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THE IMMUNE SYSTEM: INNATE AND ADAPTIVE BODY DEFENSES

THE IMMUNE SYSTEM: INNATE AND ADAPTIVE BODY DEFENSES

I. A variety of cells and structures work together to protect the human body from bacterial,
   fungal and viral infection. This resistance to disease (also known as immunity) allows the
   body to maintain its health.
            A. There are two primary defense systems in the body that work both independently and
                 cooperatively to provide resistance to disease. Those two systems are:
                        1. The Innate (Nonspecific) System
                        2. The Adaptive (Specific) System
            B. The immune system is considered to be a functional system instead of an organ
                 system. It is composed of chemicals and trillions of immune cells that inhabit
                 lymphoid tissue and circulate in body fluids.
                        1. When functioning properly, this system protects the body from infectious
                             microorganisms and cancer cells.
II. INNATE (NONSPECIFIC) DEFENSES-this system responds quickly to protect the body
    from pathogens and infection.
            A. There are two major lines of defense that make up the Innate Defensive System:
                        1. Surface barriers or external body membranes which prevent the penetration
                            of pathogens into the body.
                        2. Inflammation-which includes a variety of proteins, cells and phagocytes which
                            work together to prevent the spread of pathogens throughout the body.
            B. Surface Barriers: Skin and Mucosae
                        1. This system works well as long as the thick keratinized epithelial tissue of the
                            skin is not broken.
                                    a. The thick protein keratin is also resistant to the acids and bases secreted
                                        by most bacteria. Recall that this protein is abundant in the skin.
                        2. Mucous Membranes line body cavities that open directly to the outside of the
                            body. Specific functions of mucous membranes in innate body defense
                            include:
                                    a. Serving as sticky surfaces to trap microorganisms before they enter
                                        body systems (such as the digestive and respiratory systems).
                                    b. Some membranes secrete chemicals that are toxic to some bacteria. For
                                        example the skin secretes sebumwhich kills some bacteria.
                                    c. Mucosa in the stomach secrete hydrochloric acid and protein-digesting
                                        enzymes, both of which act to kill microorganisms.
                                    d. Saliva cleanses the oral cavity and teeth.
                                    e. Lysozyme is secreted onto the surface of the eye. This enzyme functions
                                        by destroying bacteria.
                        3. On occasion, the various membranes of the body are nicked, scratched and cut.
                             When this occurs, microbes can invade deeper into the human body. At this
                              point, the internal innate defenses take over to fight off the invaders.
C. There are a number of internal innate defenses that help to fight off invading 
                 microorganisms. These include phagocytic cells, natural killer cells, antimicrobial
                 proteins, fever and inflammation.
D. Cells and Chemicals Involved In Internal Innate Defense
            1. Phagocytes-cells that feed on and destroy invading microorganisms.
                        a. Types of Phagocytic Cells
                                          1) Macrophages-primary phagocytes in the body. These are
                                              derived from leukocytes known as monocyteswhich leave
                                              the bloodstream, enter tissues and develop into macrophages.
                                          2) Neutrophils-most abundant type of leukocyte in the body,
                                              these become phagocytic upon encountering infectious
                                              materials in the body.
                                          3) Eosinophils-another type of leukocyte in the body, these can
                                              be phagocytic but they are best known for fighting parasitic
                                              worms.                          
                                          4) Free Macrophages-can move throughout the body searching
                                              for and destroying foreign invaders. Alveolar macrophages
                                              in the lungs are examples of free macrophages.
                                          5) Fixed Macrophages-are permanent residents of specific
                                              organs in the body. Kupffer Cells in the liver and microglia
                                              in the brain are examples of fixed macrophages.
                        b. Events That Occur In Phagocytosis
                                          1) Adherence-the phagocyte adheres to the pathogen. This is
                                              accomplished when the phagocyte recognizes either the
                                              protein or carbohydrate signature of the pathogen.
                                                a) Opsonization-process in which proteins and antibodies
                                                    coat the outer covering around a pathogen. This provides
                                                    “handles” for the phagocyte to attach to; thus increasing
                                                    the efficiency of phagocytosis.
                                          2) Phagocytosis of the pathogen
                        2. Natural Killer Cells-cells in the blood and lymph that can lyse and kill cancer
                            cells and virus-infected cells before the adaptive immune response is initiated.
                                    a. These are not specific and they develop from granular leukocytes.
                                    b. Again, proteins on the specific cell identify those cells for the natural
                                        killer cells.
                                    c. These destroy cells by releasing chemicals known as perforins which
                                        destroy the nucleus of cells (Killer Cells are not phagocytic).
            E. Inflammation
                        1. The inflammatory response is initiated when body tissues are injured. The
                            primary goal of inflammation is to clear the injured area of pathogens, dead
                            cells and any other debris so that tissue repair can begin.
                        2. Benefits of Inflammation:
                                    a. Prevents the spread of damaging agents into the body.
                                    b. Removes cell debris and pathogens
                                    c. Sets the stage for repair.
                        3. Redness, heat, pain and swelling are considered to be the key indicators of
                            inflammation.
                        4. Events in Inflammation
                                    a. Inflammation begins when chemicals and cells leave blood vessels
                                        and move into the injured tissue. Chemicals such as cytokines,
                                        histamine, kinins and prostaglandins all promote small blood vessels
                                        in the injured area to dilate; thus increasing blood flow to the area.
                                    b. The above chemicals also increase the permeability of blood vessels
                                        so that cells and antibodies can move into the injury site. This is what
                                        leads to swelling (edema).
                                                      1) How do antihistamines function?


