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Immunity Chapter 10. Early Advances Edward Jenner developed vaccine against smallpox Pasteur demonstrated that heating could kill microorganisms in food.

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Presentation on theme: "Immunity Chapter 10. Early Advances Edward Jenner developed vaccine against smallpox Pasteur demonstrated that heating could kill microorganisms in food."— Presentation transcript:

1 Immunity Chapter 10

2 Early Advances Edward Jenner developed vaccine against smallpox Pasteur demonstrated that heating could kill microorganisms in food and beverages Koch linked a microorganism with a specific disease (anthrax)

3 Three Lines of Defense Barriers at body surfaces Nonspecific responses Immune responses

4 Barriers at Body Surface Intact skin and mucous membranes Lysozyme Normal bacterial flora Flushing effect and low pH of urine

5 Nonspecific Responses Lymph nodes trap and kill pathogens Natural killer cells attack a range of targets Inflammation

6 Complement System Plasma proteins that take part in both specific and nonspecific response Activation of one triggers cascade of reactions that activate others CASCADE REACTION FORMATION OF ATTACK COMPLEXES LYSIS OF TARGET

7 Acute Inflammation Nonspecific response to foreign invasion, tissue damage, or both Destroys invaders, removes debris, and prepares area for healing Characterized by redness, swelling, warmth, and pain

8 Inflammation Mast cells release histamine Capillaries dilate and leak Complement proteins attack bacteria White cells attack invaders and clean up

9 Features of Immune Responses Self/nonself recognition Specificity Diversity Memory

10 Antigens “Nonself” markers on foreign agents and altered body cells such as tumors Trigger division of B and T cells

11 Memory and Effector Cells When a B or T cell is stimulated to divide, it produces more than one cell type Memory cells are set aside for future use; they are the basis for immune memory Effector cells engage and destroy the current threat

12 Steps in Immune Response Recognition of an antigen Rounds of cell division that form huge populations of lymphocytes Specialization of lymphocytes into effector and memory cells that have receptors for one kind of antigen

13 Key Components of Immune Response MHC markers Antigen-presenting cells T cells B cells Natural killer cells

14 Overview of Interactions Naive helper T cell Naive B cell Antigen- presenting cell Activated helper T cell Effector B cell Naive cytotoxic T cell Effector cytotoxic T cell Antibody- mediated response Cell-mediated response

15 B and T Cell Specificity All the antigen receptors of a given B or T cell are identical B cells acquire unique antigen-binding receptors in marrow T cells acquire unique antigen-binding receptors in thymus

16 Clonal Selection Only the B cell with antigen- receptor that matches antigen is stimulated to divide Mitosis yields many cells with that receptor antigen

17 Immunological Memory Memory cells specific for an antigen are quickly activated to divide upon subsequent exposure to that antigen Primary Immune Response: Secondary Immune Response: effector cellsmemory cells effector cellsmemory cells naïve T or B cell

18 Lymphocyte Battlegrounds Lymph nodes filter antigens from body fluids Macrophages, dendritic cells, B and T cells in nodes and spleen mount a defense

19 Antibody-Mediated Response Carried out by B cells Targets are intracellular pathogens and toxins Antibodies bind to target and mark it for destruction by phagocytes and complement

20 Antibody Structure Antibody consists of four polypeptide chains Certain parts of each chain are variable; impart antigen specificity

21 Antibody- Mediated Response Naive B cell Antigen- presenting B cell Helper T cell Interleukins Memory B cell Effector B cell secretes antibodies Virgin B cell becomes antigen-presenting B cell Helper T cell binds to antigen-MHC complex on the B cell Interleukins stimulate B cell division and differentiation Effector cells secrete antibodies

22 5 Classes of Immunoglobulins IgG, IgD, and IgEIgAIgM

23 Cell-Mediated Response One macrophage Another macrophage interleukins Helper T cell Cytotoxic T cell Infected body cell Carried out by T cells Stimulated by antigen- presenting macrophages Main target is antigen- presenting body cells (cells with intracellular pathogens) or tumor cells

24 Organ Rejection Cytotoxic T cells can contribute to rejection of transplanted tissue They recognize a portion of the donor cell’s MHC complex as self, view a portion as foreign Treat the combination as an antigen- MHC complex and attack donor cells

25 Monoclonal Antibodies Manufacture antibodies against tumor- specific antigens First created by fusing antigen- producing B cells from mice with cells from B cell tumors Now made in genetically engineered cells

26 Lymphokine-Activated Killers Lymphocytes are extracted from tumors Extracted cells are exposed to a lymphokine, an interleukin Large population of tumor-infiltrating, activated lymphocytes is then reinjected into patient

27 Immunization Process that promotes immunity Active immunization - –Antigen-containing material is injected –Confers long-lasting immunity Passive - –Purified antibody is injected –Protection is short lived

28 Allergies Immune reaction to a harmless substance Genetic predisposition IgE responds to antigen by binding to mast cells and basophils These cells secrete the substances that cause symptoms

29 Anaphylactic Shock A life-threatening allergic reaction Caused by the release of histamine by many mast cells and basophils Airways constrict and blood pressure drops as capillary permeability soars

30 Autoimmune Disorders Immune system makes antibodies against self antigens Grave’s disease Myasthenia gravis Rheumatoid arthritis

31 SCIDs Severe combined immunodeficiency Body’s ability to make lymphocytes is impaired or nonexistent High vulnerability to infection ADA deficiency is a heritable SCID Has been successfully treated using gene therapy


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