1. Chapter 16
Adaptive Immunity

2. Overview of Adaptive Immunity
Adaptive immunity is the body’s ability to recognize and defend itself against distinct invaders and their products
Five attributes of adaptive immunity
Specificity
Inducibility
Clonality
Unresponsiveness to self
Memory
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3. Overview of Adaptive Immunity
Involves activity of lymphocytes
Two main types of lymphocytes
B lymphocytes (B cells)
Mature in the bone marrow
T lymphocytes (T cells)
Mature in the thymus
Two types of adaptive immune responses
Humoral immune responses
Cell-mediated immune responses
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4. Figure 16.1 A resting lymphocyte
Red blood cell

5. Overview of Adaptive Immunity
ANIMATION Humoral Immunity: Overview
ANIMATION Cell-Mediated Immunity: Overview
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6. Elements of Adaptive Immunity
The Tissues and Organs of the Lymphatic System
Screen the tissues of the body for foreign antigens
Composed of lymphatic vessels and lymphatic cells, tissues, and organs
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7. Elements of Adaptive Immunity
The Tissues and Organs of the Lymphatic System
Lymphatic vessels and the flow of lymph
Conducts lymph from tissues and returns it to the circulatory system
Lymph
Liquid with similar composition to blood plasma
Arises from fluid leaked from blood vessels into surrounding tissues
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8. Figure 16.2 The lymphatic system-overview

9. Elements of Adaptive Immunity
The Tissues and Organs of the Lymphatic System
Lymphoid organs
Primary lymphoid organs
Red bone marrow
Thymus
Secondary lymphoid organs
Lymph nodes
Spleen
Tonsils
Mucosa-associated lymphatic tissue (MALT)
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10. Elements of Adaptive Immunity
Antigens
Properties of antigens
Molecules the body recognizes as foreign and worthy of attack
Recognized by three-dimensional regions called epitopes
Include various bacterial components as well as proteins of viruses, fungi, and protozoa
Food and dust can also contain antigenic particles
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11. Figure 16.3a Antigens: epitopes (antigenic determinants)
Cytoplasmic membrane
Nucleus
Antigen
Cytoplasm
Epitopes (antigenic determinants)

12. Figure 16.3b Antigens: exogenous antigens
Extracellular microbes
Exogenous antigens
Exogenous antigens

13. Figure 16.3c Antigens: endogenous antigens
Intracellular virus
Virally infected cell
Endogenous antigens

14. Figure 16.3d Antigens: autoantigens
Autoantigens (normal cell antigens)
Normal (uninfected) cell
Autoantigens

15. Elements of Adaptive Immunity
B Lymphocytes (B Cells) and Antibodies
Arise and mature in the red bone marrow
Found primarily in the spleen, lymph nodes, and MALT
Small percentage of B cells circulates in the blood
Major function is the secretion of antibodies
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16. Elements of Adaptive Immunity
B Lymphocytes (B Cells) and Antibodies
Specificity of the B cell receptor (BCR)
Each B lymphocyte has multiple copies of the B cell receptor
Each B cell generates a single BCR
Two variable regions of the BCR form the antigen-binding sites
Each BCR recognizes only one epitope
Individual’s repertoire of BCRs is capable of recognizing millions of different epitopes
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17. Figure 16.4 B cell receptor (BCR)
Epitope
Antigen- binding sites
Heavy chain
Variable region
Light chain
Cytoplasmic membrane of B lymphocyte
Transmembrane portion of BCR
B cell receptor (BCR)
Cytoplasm

18. Elements of Adaptive Immunity
B Lymphocytes (B Cells) and Antibodies
Specificity and antibody structure
Antibodies are immunoglobulins similar to BCRs
Secreted by activated B cells called plasma cells
Identical antigen-binding sites and antigen specificity as the BCR of the activated B cell
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19. Figure 16.5 Basic antibody structure-overview

20. Elements of Adaptive Immunity
B Lymphocytes (B Cells) and Antibodies
Antibody function
Antigen-binding sites are complementary to epitopes
Antibodies function in several ways
Activation of complement and inflammation
Neutralization
Opsonization
Killing by oxidation
Agglutination
Antibody-dependent cellular cytotoxicity (ADCC)
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21. Figure 16.6 Five functions of antibodies-overview

22. Elements of Adaptive Immunity
ANIMATION Humoral Immunity: Antibody Function
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23. Elements of Adaptive Immunity
B Lymphocytes (B Cells) and Antibodies
Classes of antibodies
Threats confronting the immune system are variable
Class involved in the immune response depends on the type of antigen, portal of entry, and antibody function needed
Five different classes of antibodies
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24. Elements of Adaptive Immunity
B Lymphocytes (B Cells) and Antibodies
Classes of antibodies
IgM–first antibody produced
IgG–most common and longest-lasting antibody
IgA–associated with body secretions
IgE–involved in response to parasitic infections and allergies
IgD–exact function is not known
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25. Elements of Adaptive Immunity
T Lymphocytes (T Cells)
Produced in the red bone marrow and mature in the thymus
Circulate in the lymph and blood and migrate to the lymph nodes, spleen, and Peyer’s patches
Antigen-binding sites are complementary to epitopes
Have T cell receptors (TCRs) on their cytoplasmic membrane
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26. Elements of Adaptive Immunity
T Lymphocytes
Specificity of the T cell receptor (TCR)
TCRs do not recognize epitopes directly
TCRs only bind epitopes associated with a MHC protein
TCRs act primarily against cells that harbor intracellular pathogens
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27. Figure 16.7 A T cell receptor (TCR)
Antigen-binding site (groove)
Carbohydrate
Variable regions
Disulfide bond
Constant regions
Cytoplasmic membrane of T cell
T cell receptor (TCR)
Cytoplasm

