Immune Defense System

Discussion in 'Fibromyalgia Main Forum' started by MemoryLane, May 21, 2003.

  1. MemoryLane

    MemoryLane Member

    The immune defense system is a body-wide network of organs, tissues, cells, and protein substances that work together to defend the body against attacks by "foreign" invaders. Those invaders are primarily germs—tiny, infection-causing organisms such as bacteria and viruses, parasites and fungi.

    The immune system is amazingly complex. It can recognize millions of different enemies, and it can enlist specialized cells and secretions to seek out and destroy each of them. (Substances recognized as foreign that provoke an immune response are called antigens.)

    The organs of the immune system are known as lymphoid organs because they are home to lymphocytes, small white blood cells that are key components of the immune defenses. Bone marrow is soft tissue in the hollow center of bones, and it is the original source of all blood cells. The thymus is an organ that lies behind the breastbone; that is where some lymphocytes mature. The spleen, located in the upper left of the abdomen, serves as headquarters for many immune system activities.

    Immune cells, once alerted to danger, undergo important changes. They begin to produce powerful chemicals that allow the cells to grow and multiply, and to attract and direct their fellow cells.

    To work well, most immune cells need the help of other immune cells. Sometimes immune cells communicate with one another by direct physical contact, sometimes by releasing chemical messengers.

    Each type of immune cell has its special role. B cells work chiefly by making plasma cells that secrete antibodies. Antibodies are large molecules that attach to invading germs (and other foreign particles) and mark them for destruction.

    T cells contribute to the immune defenses in two major ways. Helper T cells and cytotoxic T cells secrete powerful chemicals (cytokines) that allow them to control the immune responses, including the work of B cells. Natural killer cells directly attack cells that have been infected by viruses.

    Phagocytes are large white blood cells that act as scavengers. They roam through the body, engulfing germs and destroying them. Neutrophils and monocytes are phagocytes that contain bags of potent chemicals that help destroy the germs they engulf.

    Antibodies are blood proteins known as immunoglobulins. They are produced by B cells. Different types, or classes, of immunoglobulins play different roles in immune defenses. As an immune response unfolds, B cells gradually switch from making one type of immunoglobulin to another.


    Immunoglobulin M (IgM) is the first to respond to an invading germ. IgM antibodies tend to stay in the bloodstream, where they aid in killing bacteria.

    Immunoglobulin G (IgG) follows on the heels of IgM. It is the main immunoglobulin working in the blood and tissues. IgG antibodies coat germs so that immune cells have an easier time of engulfing them.

    Immunoglobulin A (IgA) is produced along surface linings of the body and secreted in body fluids such as tears, saliva, and mucus, where it protects the entrances to the body—mouth, nose, lungs, and intestines. It is also present in breast milk and provides important protection against bacteria in the intestines of newborns.

    Immunoglobulin E (IgE) which is normally present only in trace amounts, is an important component of allergic reactions.


    Another important component of the immune defenses is the complement system. The complement system is composed of a series of more than 20 blood proteins that, when activated, work closely together in a step-wise fashion. Complement helps antibodies and phagocytes destroy bacteria and acts as a signal for recruiting phagocytes to sites of infections.

    Although the immune system is designed to recognize and attack foreign invaders, its recognition program sometimes breaks down. Then the body begins to make T cells and antibodies directed against its own cells and organs. These misguided T cells and these autoantibodies, as they are known, contribute to "autoimmune" diseases. For instance, T cells that attack pancreatic islet cells contribute to diabetes, while certain autoantibodies are common in persons with rheumatoid arthritis.

    Lymphocytes can travel throughout the body, using the blood vessels or a system of lymphatic vessels. The lymphatic vessels carry a clear fluid known as lymph. Scattered along the lymphatic vessels are small, bean-shaped lymph nodes, where immune cells gather and interact.

    Clumps of lymphoid tissue are found in many parts of the body, especially in the linings of the digestive tract and the airways and lungs—areas that protect gateways into the body. These tissues include the tonsils, adenoids, and appendix.

    The immune system makes use of many types of white blood cells. These include two main kinds of lymphocytes, T lymphocytes (T cells) and B lymphocytes (B cells); and a class of cytotoxic lymphocytes called natural killer (NK) cells. Additionally, there are large white blood cells known as phagocytes (neutrophil and monocyte).


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    This information extracted from the publication: Primary Immunodeficiency
    The National Institutes of Health - The National Institute of Child Health and Human Development (NICHD)


    [This Message was Edited on 05/21/2003]
  2. allhart

    allhart New Member

    thank you for the artical