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1. Repetition is good, especially in different contexts. 2. As good students, you are accustomed to mastering “the syllabus.” At least in this course,

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Presentation on theme: "1. Repetition is good, especially in different contexts. 2. As good students, you are accustomed to mastering “the syllabus.” At least in this course,"— Presentation transcript:

1 1. Repetition is good, especially in different contexts. 2. As good students, you are accustomed to mastering “the syllabus.” At least in this course, you can’t. The syllabus is an illusion, it does not truly exist. 3.It is important to learn the basics, the “party line.” 4. There is no party line; it keeps changing. Immunology Course-General Principles

2 “ Do I know the material? ” Simple test to determine whether you have mastered the material: If you can explain the underlying concepts to the na ï ve (but motivated) student, you’re heading in the right direction. Therefore: learn what questions to ask.

3 Immunology-- The Whirlwind Tour

4 Time Course of the Primary Immune Response Innate immunity Acquired immunity

5 Ontogeny of the Acquired Immune System Step 1. Lymphocytes develop in the bone marrow and thymus Step 2. Naïve lymphocytes circulate in the blood and lymph Step 3. The primary immune response occurs in the lymph nodes and spleen Step 4. Lymphocytes exit the lymph nodes and spleen and become effector lymphocytes--they produce antibody (B cells) or become competent to kill (CD8+ T cells)

6 Stages in the Development of a Primary Immune Response Step 1. The immune repertoire develops Lymphocytes develop early in life in the 1° lymphoid organs (bone marrow and thymus) and are competent to respond to a broad array of antigens. This process is first stochastic in nature and then becomes regulated by the MHC through positive and negative selection.

7 Ig Maturation

8 Antibodies: Secreted or Transmembrane (BCR) TCR: Transmembrane Antibody (Ig) and TCR are the Only Genes that Undergo Somatic Cell Recombination

9 Journey of a B Cell

10 Ordered TCR gene rearrangement and TCR expression Ordered expression of surface molecules: CD2 CD4 and CD8 CD3 and the TCR Thymocyte Education: Selection of the T cell repertoire Negative Selection Positive Selection What Happens in the Thymus?

11 Thymic Development Periphery Bone marrow “ Educated, but na ï ve ”

12 What Happens During a Primary Immune Response?

13 The Primary Immune Response-- Input (APCs) and Output (Lymphocytes et al.)

14 Three Types of APCs

15 The Itinerant Dendritic Cell

16 Functional Anatomy of a Lymph Node Ag-loaded APC Naïve T-cell Effector or Memory T-cell

17 The Clonal Selection Theory    Naïve state Ag encounter Clonal expansion

18 Functions of MHC I and II

19 N 11 22 Structure of Peptide-binding Class I MHC Domains

20 Contact Between the TCR and MHC/peptide: Not All Peptides are Created Equal

21 Contact Between the TCR and MHC/peptide: Not All MHC Molecules are Created Equal Polymorphisms

22 The “ Fit ” Between MHC Molecules and Peptide Defines MHC Restriction Polymorphisms within the MHC account for the variability of the immune response between individuals

23 Antigen Recognition T Cell Receptor for Antigen (TCR): One TCR is Specific for One Antigen T cell Activation

24 1. Bound antigen is internalized and presented to T cells. 2. Bound antigen triggers signals in the B cell to proliferate and differentiate. The B Cell Receptor for Antigen (BCR) Two Major Functions:

25 The “Immunologic Synapse”

26 The Two-Signal Theory of T-cell Activation APC = Antigen-presenting cells TCR = T-cell receptor for antigen DC = Dendritic cell CD80 = Co-stimulatory receptor 2 1 12 No response or Anergy Activation

27    V  C  C  V    peptide CD3 TCR CD4 MHC II    V  C  C  V    CD3 TCR MHC I CD8 (1) Interacts with MHC class II expressing cells (APCs) (2) Helps B cells to synthesize antibody (3) Induces and activates macrophages (4) Secretes cytokines (1) Interacts with MHC class I-expressing cells (all nucleated cells) (2) Kill MHC class I-expressing target cells (3) Secretes cytokines CD4+ T cell CD8+ T cell peptide Two Major Functional T Cell Subsets Lck APC

28 CD4+ T Cells Activate Macrophages and B cells

29 CD8+ CTLs Kill Viral-infected Cells

30 B cells   CD8 CD4 Ab production Cytotoxicity Cytotoxicity Help to B cells Ag presentation IFN-  secretion Help to CD8 T cells Cytokine secretion Macrophages activation Innate immunity T cells Major Lymphocyte Subsets in Peripheral Blood and Selected Effector Functions

31 Immunity Tolerance Autommunity Immunodeficiency Activation Suppression Regulation of the Immune Response: a Conceptual View

32 Systemic Lupus Erythematosis (SLE): AnAutoimmune Disease

33 Clinical Manifestations of Rheumatoid Arthritis

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