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- 1. Lesson Overview Defenses Against Infection Lesson Overview 35.2 Defenses Against Infection
- 2. Lesson Overview Defenses Against Infection THINK ABOUT IT With pathogens all around us, it might seem amazing that most of us aren’t sick most of the time. Why are we usually free from infections, and why do we usually recover from pathogens that do infect us? One reason is that our bodies have an incredibly powerful and adaptable series of defenses that protect us against a wide range of pathogens.
- 3. Lesson Overview Defenses Against Infection Nonspecific Defenses What are the body’s nonspecific defenses against pathogens?
- 4. Lesson Overview Defenses Against Infection Nonspecific Defenses What are the body’s nonspecific defenses against pathogens? Nonspecific defenses include the skin, tears and other secretions, the inflammatory response, interferons, and fever.
- 5. Lesson Overview Defenses Against Infection Nonspecific Defenses The body’s first defense against pathogens is a combination of physical and chemical barriers. These barriers include the skin, tears and other secretions, the inflammatory response, interferons, and fever. These barriers are called nonspecific defenses because they act against a wide range of pathogens.
- 6. Lesson Overview Defenses Against Infection First Line of Defense The most widespread nonspecific defense is the skin. Very few pathogens can penetrate the layers of dead cells that form the skin’s surface.
- 7. Lesson Overview Defenses Against Infection First Line of Defense Other nonspecific defenses protect parts of the body that are not covered by skin, such as the mouth, nose, and eyes. Saliva, mucus, and tears contain lysozyme, an enzyme that breaks down bacterial cell walls. Mucus in your nose and throat traps pathogens. Then, cilia push the mucous-trapped pathogens away from your lungs. Stomach secretions destroy many pathogens that are swallowed.
- 8. Lesson Overview Defenses Against Infection Second Line of Defense If pathogens make it into the body, through a cut in the skin, for example, the body’s second line of defense swings into action. These mechanisms include the inflammatory response, the actions of interferons, and fever.
- 9. Lesson Overview Defenses Against Infection Inflammatory Response The inflammatory response causes infected areas to become red and painful, or inflamed. The response begins when pathogens stimulate cells called mast cells to release chemicals known as histamines. Histamines increase the flow of blood and fluids to the affected area.
- 10. Lesson Overview Defenses Against Infection Inflammatory Response Fluid leaking from expanded blood vessels causes the area to swell. White blood cells move from blood vessels into infected tissues.
- 11. Lesson Overview Defenses Against Infection Inflammatory Response Many of these white blood cells are phagocytes, which engulf and destroy bacteria. All this activity around a wound may cause a local rise in temperature. That’s why a wounded area sometimes feels warm.
- 12. Lesson Overview Defenses Against Infection Interferons When viruses infect body cells, certain host cells produce proteins that inhibit synthesis of viral proteins and help block viral replication. Scientists named these proteins interferons because they “interfere” with viral growth. Interferons slow down the progress of infection and “buy time” for specific immune defenses to respond.
- 13. Lesson Overview Defenses Against Infection Fever The immune system also releases chemicals that increase body temperature, producing a fever. The increased body temperature may slow down or stop the growth of some pathogens. Higher body temperature also speeds up several parts of the immune response.
- 14. Lesson Overview Defenses Against Infection Specific Defenses: The Immune System What is the function of the immune system’s specific defenses?
- 15. Lesson Overview Defenses Against Infection Specific Defenses: The Immune System What is the function of the immune system’s specific defenses? The immune system’s specific defenses distinguish between “self” and “other,” and they inactivate or kill any foreign substance or cell that enters the body.
- 16. Lesson Overview Defenses Against Infection Recognizing “Self” A healthy immune system recognizes all cells and proteins that belong in the body, and treats these cells and proteins as “self.” This ability to recognize “self” is essential, because the immune system controls powerful cellular and chemical weapons that could cause problems if turned against the body’s own cells.
- 17. Lesson Overview Defenses Against Infection Recognizing “Nonself” The immune system recognizes foreign organisms and molecules, as “other,” or “nonself.” Once the immune system recognizes invaders as “others,” it uses cellular and chemical weapons to attack them. After encountering a specific invader, the immune system “remembers” the invader, enabling a more rapid and effective response if that same pathogen or a similar one attacks again. This specific recognition, response, and memory are called the immune response.
- 18. Lesson Overview Defenses Against Infection Antigens Specific immune defenses are triggered by molecules called antigens. An antigen is any foreign substance that can stimulate an immune response. Typically, antigens are located on the outer surfaces of bacteria, viruses, or parasites. The immune system responds to antigens by increasing the number of cells that either attack the invaders directly or that produce proteins called antibodies.
- 19. Lesson Overview Defenses Against Infection Antigens The main role of antibodies is to tag antigens for destruction by immune cells. Antibodies may be attached to particular immune cells or may be free-floating in plasma. The body makes up to 10 billion different antibodies. The shape of each type of antibody allows it to attach to one specific antigen.