                       
                                                      2) How does aspirin function?


                                                      3) Edema may seem bad, but it is actually important in
                                                          maintaining a healthy body. Why is this so?



                                    c. Beta defensins are often released in the injury site during inflammation.
                                        These antibiotic type agents function by fighting bacterial growth.
                                    d. A number of phagocytic cells move into the injured area during
                                        inflammation.
                        5. What Mobilizes Phagocytic Cells During Inflammation?
                                    a. Leukocytosis-the release of phagocytic cells (especially neutrophils)
                                        into blood vessels. Within hours, these cells are transported to the site of
                                        injury.  This is triggered by leukocytosis-inducing factors.
                                    b. Diapedesis-the movement of neutrophils through the walls of capillaries
                                        into the site of inflammation.
                        6. In severely damaged areas, pus (mixture of dead neutrophils, broken down
                            tissue cells, dead pathogens) may accumulate. If this material is not removed, it
                            may be walled off by collagen fibers; thus forming an abscess that has to be
                            surgically removed.
            F. Antimicrobial Proteins-attack microbes directly or they limit the ability of microbes to
                 reproduce. Types of antimicrobial proteins include:
                        1. Interferons-proteins secreted by some cells that are infected by viruses. These
                            proteins stimulate healthy cells to produce a protein known as PKR which
                            functions by preventing viruses from undergoing protein synthesis.
                        2. Complement System-this refers to a group of plasma proteins that circulate
                             through the blood in an inactive state. These proteins are activated by the
                             immune response itself.
                                    a. These proteins destroy cells via cell lysis.
                                    b. Complement is activated via 2 primary pathways:
                                                      1) The Classical Pathway-involves the formation of antibodies
                                                           to destroy invading microbes.
                                                      2) The Alternative Pathway-occurs when certain complement
                                                          proteins are triggered by polysaccharides on the membranes
                                                          of invading microorganisms.
            G. Fever-abnormally high body temperature. This is another defense against infection.
                        1. Recall that the hypothalamus regulates body temperature. In response to
                            microbial invasion, leukocytes and macrophages secrete chemicals known as
                            pyrogenswhich initiate the hypothalamus to raise body temperature.
                        2. Mild fever appears to have a positive effect on the body since it:
                                    a. Reduces release of certain nutrients by the liver and spleen (Microbes
                                        require these nutrients to grow and multiply).
                                    b. Increases metabolism; thus increasing repair processes.
                        3. Extreme fever can be dangerous since it denatures enzymes.
III. ADAPTIVE (SPECIFIC) DEFENSES
            A. This specific system protects the body from a wide range of microorganisms and
                 abnormal body cells. This system is turned on by exposure to a foreign substance.
                 Adaptive responses were first documented in dogs during the 1800’s.
            B. Important Characteristics of the Adaptive Defense System
                        1. It is specific-it recognizes and attacks particular pathogens or foreign debris
                            in the body.
                        2. It is systemic-immunity is not restricted to the site of the initial infection.
                        3. It has memory-after an initial exposure, it recognizes and strongly attacks a
                            previously encountered pathogen.
            C. Antigens-substances that can mobilize the immune system and provoke an immune
                 response.
                        1. Antigens are classified as being either completeor incomplete.
                                    a. Complete Antigens-have 2 key characteristics:
                                                      1) Immunogenicity-the ability to stimulate the formation of
                                                          specific lymphocytes and antibodies. Most proteins, nucleic
                                                          acids and polysaccharides can serve as complete antigens.
                                                      2) Reactivity-the ability to react with the activated lymphocytes
                                                          and the antibodies released by immunogenic reactions.
                                    b. Incomplete Antigens (Haptens)-are reactive but lack immunogenicity.
                                                      1) Small proteins, certain chemicals (found in poison ivy,
                                                          detergents etc..) can act as haptens.     
                        2. Only certain parts of an antigen are immunogenic. These parts are known as
                            Antigenic Determinants. Lymphocytes bind to these sites much like enzymes
                            bind to a substrate.
                        3. Major Histocompatibility Complex (MHC)-self antigens, these are a group of
                            proteins that mark cells as ours. These are strongly antigenic to other
                            individuals (this is the basis for rejection of tissues and transfusions).
                                    a. These are generally specific to an individual and the MHC plays a major
                                        role in mobilizing the immune response.
            D. Overview of Cells in the Adaptive Immune System
                        1. Lymphocytes
                                    a. Originate in the bone marrow from hematopoietic stem cells. When
                                         released, lymphocytes mature into either B cells or T cells.
                                                      1) T cells become immunocompetent (able to recognize a
                                                           specific antigen by binding to it) in the thymus gland. Only
                                                           2% of the T cells that are produced in the thymus are
                                                           released into the blood. The others are selected against since
                                                          they cannot actively attach to and destroy antigens.
                                                      2) B cells become immunocompetent in bone marrow. Very
                                                          little is known about this process, however.
                                    b. Lymphocytes become immunocompetent before meeting the antigens
