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Learn about the body's defense mechanisms, including the immune system, innate and acquired immunity, phagocytes, lymphocytes, antibodies, and more. Explore the three lines of defense and how they protect against invaders. Discover the inflammatory response and the role of T and B cells in acquired immunity.
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Chapter 43:The Body’s Defenses • How does your body protect you from invaders?
Immune System Review • Microorganism/Microbe • Pathogen • Antibiotic • Antibody • Antigen
Key Concepts • 3 Lines of Defense • Innate vs. Acquired immunity • Phagocytes, Lymphocytes, Antibodies, etc… • Humoral vs. Cell-Mediated immunity • Distinguishing self from non-self • Tissue transplantation • Immune Diseases/Disorders
Using HIV to treat Cancer?? http://abcnews.go.com/WNT/video/doctors-hiv-treat-cancer-17929437
What do you think? • How does your body INITIALLY defend itself from invasion? (1st line – specific or non?) • What happens if the invader gets past the 1st line? (2nd line – specific or nonspecific?) • What about more serious infections? (3rd line)
1st line Defense!! • Skin, mucus, cilia, saliva, acids, tears, oils, bacteria, coughing, sneezing, vomiting • Antimicrobial proteins & Lysozymes
Innate vs. Acquired Immunity • Innate Immunity: • Present before exposure; since birth • Includes natural bodily defenses, mother’s milk, or casual exposure • Broad-range capabilities, non-specific • External defenses: • skin, mucus membranes, tears • Internal Phagocytic cells • A.K.A.: “macrophages”; engulf invaders
Innate vs. Acquired Immunity • Acquired Immunity: • Develops only after exposure • Highly microbe-specific… how? • Employ lymphocytes & antibodies • Involves both Humoral & Cell-Mediated responses
Phagocytic White Blood Cells • Recognize & bind to carbohydrate markers on foreign cell membranes • Triggersreceptor-mediated endocytosis • Engulf & digest pathogens via Phagocytosis
Eosinophils: 1.5% of WBCs; destroy large parasites extracellularly Natural killer (NK) cells: trigger apoptosis in virus-infected cells & cancer cells Neutrophils: 60-70% of WBCs; engulf and destroy microbes at infected tissue; short lived Monocytes: 5% of WBCs; develop into…. Macrophages: “big eaters” enzymatically destroy microbes; can be found in spleen, lymph nodes, and other organs Types of White Blood Cells
Leukocyte vs. Lymphocyte • Leukocyte = • White blood cells (WBC’s) • Lymphocyte = • Specific type of WBC that mature and migrate through the lymphatic system and target specific antigens via antibodies, receptors and toxin release
The Inflammatory Response • “Inflammation” = pain, swelling, fever, redness, itching, and pus
Causes of Inflammation • Injuries • Exposure to microbes/pathogens • Exposure to foreign objects or chemicals (insect bites, stings, medications, etc) • Exposure to allergens (pollen, pet dander, foods, etc) • Rare: sunlight, temperature, self!
The Inflammatory Response3 Steps: 1.Tissue damage = release of chemical signals~ • Mast cells release chemicals known as Histamine & Prostaglandins that trigger inflammation 2.Dilation increases permeability of capillaries~ • Increased blood flow; leukocytes leak out to infected area • Delivery of clotting factors & antimicrobial proteins 3. Phagocytosis of pathogens~ • WBC’s engulf microbes or damaged tissue • Fever: leukocyte-released chemicals increase body temperature
Specific Immunity • Antigen: • a foreign molecule that elicits a response from a lymphocyte • Lymphocyctes: • WBC’s that originate from stem cells in bone marrow • B Cells (mature in bone marrow) • T Cells (mature in thymus) • Antibodies: • antigen-binding immunoglobulin, produced by B cells • Antigen receptors: • membrane receptors on B and T cells
Ch. 43 Research: • Humoral vs. Cell-mediated Responses • B cells vs. T cells • Memory cells • Clonal selection • Autoimmune disease
T cells: Mature in Thymus Target antigen fragments bound to MHC molecules on Infected Cells Part of Cell Mediated Response B cells: Mature in Bone Marrow Target in-tact Antigens Part of Humoral Response T cells vs. B cells
Humoral vs. Cell-Mediated Humoral immunity • B cell activation • Production of antibodies • Defend against intact antigens free in the lymph and blood plasma • (bacteria, toxins, and viruses)
Humoral response: B cells • Stimulated by an antigen-presenting macrophage(WBC w/ a germ on it) • Activates Helper T cells • T cells secrete cytokine chemicals that activate B cells • B cells differentiate into memory B cells and antibody-producing plasma cells
Cytokines • Cytokine: • Proteins secreted by phagocytic cells (macrophages, etc.) and T-helper cells • Activate Lymphocytes (B & T cells)
Humoral Response: • B cells activate. • Plasma cells secrete antibodies. • Antibodies attach to antigens. • Antigens agglutinate (stick together) & get disposed. • Macrophages phagocytose or lyse the cell.