28. Elements of Adaptive Immunity
T Lymphocytes
Types of T lymphocytes
Based on surface glycoproteins and characteristic functions
Three types
Cytotoxic T lymphocyte
Directly kills other cells
Helper T lymphocyte
Helps regulate the activities of B cells and cytotoxic T cells
Regulatory T lymphocyte
Represses adaptive immune responses
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29. Elements of Adaptive Immunity
ANIMATION Cell-Mediated Immunity: Cytotoxic T Cells
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30. Elements of Adaptive Immunity
ANIMATION Cell-Mediated Immunity: Helper T Cells
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31. Elements of Adaptive Immunity
Clonal Deletion
Vital that immune responses not be directed against autoantigens
Body eliminates self-reactive lymphocytes
Lymphocytes that react to autoantigens undergo apoptosis
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32. Figure 16.8 Clonal deletion of T cells
Stem cell (in red bone marrow)
T cells
TCRs
MHC I
Epitope
Recognize MHC I?
Thymus cells
Thymus cells No
Yes
Receive survival signal
Recognize MHC-autoantigen? No
Yes
Apoptosis
Few
Most
Apoptosis
Repertoire of immature Tc cells
Regulartoy T cell (Tr)

33. Figure 16.9 Clonal deletion of B cells
Stem cell (in red bone marrow)
B cells
BCRs
Cell with autoantigens
Cell with autoantigens
Apoptosis
Blood vessel
To spleen

34. Elements of Adaptive Immunity
Immune Response Cytokines
Soluble regulatory proteins that act as intercellular signals
Cytokines secreted by various leukocytes
Cytokine network
The complex web of signals among all the cells of the immune system
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35. Elements of Adaptive Immunity
Immune System Cytokines
Interleukins (ILs)
Signal among leukocytes
Interferons (IFNs)
Antiviral proteins that may act as cytokines
Growth factors
Proteins that stimulate stem cells to divide
Tumor necrosis factor (TNF)
Secreted by macrophages and T cells to kill tumor cells and regulate immune responses and inflammation
Chemokines
Chemotactic cytokines that signal leukocytes to move
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36. Preparation for an Adaptive Immune Response
The Roles of the Major Histocompatibility Complex
Group of antigens first identified in graft patients
Important in determining compatibility of tissues for tissue grafting
Major histocompatibility antigens are glycoproteins found in the membranes of most cells of vertebrate animals
Hold and position antigenic determinants for presentation to T cells
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37. Preparation for an Adaptive Immune Response
The Roles of the Major Histocompatibility Complex
Antigens bind in the antigen-binding groove of MHC molecules
Two classes of MHC proteins
MHC class I
MHC class II
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38. Class I MHC on every nucleated cell
Figure The two classes of major histocompatibility complex (MHC) proteins
Antigen-binding grooves
Cytoplasmic membrane
Class I MHC on every nucleated cell
Class II MHC on B cell or other antigen-presenting cell (APC)
Cytoplasm

39. Figure 16.11 Dendritic cells
Dendrites

40. Preparation for an Adaptive Immune Response
Antigen Processing
Antigens processed for MHC proteins to display epitopes
Different processes for endogenous and exogenous antigens
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41. Preparation for an Adaptive Immune Response
ANIMATION Antigen Processing and Presentation: Overview
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42. Figure 16.12 The processing of T-dependent endogenous antigens
Polypeptide
Epitopes
MHC I protein in membrane of endoplasmic reticulum
Lumen of endoplasmic reticulum
The polypeptide is catabolized to yield epitopes, which are loaded onto complementary MHC I proteins in the ER.
MHC I protein– epitope complex
MHC I protein–epitope complexes are packaged in vesicle.
Vesicle fuses with cytoplasmic membrane.
MHC I protein– epitope complexes on cell surface
Cytoplasmic membrane
MHC I protein–epitope complexes displayed on cytoplasmic membranes of all nucleated cells

43. Figure 16.13 The processing of T-dependent exogenous antigens
Phagocytosis by APC
Exogenous pathogen with antigens
MHC II protein in membrane of vesicle
Epitopes in phagolysosome
MHC II protein– epitope complex
Vesicles fuse and epitopes bind to complementary HHC II molecules.
Vesicle fuses with cytoplasmic membrane.
MHC II protein– epitope complexex on cell surface
Cytoplasmic membrane
MHC II protein–epitope complexes displayed on cytoplasmic membranes of antigen-presenting cell

