The Immune System
What is its function? PROTECTION FROM INVADERS! Three Lines of Defense: Innate Immunity 1. External Defenses - BROAD 2. Internal Defenses - BROAD 3. Acquired Immunity - SPECIFIC
1. External Defenses The Skin and Mucous Membranes Physical barriers; trap microbes Secrete substances (oil, sweat, etc.) that makes the skin too acidic for microbes to live there Also secrete lysozyme, an enzyme that can destroy bacterial cell walls This first line of defense occurs INNATELY
2. Internal Defenses If an invader gets inside the body, the internal defenses (2 nd line of defense!) take over A) Phagocytes White blood cells that “eat” invaders Invaders (bacteria/virus/etc) are then digested by lysosome
2. Internal Defenses B) Interferons Special proteins that virus-infected body cells send out as a “warning” to other body cells The other body cells then make other substances to protect themselves from the viruses
2. Internal Defenses C) Inflammatory Response Damage to tissue (from physical injury or the entry of pathogens) leads to inflammation Histamine is released This causes INCREASED BLOOD FLOW to the area This brings clotting factors, platelets, phagocytes, etc. to help REPAIR (ie. Highway during evacuation)
2. Internal Defenses D) Natural Killer Cells Patrol the body and attack virus-infected cells and cancer cells Surface receptors (“nametags”) identify these cells All 4 of these internal defenses (phagocytes, interferons, inflammatory response, and natural killer cells) occur INNATELY
3. Acquired Immunity Acquired immunity is the third line of defense Acquired immunity only comes after EXPOSURE to a specific pathogen Acquired immunity occurs more slowly than innate immunity Think of yourself… making actual words (learning!) took much more time than making sound (innate!)
3. Acquired Immunity Acquired immunity is performed by lymphocytes Made in the bone marrow B-cells: mature in the bone marrow T-cells: mature in the thymus
3. Acquired Immunity An antigen is a foreign molecule that is recognized by lymphocytes and causes them to respond An antigen is usually a surface marker (“nametag”) Lymphocytes Have antigen receptors (100,000 on each cell!) that recognize a SPECIFIC antigen SPECIFIC!!
3. Acquired Immunity B-lymphocytes are responsible for the humoral immune response They are responsible for pathogens OUTSIDE of cells (in body fluids, etc.) Once a B-lymphocyte is “activated” by coming in direct contact with THEIR SPECIFIC ANTIGEN, they reproduce a lot (using clonal selection) in order to destroy the invader
3. Acquired Immunity These B-lymphocytes have different jobs: Some are effector cells Make antibodies! Antibodies are special proteins that bind onto the ANTIGENS of the “invaders,” which flags them for destruction (usually by macrophages) Others are memory cells These cells live a long time, and can respond quickly if this same antigen is seen again
3. Acquired Immunity T-lymphocytes are responsible for the cell- mediated immune response They guard against invaders inside cells (viruses, other pathogens) Cytotoxic T cells They are the effectors (“hit men”) of the cell-mediated immune response They kill infected body cells or other cells that don’t belong (like tumors) Some of these cells will become memory cells, so they can be reactivated if the pathogen “strikes again”
The Immune System Key Features of the Immune System Specificity Recognizes SPECIFIC invaders – species of bacteria, for example Due to ANTIGENS on the invader “nametags” Diversity The immune system can respond to millions of different invaders because it has so many different lymphocytes “on reserve”
The Immune System Key Features of the Immune System Memory The immune system can “remember” antigens it’s seen before and react more quickly the second, third, etc. time it sees them Acquired immunity Because of memory cells! Self/Nonself Recognition The immune system can distinguish between the body’s own molecules from foreign molecules Autoimmune disorders (example: AIDS) means that this part of the immune system is not working – the immune system destroys the body’s own tissues HIV destroys cytotoxic T cells, so they can’t STOP the invasion!
Passive vs. Active Immunity Passive Immunity Transferring antibodies from one person to another, without the B-lymphocytes having to make them! The person will already have the memory cells and antibodies, so the next response will be quicker! Example: Pregnant mother passes antibodies to her fetus through the placenta
Passive vs. Active Immunity Active Immunity Immunity to a specific pathogen that comes because the immune system has seen it before! Can come naturally Been sick with the pathogen before Example: had measles before, 2 nd time won’t take as long to respond Can come artificially Immunization Edward Jenner - smallpox Stimulates B-lymphocytes to make antibodies AND memory cells
Allergies Allergies are hypersensitivies of the immune system to an environmental molecule because of its ANTIGENS Anaphylactic shock Life-threatening allergic reactions to ingested or injected allergens Peanuts, shellfish, bee stings, etc.