                                        that they must attack and destroy. Thus, it is our genes that determine
                                        what specific foreign substances our immune system will be able to
                                        recognize and resist.
                                    c. After becoming immunocompetent, lymphocytes are transported to the
                                        spleen, lymph nodes and other lymphoid structures where encounters
                                        with antigens can occur.
                        2. Antigen-Presenting Cells-these engulf antigens and then present fragments of
                            these antigens on their own surface. T cells can then recognize and destroy the
                            antigen.
            E. 2 Major Types of Immunity in the Adaptive Defense System
                        1. Humoral (Antibody-Mediated) Immunity-produced by antibodies present in the
                            body’s fluids. Antibodies bind to pathogens, inactivating them and marking
                            them for destruction by phagocytes or the complement system.
                        2. Cell-Mediated Immunity-occurs when lymphocytes themselves defend the
                             body from microbial invasion. These cells can produce cell lysis or they can
                             initiate an inflammation response.
            F. Humoral Immune Response-in this system, antibodies are produced against a
                pathogen.
                        1. Differentiation of B Cells
                                    a. B Cells are activated when antigens bind to their surface. This leads to
                                       clonal selection in which numerous B Cells are formed resulting in
                                       cloned cells that are capable of destroying a particular antigen.
                                                      1) Most of these activated B Cells develop into Plasma Cells
                                                          which are able to secrete antibodies. These cells survive for
                                                          only 4 or 5 days.
                                                      2) Some of the B Cells develop into Memory Cells which can
                                                          lead an immediate attack if they encounter the same antigen
                                                          again in the future. This proliferation and differentiation of
                                                          Plasma and Memory Cells is known as the Primary Immune
                                                          Response which occurs on the first exposure to an antigen.
                                                      3) Secondary Immune Response-occurs when someone is
                                                           reexposed to a particular antigen. This response is fast and
                                                           extremely effective since the immune system is on alert for
                                                           the antigen. This is known as Immunological Memory.
                        2. Types of Humoral Immunity:
                                    a. Active Humoral Immunity-occurs when B Cells encounter antigens and
                                        produce antibodies against them (as just described). Active immunity is
                                        naturallyacquired when you are exposed to pathogens. It can also be
                                        artificiallyacquired when you receive vaccines.
                                                      1) Vaccines-contain dead or weak pathogens or their
                                                           components. Vaccines provide two benefits: they spare us of
                                                           many of the symptoms of an illness and they provide us with
                                                           immunity against an antigen. Booster shots may be given to
                                                           provide extensive immunity to a particular microbe.
                                    b. Passive Humoral Immunity-antibodies in this case are made from the
                                        serum of an immune human or animal donor. As a result, B cells are
                                        not challenged by antigens. Memory does not occur but protection
                                        occurs when the borrowed antibodies degrade in the body.
                                                            1) This occurs naturally in a fetus when the mother’s
                                                                 antibodies cross the placenta. Immune sera are also used
                                                                 to treat snake bites, botulism and rabies. In each of these
                                                                 cases, the protection is short-lived.
                        3. Antibodies(Immunoglobulins)-are secreted by activated B Cells or Plasma
                            Cells in response to an antigen. These bind to and remove the antigen.
                                    a. Antibody Structure
                                                      1) Antibodies have a loop shape and are composed of 2 heavy
                                                          chains and 2 light chains. They also contain a C region and a
                                                          V region. Disulfide bonds hold the heavy and light chains
                                                          together.
                                                      2) Antigen-binding site-shaped to fit a specific antigen. These
                                                          are located at the ends of each of the arms that make up the
                                                          V region of the antibody. Each antibody has 2 antigen-
                                                          binding sites.
                                    b. Classes of Antibodies-based on structure and the specific biological role
                                        of the antibody. The five major classes of antibodies are: IgA, IgD,
                                        IgM, IgE.
                                    c. Antibodies do not destroy antigens themselves; however, they do
                                        inactivate and tag antigens for destruction. Types of Antigen-Antibody
                                        reactions include:
                                                      1) Complement Fixation and Activation-antibodies bind to cells
                                                           and change shape. This triggers complement fixation and cell
                                                           lysis.
                                                      2) Neutralization-occurs when antibodies block specific sites
                                                          on viruses or toxins. This prevents the antigen from attaching
                                                          to tissue receptors; thus, preventing injury to the tissue.
                                                      3) Agglutination-antibodies can cause antigens to clump. This
                                                          clumping is known as agglutination. Where might this occur
                                                          in the human body?


