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Transcript
The Human Immune System Video The Immune System Overview The Immune System Innate (nonspecific) defense mechanisms Adaptive (specific) defense mechanisms First Line of Defense Second Line of Defense Third Line of Defense • Skin • Mucous Membranes • Secretions of skin and mucous membranes • Phagocytic Cells • Antimicrobial proteins • The inflammatory response • Lymphocytes • Antibodies • Macrophages What is the immune system? • The body’s defense against disease causing organisms, malfunctioning cells, and foreign particles The First Line of Defense ~Skin~ - The dead, outer layer of skin, made up of keratinized epidermis, forms a physical shield against invaders and secretes chemicals that kill potential invaders - You shed between 40 – 50 thousand skin cells every day! The First Line of Defense ~Acidic pH of skin secretions~ • Skin’s acidic secretions inhibit bacterial growth • Sebum contains chemicals that are toxic to bacteria • Vaginal secretions in females are very acidic. The First Line of Defense ~Mucus and Cilia~ - As you breathe in, foreign particles and bacteria bump into mucus throughout your respiratory system and become stuck - Hair-like structures called cilia sweep this mucus into the throat for coughing or swallowing Don’t swallowed bacteria have a good chance of infecting you? The First Line of Defense ~Saliva~ What’s the first thing you do when you cut your finger? - Saliva contains lysozyme, an enzyme that breaks down bacteria - Thousands of different types of bacteria can survive saliva The First Line of Defense ~Stomach Acid~ - Swallowed bacteria are broken down by incredibly strong acids in the stomach that break down your food - The stomach must produce a coating of special mucus or this acid would eat through the stomach! Think of the human body as a hollow plastic tube… The food is digested within the hole in the tube, but it never actually enters into the solid plastic material. Tube inner surface ~Digestive System~ Tube outer surface ~Skin~ Plastic interior ~Body~ Escherichia coli is common and plentiful in all of our digestive tracts. Why are we all not sick? - These bacteria are technically outside the body and aid in digesting material we cannot - Only if E.Coli are introduced in an unnatural manner can they break through the first line of defense and harm us Second Line of Defense • Non-Specific response – do not target specific cells • Include: – Phagocytes • Macophages – Complement Proteins – Inflammation The Second Line of Defense ~White Blood Cells~ - If invaders actually get within the body, then your white blood cells (WBCs) begin their attack - WBCs normally circulate throughout the blood, but will enter the body’s tissues if invaders are detected Video White Blood Cells ~Phagocytes~ • These white blood cells are responsible for eating foreign particles by engulfing them • Once engulfed, the phagocyte breaks the foreign particles apart in organelles called ________ Lysosomes Where could invaders hide from phagocytes? Phagocytosis by a macrophage Second Line of Defense ~ Antimicrobial Proteins~ • Enhance defenses by attacking microorganisms directly or by hindering their ability to reproduce. • Most Common: – Complement Proteins – Interferons Complement Proteins • Consists of ~20 plasma proteins that circulate the blood in an inactive state. • They become activated by attaching to pathogens such as bacteria and fungi. • Once activated they form a membrane attack complex (MAC). – Punches holes in pathogens allowing water to leak in and causes them to burst! – Enhances phagocytosis and intensifies inflammatory response. Viruses Viruses enter body cells, hijack their organelles, and turn the cell into a virus making-factory. The cell will eventually burst, releasing thousands of viruses to infect new cells. Cell before infection… …and after. The Second Line of Defense ~Interferons~ - Virus-infected body cells release interferon when an invasion occurs - Interferon – chemical that interferes with the ability for viruses to attack other body cells What happens to already infected cells? White Blood Cells ~Natural Killer Cells~ • Natural killer cells, police the body in blood and lymph and recognize infected human cells and cancer cells • They are not picky about which non-self cells to attack. • NK cells attack target cells membrane and release a lytic chemical called perforin, killing the cell. The Second Line of Defense ~The Inflammatory Response~ - Injured body cells release chemicals called histamines, which begin inflammatory response - Capillaries dilate Temperature rises Pain receptors activate WBCs flock to infected area like sharks to blood called “chemotaxis” Homeostatic Imbalance • PUS = mixture of dead or dying neutrophils, broken down tissue cells, and living and dead pathogens. • ABSCESSES = failure of inflammatory response to clear area of debris, pus becomes walled off and often needs to be surgically drained before healing occurs. PUS & ABSCESS The Third Line of Defense ~Antibodies~ - Most infections never make it past the first and second levels of defense - Those that do trigger the production and release of antibodies - Proteins that latch