Cell-Mediated Cell-mediated immunity • T cells are activated. • T cells bind to and/or lyse infected cells. • Defend against cells infected with bacteria, viruses, fungi, protozoa, parasites, even cancer!
Cell-mediated Response • 1) Cell surface molecules expose antigens (foreign proteins). • 2) Cytotoxic T cell releases perforin, a protein that forms pores in the target cell membrane. • causes cell lysis and exposes pathogens to circulating antibodies for disposal
Cell Mediated Response Humoral Response Antigens on Infected Cells In Tact Antigens B Cell Activation T Cell Activation Secrete antibodies that defend against pathogens & toxins in extracellular fluid Defend against infected cells, cancer and transplanted tissues
Clonal Selection • Clonal selection: • antigen-driven cloning of lymphocytes • Effector cells: • short-lived cells that combat the antigen initially • Memory cells: • long-lived cells that bear receptors for the antigen and activate upon subsequent exposure.
Active vs. Passive Immunity • Active: natural exposure to antigens causes one’s own lymphocytes to activate and produce antibodies • May also be acquired by Immunizations • Passive: direct transfer of antibodies through placenta or mother’s milk
HIV • Human Immunodeficiency Virus • Causes AIDS (Acquired Immune Deficiency Virus) • HIV (a retrovirus) attacks helper T cells by binding with their cell receptor (CD4) • This impacts both the Humoral and Cell Mediated responses
Clonal Selection Hypothesis • Each lymphocyte bears one specific type of receptor. • Receptor/antigen binding is required for cell activation. • Activated lymphocytes divide and give rise to cells with identical receptors to the parent. • This is how your immune system “remembers” a pathogen later!
Clonal Selection Hypothesis • First, those lymphocytes bearing receptors compatible to “self” tissues are destroyed (3) • Second, those bearing receptors that match foreign antigens are activated then cloned (5/6)
Self/Nonself Recognition • Self-tolerance: • Capacity to distinguish self from non-self molecules • Autoimmune diseases: • Failure of self-tolerance mechanisms • Multiple sclerosis, lupus, rheumatoid arthritis, insulin-dependent diabetes mellitus, Crohn’s disease
Abnormal immune function • Allergies: • hypersensitive responses to environmental antigens (allergens) • causes dilation and blood vessel permeability • Histamines are released from Mast cells • Autoimmune disease: • multiple sclerosis • Lupus • rheumatoid arthritis • insulin-dependent diabetes mellitus • Immunodeficiency disease: • SCIDS (bubble-boy) • A.I.D.S. (HIV)
Cancer & the Immune System • Tumor cells are targeted by both Cytotoxic T cells and Natural Killer (NK) cells • How might some tumors escape detection??
Treg research: Article Review • What are “Regulatory T Cells” (Tregs)? • What is their role in immunity? • How might they be linked with cancer? • Article: “Regulatory T cells and tumour immunity – observations in mice and men” by Gallimore and Godkin, 2007
Major Histocompatibility Complex • Aka: “MHC” • Cell surface proteins that display fragments of antigens or processed proteins on the cell surface • Epitope: • region of antigen surface recognized by antibodies
Induction of Immune Responses • Primary immune response: • lymphocyte proliferation and differentiation the 1st time the body is exposed to an antigen • Plasma cells: • antibody-producing B-cells • Secondary immune response: • immune response if the individual is exposed to the same antigen at a later time~ Immunological memory
Types of Immunoglobins • IgM: • 1st to circulate; indicates infection; too large to cross placenta • IgG: • most abundant; crosses walls of blood vessels and placenta; protects against bacteria, viruses, & toxins; activates complement • IgA: • produced by cells in mucous membranes; prevent attachment of viruses/bacteria to epithelial surfaces; also found in saliva, tears, and perspiration • IgE: • very large; small quantity; releases histamines-allergic reaction
Antibody-Mediated Antigen Disposal • Neutralization (opsonization): • antibody binds to and blocks antigen activity • Agglutination: • antigen clumping • Precipitation: • cross-linking of soluble antigens • Complement fixation: • lyses viruses and pathogenic cells & activates cell surface proteins to break down the cell
Immunity in Health & Disease • Active immunity: • natural: conferred immunity by recovering from disease • artificial: immunization and vaccination; produces a primary response • Passive immunity: • transfer of immunity from one individual to another • natural: mother to fetus; breast milk • artificial: rabies antibodies • ABO & Rh blood groups (antigen presence)