- 20. Lesson Overview Defenses Against Infection Lymphocytes The main working cells of the immune response are B lymphocytes (B cells) and T lymphocytes (T cells). B cells are produced in, and mature in, red bone marrow. B cells have embedded antibodies and discover antigens in body fluids.
- 21. Lesson Overview Defenses Against Infection Lymphocytes T cells are produced in the bone marrow but mature in the thymus— an endocrine gland. T cells must be presented with an antigen by infected body cells or immune cells that have encountered antigens.
- 22. Lesson Overview Defenses Against Infection Lymphocytes Each B cell and T cell is capable of recognizing one specific antigen. A person’s genes determine the particular B and T cells that are produced. When mature, both types of cells travel to lymph nodes and the spleen, where they will encounter antigens.
- 23. Lesson Overview Defenses Against Infection The Immune System in Action What are the body’s specific defenses against pathogens?
- 24. Lesson Overview Defenses Against Infection The Immune System in Action What are the body’s specific defenses against pathogens? The specific immune response has two main styles of action: humoral immunity and cell-mediated immunity.
- 25. Lesson Overview Defenses Against Infection Humoral Immunity The immune response that defends against antigens in body fluids, such as blood and lymph, is called humoral immunity. B cells play the major role in humoral immunity. When a pathogen invades the body, its antigens are recognized by antibodies on the surfaces of a few existing B cells. Antibodies are the main weapons of the humoral immune response.
- 26. Lesson Overview Defenses Against Infection Humoral Immunity An antibody is shaped like the letter Y and has two identical antigen-binding sites. The shapes of the binding sites enable an antibody to recognize a specific antigen with a complementary shape.
- 27. Lesson Overview Defenses Against Infection Humoral Immunity When an antigen binds to an antibody carried by a B cell, T cells stimulate the B cell to grow and divide rapidly. That growth and division produces many B cells of two types: plasma cells and memory B cells.
- 28. Lesson Overview Defenses Against Infection Plasma Cells Plasma cells produce and release antibodies that are carried through the bloodstream. These antibodies recognize and bind to free-floating antigens or to antigens on the surfaces of pathogens. When antibodies bind to antigens, they signal other parts of the immune system to attack and destroy the invaders. Some types of antibodies can disable invaders until they are destroyed.
- 29. Lesson Overview Defenses Against Infection Plasma Cells A healthy adult can produce about 10 billion different types of antibodies, each of which can bind to a different type of antigen! This antibody diversity enables the immune system to respond to virtually any kind of “other” that enters the body.
- 30. Lesson Overview Defenses Against Infection Memory B Cells Plasma cells die after an infection is gone, but some B cells that recognize a particular antigen remain alive. These cells, called memory B cells, react quickly if the same pathogen enters the body again.
- 31. Lesson Overview Defenses Against Infection Memory B Cells Memory B cells rapidly produce new plasma cells to battle a returning pathogen. This secondary response occurs much faster than the first response to a pathogen. Immune memory helps provide long-term immunity to certain diseases and is the reason that vaccinations work.
- 32. Lesson Overview Defenses Against Infection Cell-Mediated Immunity Another part of the immune response, which depends on the action of macrophages and several types of T cells, is called cell-mediated immunity. This part of the immune system defends the body against viruses, fungi, and single-celled pathogens. T cells also protect the body from its own cells when they become cancerous.
- 33. Lesson Overview Defenses Against Infection Cell-Mediated Immunity When a cell is infected by a pathogen or when a phagocyte consumes a pathogen, the cell displays a portion of the antigen on the outer surface of its membrane. This membrane attachment is a signal to circulating T cells called helper T cells.
- 34. Lesson Overview Defenses Against Infection Cell-Mediated Immunity Activated helper T cells divide into more helper T cells, which go on to activate B cells, activate cytotoxic T cells, and produce memory T cells.
- 35. Lesson Overview Defenses Against Infection Cell-Mediated Immunity Cytotoxic T cells hunt down body cells infected with a particular antigen and kill the cells. They kill infected cells by puncturing their membranes or initiating apoptosis (programmed cell death).
- 36. Lesson Overview Defenses Against Infection Cell-Mediated Immunity Memory helper T cells enable the immune system to respond quickly if the same pathogen enters the body again.
- 37. Lesson Overview Defenses Against Infection Cell-Mediated Immunity Another type of T cell, called suppressor T cells, inhibits the immune response once an infection is under control. They may also be involved in preventing autoimmune diseases.
- 38. Lesson Overview Defenses Against Infection Cell-Mediated Immunity Although cytotoxic T cells are helpful in the immune system, they make the acceptance of organ transplants difficult. When an organ is transplanted from one person to another, the normal response of the recipient’s immune system would be to recognize it as nonself. T cells and proteins would damage and destroy the transplanted organ in a process known as rejection. To prevent organ rejection, doctors search for a donor whose cell markers are nearly identical to the cell markers of the recipient. Organ recipients must take drugs—usually for the rest of their lives—to suppress the cell-mediated immune response.