Transcript Immunity
Immunity Chapter 40 What is a disease? • Any change that disrupts the normal function of the body • Not caused by injury • Causes = Genetic (DNA mutation), Pathogens (bacteria), Environmental (smoking) Pathogens • Disease-causing agents • “sicknessmakers” • infectious diseases • (ex.) protist, bacteria, virus, worm, fungi Germ Theory of Disease • Ancient Times = diseases caused by curses, evil spirits, vapors, etc… • 1800’s = Louis Pasteur and Robert Koch = infectious diseases were caused by microorganisms of different types called germs How do you know what causes the Disease? • Kochs Postulates: 1. Pathogen found in sick organism and not healthy organism 2. Pathogen is isolated and grown in a lab 3. Pathogen is placed on a healthy organism and it develops the disease 4. Pathogen from injected host is isolated and it is identical to the original pathogen Koch Postulate Example • Allen Steere (1975) – Several children in a small area with the same symptoms (rash, arthritis) – All children had tick bites – Ticks have the bacteria Borrelia burgdorferi – Isolate the bacteria, grow it, put it in lab rats – Lab rat gets sick with same symptoms – bacteria isolated from sick rat – Ticks with the bacteria cause Lyme Disease Why do Pathogens like us? • Our body temperature is good for growth • watery environment (most pathogens dehydrate easily) • abundance of nutrients (eat us or our food) How does a pathogen infection result in Disease? • Viruses = take over and kill cells, disrupt normal function of the cell • Bacteria = 1) destroy tissue for food or 2) release harmful toxins How does a pathogen infection result in Disease? • Protists = mostly by feeding off of our nutrients and sometimes producing harmful toxins • Worms = Disrupt normal cell function, eat tissue, eat nutrients • Fungi = disrupt normal cell function (usually skin cells) How do diseases spread? 1. Physical Contact: coughing, sneezing, physical contact 2. Contaminated food and water 3. Infected Animals (vectors) Antibiotics • Discovered by Alexander Fleming (1928) • Compounds that kill bacteria without killing other cells within the host • Most are naturally occurring (fungi, sulfur based) and some are synthetic • They have no effect on viruses • Over-the-counter drugs only treat the symptoms Immunity Chapter 40 Your Immune System • Fights off infections • Produces cells that search and destroy foreign cells (immunity) • 2 types of Defenses: Specific and Non-Specific Non-Specific Defenses 1. The Skin: (1st line of Defense) - keeps pathogens out of the body - protective seal - If broken, pathogens can get in (swelling, redness, pain) Non-Specific Defenses • Body Fluids: (1st line of Defense) – Saliva and Tears = contain lysozyme that breaks down bacteria cell walls – Oil and Sweat = make the skin acidic which kills bacteria too – Mucus = traps pathogens that try to enter the mouth and nose – Stomach Acid = destroy any pathogen that makes it to the stomach 2. Inflammatory Response (2nd Line of Defense) - white blood cells are produced - blood vessels expand (more circulation) - Fever = increased body temperature kills some pathogens and it also increases the heart rate so WBC get there faster Non-Specific Defenses Non-Specific Defenses • Interferon – how your body reacts to a viral infection – released from infected cells to prevent other cells from being infected – slows down the infection by blocking viral replication Specific Defenses Cell Types: - B-Cells = protect against infections in the body’s fluids - T-cells = protect against abnormal cells and infections within cells Specific Defenses • More Cell Types: - Antibodies = proteins that attack pathogens - Memory Cells = cells that remember how to kill specific pathogens - Antigens = a substance that triggers an immune response (start button) Humoral Immunity 1. A pathogen infects a body fluid 2. Antigens trigger the production of more B-cells and Plasma Cells 3. Plasma cells produce antibodies 4. Antibodies kill the pathogen 5. Memory cells are made to remember how to kill that pathogen next time Cell-Mediated Immunity 1. Cells become cancerous or are infected with a virus, fungi, or protist 2. T-Cells turn into 4 types and the Stop the Infection: – Killer T-Cells: destroy the pathogen – Helper T-Cells: produce memory T-cells – Memory T-cells: remember how to kill pathogen for next time – Suppressor T-cells: tell killer T-Cells to stop Organ Transplants • Every cell has a marker on it that identifies it to the tcells (ID card) • T-Cells check the ID’s and destroy anything that doesn’t belong • We can transplant organs by: – 1. Picking a donor with similar ID cards – 2. Suppressing the t-cells after a transplant Active Immunity • Vaccinations: – A weakened dose of a pathogen – Safe 1st response – 20 vaccinations currently available – Natural and synthetic Passive Immunity • Antibodies produced by one animal are placed inside another animal • Only lasts a short time because the foreign antibodies will be killed by T-cells • Mothers pass on immunity to their children through the placenta and breast milk Allergies • Overreaction of the immune system • allergens (pollen, dust, bee stings, food) trigger a immune response • Histamines - chemicals released during an allergic reaction – cause sneezing, watery eyes, mucus, increased blood flow, etc... Auto-Immune Diseases • When the immune system attacks the body’s own cells instead of foreign cells • Multiple Sclerosis (MS) = immune system attacks the nervous system – loss of mobility – numbness – loss of balance AIDS • Caused by the HIV virus • the HIV attacks and kills T-Cells • Without T-Cells, body is unable to fight disease