Immune System
B cell
antibody-producing cell that is present in all lymphatic tissues
saliva, tears, and nasal secretions defense
contain enzyme lysozyme that breaks down bacterial cell walls, killing these pathogens
immunization
deliberate exposure of the body to an antigen so that a primary response and immune memory will develop
lymph nodes
filter the lymph and remove foreign materials from the lymph
Tonsils
form protective ring between nasal and oral cavities, protecting against pathogens in nose and mouth
Thymus Gland
helps activate T cells, which are produced in bone marrow but mature in the thymus gland
stomach acid defense
hydrochloric acid in the stomach kills many microorganisms found in food
Skin defense
layer of dead skin cells forms barrier against invasion; bacteria living symbiotically on the skin produce acids that inhibit pathogens
memory cell
long-living cell that is exposed to an antigen during the primary immune response and will respond rapidly if the body encounters the same pathogen later
helper T cell
lymphocyte that activates antibody secretion in B cells and another type of T cell that aids in killing microorganisms
cytotoxic T cell
lymphocyte that destroys pathogens and releases cytokines
Phagocytosis defense
phagocytes surround and internalize foreign microorganisms, and then release digestive enzymes that destroy the microorganisms
antibody
protein produced by B lymphocytes that specifically reacts to a foreign pathogen
interferon
protein secreted by virus-infected cells that binds to neighboring cells and stimulates these cells to produce antiviral proteins
complement protein
protein that enhances phagocytosis by helping the phagocytic cells bind better to pathogens, activating the phagocytes, and enhancing the destruction of the pathogen's membrane
Spleen
stores blood and destroys damaged red blood cells; contains lymphatic tissue that responds to foreign substances in blood
exposure of immune system to disease antigens either through having an infectious disease or immunization
Active Immunity
nonspecific—complement proteins and interferons; specific—B and T cells
Compare specific and nonspecific immune responses.
B lymphocytes are important for producing antibodies—specific chemicals that attach to antigens and increase phagocytosis. T lymphocytes include cytotoxic T cells, which can destroy foreign cells and release cytokines to stimulate the immune response. Helper T cells enhance the response of both B lymphocytes and cytotoxic T cells.
the role that lymphocytes play in immunity.
The phagocyte internalizes and processes an antigen, places a piece of the antigen on its surface, and presents it to helper T cells. Helper T cells present a processed antigen to B cells to activate them so they begin producing antibodies.
Describethestepsinvolvedinactivatinganantibodyresponsetoanantigen
organs and cells that include thymus, tonsils, lymph nodes, lymphocytes; filter lymph and blood and destroy foreign microorganisms; absorb fat
Describethestructureandfunctionofthelymphaticsystem.
The child only will have an active nonspecific immunity and little or no specific immunity.
Evaluate the effects of severe combined immune deficiency on a child born without T cell immunity.
More people who are infected with HIV will develop AIDS.
HypothesizewhathappenswhenanHIVstrainmutatessuchthatviral-replicationdrugs are no longer effective.
Passive: antibodies are produced in one organism, given to another. Active: antibodies are produced in organism with the disease or immunization.
Identifywayspassiveandactiveimmunitycanbeacquired.
When helper T cells decrease, both B- and T-cell immune responses are impaired
Infer why the destruction of helper T cells in HIV infection is so devastating to specific immunity.
Passive Immunity antibodies made by other people or animals are transferred into the body, such as by injection or through a mother's placenta or breast milk to her child
Passive Immunity
reduce the likelihood of developing a disease
Passive and Active Immunity
lymphocyte
type of white blood cell that is produced in red bone marrow and plays a role in specific immunity
Interferon defense
virus-infected cells secrete interferon, which binds to neighboring cells and stimulates these cells to produce antiviral proteins
1. a macrophage digests a pathogen 2. A processed antigen is displayed on the membrane of the macrophage 3. the macrophage binds with a helper T cell 4. The activated helper T cell reproduces and attaches to a B cell or cytotoxic T cell. 5. The B cell begins to make antibodies and the cytotoxic T cell releases cytokines.
Sequence B cell and T cell responses