                                                            a) IgM is involved in this process.
                                                      4) Precipitation-occurs when large molecules are linked into
                                                           complexes that settle out of solution. These antigens are
                                                           then easily removed by phagocytic cells.
                                    d. What are monoclonal antibodies and what can they be used to do?
            G. Cell-Mediated Immune Response
                        1. This involves the use of lymphocytes (T Cells) to attack and destroy pathogens.
                        2. T Cells generally recognize and respond to protein antigens displayed on body
                            cell surfaces. Therefore, T cells are geared to attack and destroy body cells
                            infected by pathogens, cancer cells and transplanted cells.
                        3. T Cells are activated by a recognized antigen. T Cells also must identify the
                            antigen and normal, healthy body cells.
                                    a. MHC Proteins-on cells, act to signal foreign invaders are present in the
                                        body.
                                    b. 2 Steps in T Cell Activation
                                                      1) Antigen Binding-the attachment of a T cell to an antigen on                                                       a body cell.
                                                      2) Co-Stimulation-T cells must recognize one or more co-
                                                           stimulatory agents on cells before they can produce clones.
                                                            a) A variety of agents, including proteins and chemicals,
                                                                can serve as co-stimulating agents.
                                                            b) It is thought that this requirement of two stimulators may
                                                                be a way to ensure that healthy cells are not attacked.
                                                            c) Once activated, a T Cell enlarges and clones itself to
                                                                 carry out its specific duty.
                                                            d) Once a T Cell destroys its specific antigen, it is
                                                                 destroyed. However, many of the cloned T Cells
                                                                 become Memory T Cells that last for a life time. These
                                                                 cells provide a reservoir of cells that can respond to the
                                                                 antigen if it is encountered again.
                                    c. Cytokines-chemicals released by T Cells, these help to enhance the
                                        immune response.
                        4. Specific Roles of T Cells (Table 21.4)
                                    a. Helper T Cells-stimulate proliferation of other T Cells and B Cells that
                                        are attached to an antigen.
                                    b. Cytotoxic T Cells-directly attack and kill other cells. Their main targets
                                        are virus-infected cells.
                                    c Suppressor T Cells-suppress the activity of B Cells and T Cells. Are
                                       thought to inhibit autoimmune reactions.
                                    d. Gamma delta T Cells-live in the intestine, their function is unclear.
IV. ORGAN TRANSPLANTS AND REJECTION
 V. HOMEOSTATIC IMBALANCES
            A. Immunodeficiencies
            B. Autoimmune diseases
            C. Hypersensitivities (especially anaphylaxis)


                                    

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