1 / 22

ANTIBODY DIVERSITY II

ANTIBODY DIVERSITY II. Macfarlane Burnet (1956 - 1960) C LONAL SELECTION THEORY. Antibodies are natural products that appear on the cell surface as receptors and selectively react with the antigen Lymphocyte receptors are variable and carry various antigen-recognizing receptors

tana-guerra
Download Presentation

ANTIBODY DIVERSITY II

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. ANTIBODY DIVERSITY II

  2. Macfarlane Burnet (1956 - 1960)CLONAL SELECTION THEORY Antibodies are natural products that appear on the cell surface as receptors and selectively react with the antigen Lymphocyte receptors are variable and carry various antigen-recognizing receptors ‘Non-self’ antigens/pathogens encounter the existing lymphocyte pool (repertoire) Antigens select their matching receptors from the available lymphocyte pool, induce clonal proliferation of specific clones and these clones differentiate to antibody secreting plasma cells The clonally distributed antigen-recognizing receptors represent about ~107 – 109 distinct antigenic specificities

  3. 1012 lymphocytes in our body ( B and T lymphocytes) How many SPECIFICITIES ? DIVERSITY OF LYMPHOCYTES Assumption 2 The receptor can be activated by many different antigens Assumption 1 All lymphocytes have a different receptor Cc. (minimum) 10 million various (107) B lymphocyte clones with different antigen-recognizing receptors Cc. (minimum) 10 – 1000 million various (107 - 9) T lymphocyte clones with different antigen-recognizing receptors

  4. How does somatic gene rearrangement (recombination) work? • How is an infinite diversity of specificity generated from finite amounts of DNA? • Combinatorial diversity • 2. How do V region find J regions and why don’t they join to C regions?12-23 rule • How does the DNA break and rejoin? • Imprecisely, with the random removal and addition of nucleotidesto generate sequence diversity • Junctional diversity(P- and N- nucleotides, see above)

  5. Hipervariable and framework regions exist within the variable domains of Igs HV3 in the light-chain is at the junction between rearranged V and J segments In the heavy chain HV3 is formed by the D segment and its the rearranged V and J segments.

  6. Rearrangement of V, D, and J segments produces a functional heavy-chain gene. Separate gene segments encode the constant domains of the various Immunoglobulin isotypes

  7. Gene rearrangement and the synthesis of cell-surface IgM in B cells SUMMARY

  8. Coexpression of IgD and IgM is regulated by RNA processing.

  9. Each B-cell produces immunoglobulin of a single specificity Both the heavy and the light chain coding sequences are present twice in the germline.. (maternal and paternal chromosome) Yet , the B-cell receptor (BCR) on each B-cell is mono-specific The B-cell produces monospecific antibodies This is important for the efficiency of clonal selection and to ensure specificity of the immune response. The process that ensures monospecificity is called: Allelic exclusion

  10. Y a B a/a Y b B b/b Y a B Y Y Y b a B B b a/b A clever genetic model provides evidence for allelic exclusion ALLOTYPE- a polymorphism in the Heavy chain C region of Ig Allotypes can be identified by staining B cell surface Ig with antibodies AND

  11. S. typhi S. typhi Allelic exclusion is needed for efficient clonal selection Antibody All daughter cells must express the same Ig specificity otherwise the efficiency of the response would be compromised Suppression of H chain gene rearrangement helps to prevent the emergence of new daughter specificities during proliferation after clonal selection

  12. Y Y Y Y Y B Self antigen B Y Y Y Y S. aureus S. aureus Y Y Y Y Y Y Y Y Y Y Y Y Anti S. aureus Antibodies Anti S. aureus Antibodies Anti self Abs Y Y Y Y Y Y Y Y Allelic exclusion prevents unwanted responses One Ag receptor per cell IF there were two Ag receptors per cell Suppression of H chain gene rearrangement ensures only one specificty of Ab expressed per cell. Prevents induction of unwanted responses by pathogens

  13. One specificity of Agreceptor per cell IF there were two specificitiesof Ag receptor per cell Y Y Y S. aureus Y B B Y B B B B Y OR Y Y B B Deletion Anergy Allelic exclusion is needed to prevent holes in the repertoire Anti-brain Ig Anti-self Ig AND anti-S. Aureus Ig Exclusion of anti-brain B cells i.e. self tolerance anti S.Aureus B cells will be excluded leaving a “hole in the repertoire” BUT

  14. Allelic exclusion helps diagnose and monitor lymphoma: Due to clonal expansion of a single cell that contains a unique rearrangement the amount of cancer cells in blood or in bone marrow can be determined Can be used to monitor residual tumor cells upon treatment

  15. ChildhoodAcutelymphoblasticleukemia (ALL) is a heterogenousdisease Prognosisvaries Personalizedtreatment is required Minimal residual disease (MRD) Response to therapy Early detection of relapse Bone marryw transplantation

  16. Metods for detection of MRD - nyomonkövetésére használt módszerek • Flow cytometry: • Detection of the aberrynt protein • Kvantitative method, but labour intensive, and less sensitive • Real-time kvantitative PCR • Qquantitative, specificity and superior sensitivity, • Requires minimal amounts os marerial for the test

  17. Diagnosis and monitoring of the treatment of childhood acute lymphoblastic leukemia (C-ALL) The sequence of the framework regions are well conserved. Step 1: design primers that amplify these regions together with the hypervariable regions Step 2: sequence the PCR fragments to obtain spec. Sequence info on the actual tumor (monoclonal, majority of amplification product is tumor-derived Step 3: based on the sequence info, design tumor-specific PCR primers Step 4: quantitate gene expression by Q-PCR. Follow success of therapy and detect minimal residual disease much earlier then by flow cytometry

  18. Result of IMGT junction analysis (http//imgt.cines.fr): IGH rearrangement of patient Q015 I. Identification of monoclonal, i.e. blast-specific gene rearrangements (IGH, TCR, TCR and IGK-KDE) II. Sequencing amplified DNA An algorythm is available for the identification of unique and conserved portions of the sequence ImMunoGeneTics information system (IMGT)

  19. BIOMED2 Concerted Action: IgH, TCRg, TCRd, TCRb, IgK Patient specific forward primer designed by us Consensus TaqMan probe and reverse primer V N1 D N2 J Design patient-specific primers (red) and use them together with consensus primers

More Related