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Human Defenses A gainst Infection. Fighting off the “Bad Guys”. The body possesses many mechanisms that impart nonspecific defense. The objectives of these mechanisms are to prevent microorganisms from gaining a foothold in the body and to destroy them if they penetrate to the deeper tissues.
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Fighting off the “Bad Guys” • The body possesses many mechanisms that impart nonspecific defense. The objectives of these mechanisms are to prevent microorganisms from gaining a foothold in the body and to destroy them if they penetrate to the deeper tissues.
Mechanical barriers • Skin • Mucous membranes of the urinary, respiratory, and digestive tracts • Nasal hairs • Cilia on the cells sweep and trap particles in the respiratory tract, and coughing ejects irritants.sneezing
Chemical defenses. • Lysozyme: which breaks down the peptidoglycan of the cell wall of Gram-positive bacteria. • Lactic acid of the vagina imparts defense • Hydrochloric acid of the stomach • Spermine inhibits bacteria in the male urogenital tract.
Genetic barriers • Humans suffer HIV infection because their T-lymphocytes have the receptor sites for the human immunodeficiency virus. Dogs, cats, and other animals are immune to this disease because they do not possess the genes for producing the receptor sites. Conversely, humans do not suffer canine distemper because humans lack the appropriate receptor sites for the virus that causes the disease.
Inflammation • Inflammation mobilizes components of the immune system, sets into motion repair mechanisms, and encourages phagocytes to come to the area and destroy any microorganisms present • Phagocytes accumulate in the whitish mass of cells, bacteria, and debris called pus.
Fever • Fever is believed to have a beneficial role because it retards the growth of temperature-sensitive microorganisms (for example, leprosy bacilli), and it increases the metabolism of body cells while stimulating the immune reaction and the process of phagocytosis
Interferon • Antiviral substances produced by body cells in response to the presence of viruses. Lymphocytes and macrophages produce alpha-interferon, epithelial cells produce beta-interferon, and T-lymphocytes produce gamma-interferon
The Immune System • Immunity is a state of specific resistance to infection. Specific resistance is directed against a particular type of microorganism and is the single most important characteristic of immunity. • The immune system enables the body to recognize a foreign agent as nonself, which is something other than a person's own substances (self). The immune system takes a specific action for neutralizing, killing, and eliminating that agent. The action involves nonspecific resistance as well. On occasion, the immune system activity may lead to tissue damage as seen in allergic disorders and other states of hypersensitivity.
There are two major branches of the immune system: antibody-mediated immunity (also known as humoral immunity) and cell-mediated immunity.
Antigens • Immune responses are directed at a series of foreign substances known as antigens, also referred to as immunogens • Types of antigens. Certain types of antigens are distinctive. Autoantigens, for example, are a person's own self antigens. Alloantigens are antigens found in different members of the same species (the red blood cell antigens A and B are examples). Heterophile antigens are identical antigens found in the cells of different species.
Cells of the Immune System • Lymphocytes of the lymphatic system are derived from stem cells of the bone marrow. • Certain of the stem cells produce B-lymphocytes (B-cells) while other stem cells form T-lymphocytes (T-cells
Antibody‐Mediated (Humoral) Immunity (AMI) • B-lymphocytes are activated and differentiated to form plasma cells. Plasma cells are specialized, differentiated cells that synthesize and secrete antibodies specific for an antigen. Other activated B-lymphocytes form memory cells. These cells can be activated later to differentiate to plasma cells for rapid antibody production. This antibody production will occur on future reentry of the antigen to the body and is the basis of long-term immunity.
Antibodies -Immunoglobulins. Five classes of antibodies (immunoglobulins) • IgM, is the major component of the primary antibody response in adult humans and is the first antibody to appear in the immune reaction • IgGis the most common in the bloodstream and is found in many secretions, such as spinal, synovial, lymph, and peritoneal fluids. IgG crosses the placenta and protects the fetus and newborn. IgG therefore provides a natural type of passive immunity.
3.IgAis found in external secretions such as those at the mucosal surfaces of the respiratory, gastrointestinal, and urogenital tracts. It is also present in the tears, saliva, bile, urine, and colostrum, and it is transferred in the breast milk 4. IgD is found in extremely small quantities in the serum. IgD is found at the surface of B-lymphocytes and is believed to be an antigen receptor at this location.
5. IgE, occurs in minute concentrations in the serum and is important in hypersensitivity reactions, especially the anaphylactic reaction. A localized reaction is called allergy.
Immunity • Innate immunity is present from birth • Acquired immunity is derived from activity of the immune system. • Active immunity is acquired when the body produces antibodies. The immunity is usually long lasting because the immune system has been stimulated into action. However, it takes several hours to develop. Active immunity can be natural or artificial.
Immunity • Naturally acquired active immunity develops when a person produces antibodies during a bout of illness or on exposure to a microorganism even though disease does not occur • Artificially acquired active immunity occurs when a person produces antibodies after exposure to a vaccine
Immunity • Passive immunity comes about when the body receives antibodies from an outside source. In passive immunity, the immune system does not operate and the immunity is not long lasting. However, it protects instantaneously • Naturally acquired passive immunity develops when antibodies pass from mother to child across the placental lining • artificially acquired passive immunity, a person is given an injection of antibodies.
Cell‐Mediated Immunity (CMI) • Cell-mediated immunity depends upon the activity of T-lymphocytes. T-lymphocytes have a longer life span than B-lymphocytes and are found in the same lymphatic tissues as the B-lymphocytes. • Activity of cytotoxic T-lymphocytes. Cytotoxic T-lymphocytes. They circulate through the blood vessels and gather at the infection site. Here they interact directly with organisms such as fungi, protozoa, cancer cells, and transplant cells. They also interact with virus-infected cells and bacteria-infected cells (such as lung cells infected with tuberculosis). The T-lymphocytes exert a “lethal hit” on the cells and secrete substances into them that lead to cellular destruction.
Detecting Antibodies with Laboratory Tests • The titer is an estimate of the antibody level in a unit volume of serum. It is determined as a reactive dilution of the serum and is usually expressed in a ratio such as 1:100. • The agglutination and precipitation tests. Serological tests that involve clumping of an antigen are called agglutination tests • The complement fixation test
Detecting Antibodies with Laboratory Tests • The neutralization test • The fluorescent antibody test • Enzyme immunoassays- ELISA • Enzyme immunoassays
Vaccines and Immune Serums • http://www.cdc.gov/mmwr/pdf/wk/mm62e0128.pdf