onto, damage, clump, and slow foreign particles - Each antibody binds only to one specific binding site, known as an antigen Antibody Production - WBCs gobble up invading particles and break them up - They show the particle pieces to T-cells, who identify the pieces and find specific B-cells to help - B-cells produce antibodies that are equipped to find that specific piece on a new particle and attach Video - 1:58 Defenses Against Disease (cont.) Two major types of lymphocytes B Cells and T Cells Response Recognize antigens in the body B cells Respond to antigens by becoming plasma cells Plasma cells make antibodies Memory B cells produce stronger response with next exposure to antigen T Cells Cell-mediated response Bind to antigens on cells and attack them directly Secrete lymphokines that increase T cell production and directly kill cells with antigens Immunity - New particles take longer to identify, and a person remains ill until a new antibody can be crafted - Old particles are quickly recognized, and a person may never become ill from that invader again. This person is now immune. What is immunity? - Resistance to a disease causing organism or harmful substance - Two types - Active Immunity - Passive Immunity Active Immunity - You produce the antibodies - Your body has been exposed to the antigen in the past either through: - Exposure to the actual disease causing antigen – You fought it, you won, you remember it - Planned exposure to a form of the antigen that has been killed or weakened – You detected it, eliminated it, and remember it What is this second type of exposure called? Vaccine • Antigens are deliberately introduced into the immune system to produce immunity • Because the bacteria has been killed or weakened, minimal symptoms occur • Have eradicated or severely limited several diseases from the face of the Earth, such as polio and smallpox How long does active immunity last? • It depends on the antigen • Some disease-causing bacteria multiply into new forms that our body doesn’t recognize, requiring annual vaccinations, like the flu shot • Booster shot - reminds the immune system of the antigen • Others last for a lifetime, such as chicken pox Think the flu is no big deal? - Think again… - In 1918, a particularly deadly strain of flu, called the Spanish Influenza, spread across the globe - It infected 20% of the human population and killed 5%, which came out to be about 100 million people Do we get all the possible vaccines we can? • Although the Center for Disease Control (CDC) recommends certain vaccines, many individuals go without them • Those especially susceptible include travelers and students • Consider the vaccine for meningitis, which is recommended for all college students and infects 3,000 people in the U.S., killing 300 annually Link Passive Immunity • You don’t produce the antibodies – A mother will pass immunities on to her baby during pregnancy - through what organ? Placenta – These antibodies will protect the baby for a short period of time following birth while its immune system develops. What endocrine gland is responsible for this? Thymus – Lasts until antibodies die Why doesn’t the mother just pass on the WBCs that “remember” the antigens? Immune Disorders ~Allergies~ - Immune system mistakenly recognizes harmless foreign particles as serious threats - Launches immune response, which causes sneezing, runny nose, and watery eyes - Anti-histamines block effect of histamines and bring relief to allergy sufferers Acute hypersensitivity • Triggered by release of a flood of histamine when antibodies bind to mast cells. • Histamine dilates small blood vessels causing: a runny nose, watery eyes, and itching. • Anaphylactic shock: when allergen enters the blood. Delayed hypersensitivity • Cytokines are released instead of histamine • Cortisone drugs are used for relief • Most familiar examples are classed as allergic contact dermatitis. – Poison ivy, deodorant chemicals, cosmetics Aquired Immune Deficiency Syndrome • Caused by the Human Immunodeficiency Virus • Discovered in 1983 • Specifically targets and kills T-cells • Because normal body cells are unaffected, immune response is not launched AIDS ~The Modern Plague~ - The HIV virus doesn’t kill you – it cripples your immune system - With your immune system shut down, common diseases that your immune system normally could defeat become life-threatening - Can show no effects for several months all the way up to 10 years AIDS ~The Silent Spread~ • Transmitted by sexual contact, blood transfusions, contaminated needles • As of 2007, it affects an estimated 33.2 million people Bubonic Plague • Caused by a bacterium called Yersinia pestis, is transmitted from rodent to rodent by fleas Botulism • A rare but serious paralytic illness caused by a nerve toxin that is produced by a bacteria. There are three main kinds: foodborne, wound, and infant. Toxin has also been used cosmetically. Botulism Tuberculosis • A disease caused by bacteria that are spread from person to person through the air. this disease usually affects the lungs, but it can also affect other parts of the body, such as the brain, the kidneys, or the spine; active and latent forms exist; common diagnosis is from a skin test. TB