44. Preparation for an Adaptive Immune Response
ANIMATION Antigen Processing and Presentation: Steps
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45. Preparation for an Adaptive Immune Response
ANIMATION Antigen Processing and Presentation: MHC
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46. Cell-Mediated Immune Responses
Respond to intracellular pathogens and abnormal body cells
The most common intracellular pathogens are viruses
The response is also effective against cancer cells, intracellular protozoa, and intracellular bacteria
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47. Cell-Mediated Immune Responses
Activation of T Cell Clones and Their Functions
Steps involved in activation of cytotoxic T cells
Antigen presentation
Helper T cell differentiation
Clonal expansion
Self-stimulation
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48. Figure 16.14 Activation of a clone of cytotoxic T (Tc) cells
Dendritic cell
Antigen presentation
MHC I
CD8
Epitope
MHC II protein DC
TCR
Epitope
TCR
Th cell
Inactive Tc cell
Tc cell
IL-12
Immunological synapse
IL-2 receptor (IL-2R)
Th differentiation
IL-2
Th1 cell
Clonal expansion
Memory T cell
Active Tc cells
IL-2R
Self-stimulation
IL-2
IL-2
IL-2R
Active Tc cells
IL-2

49. Figure 16.15a A cell-mediated immune response: binding of virus-infected cell
Active cytotoxic T (Tc) cell
TCR
CD8
Viral epitope
MHC I protein
Virally infected cell
Intracellular virus

50. Figure 16.15b A cell-mediated immune response: perforin-granzyme cytotoxic pathway
Tc cell
Perforin
Granzyme
Perforin complex (pore)
Granzymes activate apoptotic enzymes
Inactive apoptotic enzymes
Active apoptotic enzymes induce apoptosis
Virally infected cell

51. Figure 16.15c A cell-mediated immune response: CD95 cytotoxic pathway
Tc cell
CD95L
CD95
Enzymatic portion of CD95 becomes active
Inactive apoptotic enzymes
Active apoptotic enzymes induce apoptosis
Virally infected cell

52. Cell-Mediated Immune Responses
ANIMATION Cell-Mediated Immunity: Cytotoxic T Cells
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53. Cell-Mediated Immune Responses
Memory T Cells
Some activated T cells become memory T cells
Persist for months or years in lymphoid tissues
Immediately functional upon subsequent contacts with epitope specific to its TCR
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54. Cell-Mediated Immune Responses
T Cell Regulation
Regulation needed to prevent T cell response to autoantigens
T cells require additional signals from an antigen-presenting cell
Interaction of the T cell and antigen-presenting cell stimulates the T cell to respond to the antigen
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55. Humoral Immune Responses
Humoral immune responses mounted against exogenous pathogens
Activates only in response to specific pathogens
Two types
T-independent humoral immunity
T-dependent humoral immunity
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56. Polysaccharide with repeating subunits
Figure The effects of the binding of a T-independent antigen by a B cell
Polysaccharide with repeating subunits
BCRs
B cell
Plasma cells
Antibodies

57. Rough endoplasmic reticulum Nucleus Golgi body
Figure A plasma cell
Rough endoplasmic reticulum
Nucleus
Golgi body

58. Figure 16.18 A T-dependent humoral immune response
Repertoire of Th cells (CD4 cells)
Th cell
CD4
TCR
CD4
CD28
Epitope
CD80 (or CD86)
TCRs
MHC II
APC
APC presents antigen to Th cells for Th activation and cloning.
APC
Th cell differentiates into Th2 cell.
CCR3
Th cell clones
IL-4
CCR4
Th2 cell
MHC II proteins
Select clone of B cell.
Th2 cell
Th2 cell
TCR
CD40L
Epitope
MHC II
CD40
IL-4
B cell
Repertoire of B cells
TH2 cell activates B cell.
BCR
Clone of plasma cells
Memory B cells
Antibodies

59. Humoral Immune Responses
ANIMATION Humoral Immunity: Clonal Selection and Expansion
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60. Humoral Immune Responses
Inducement of T-Dependent Humoral Immunity
Plasma cells
Majority of cells produced during B cell proliferation
Only secrete antibody molecules complementary to the specific antigen
Short-lived cells that die within a few days of activation
Their antibodies and progeny can persist
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61. Humoral Immune Responses
Memory B Cells and the Establishment of Immunological Memory
Produced by B cell proliferation but do not secrete antibodies
Have BCRs complementary to the antigenic determinant that triggered their production
Long-lived cells that persist in the lymphoid tissue
Initiate antibody production if antigen is encountered again
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62. Figure 16.19 The production of primary and secondary humoral immune responses--overview

63. Humoral Immune Responses
ANIMATION Humoral Immunity: Primary Immune Response
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64. Humoral Immune Responses
ANIMATION Humoral Immunity: Secondary Immune Response
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65. Humoral Immune Responses
ANIMATION Host Defenses: The Big Picture
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66. Types of Acquired Immunity
Specific immunity acquired during an individual’s life
Two types
Naturally acquired
Response against antigens encountered in daily life
Artificially acquired
Response to antigens introduced via a vaccine
Distinguished as either active or passive
Active
Passive
Receive antibodies from another individual
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