor→ blocking of neuromuscular transmission Pernicious anemia - blocking the absorption of vitamin B12 Antiphospholipid syndrome - antibodies against fosfolipids Fertility disorder - antibodies against sperms or oocytes

  31. Immunopathological reactions based on immune complexes formation (reaction type III) ●caused by IgG antibodies → bind to antigen → creation of immune complexes ● immunocomplexes - bind to Fc receptors on phagocytes - activate complement ● immune complexes, depending on the quantity and structure, are eliminated by phagocytes or stored in tissues ● pathological immunocomplexes response arises when is a large dose of antigen, or antigen in the body remains; arise 10-14 days after aplication of Ag and induced inflamation can get to chronic state ● immune complexes are deposited in the kidneys (glomerulonephritis), on the surface of endothelial cells (vasculitis) and in synovie joint (arthritis)

  32. Serum sickness ● the therapeutic application of xenogeneic serum (antiserum to snake venom) ● creation of immune complexes and their storage in the vessel walls of different organs ● clinical manifestations: urticaria, arthralgia, myalgia Systemic lupus erythematosus ● antibodies against nuclear antigens, ANA, anti-dsDNA Farmer's lung ● IgG antibody against inhaled antigens (molds, hay) Post-streptococcal glomerulonephritis, cryoglobulinemia, revmatoid arthritis, post-infectious arthritis

  33. THANK YOU FOR YOUR ATTENTION

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