BIO170 - Obj 17 - Lymphatic & Immune System

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What are the lymphatic structures? (7)

1) lymphatic ducts; 2) lymph nodes; 3) tonsils; 4) Peyer's patches; 5) spleen; 6) thymus; 7) bone marrow

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What is the function of the lymphatic ducts? What is its role in the immune system?

drains excess interstitial fluid for re-entry into the blood stream; components of lymph are exposed to cells of the immune system

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What are the 2 lymphatic ducts?

the left lymphatic duct (aka thoracic) duct handles all lymph, except lymph from the right arm & right side of neck and head; the lymphatic ducts return lymph to circulation to the corresponding subclavian vein

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What is the function of lymph nodes?

they are the site of secondary lymphocyte storage & matguration; lymph nodes expose lymphocytes to antigens from the blood

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Where are the lymph nodes located? (5)

cervical region near respiratory passages; within thoracic cavity; deep in the abdominal cavity; axillary region; inguinal region

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What are the tonsils? What is their function?

3 pairs of lymphoid organs in the pharynx which filter inhaled or ingested substances

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What are Peyer's patches and what is their function?

they are areas of lymphoid tissue in the digestive tract submucosa; they screen for non-self proteins (antigens) entering from the gut

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Where and what is the spleen?

it is an organ located on the lateral abdominal wall in the LUQ; the white pupl of the spleen contains many lymphocytes which detect antigens; very vascular - contains red pulp with developing & degrading RBCs

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What is the thymus?

the primary site for development & proliferation of thymal-derived (T) lymphocytes; thymus begins to atrophy during puberty; by middle age, only a remnant remains

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How is the bone marrow pary ot the lymphatic system?

it is probably the primary site for development & proliferation of B lymphocytes & is the site of all precursor blood cells, including lymphocytes; bone marrow is prevalent in hip & thigh

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Which type of leukocytes are phagocytes? When?

monocytes - chronic infection; macrophages - have left the blood & reside in tissues; neutrophils - acute infection; eosinophils - parasitic infections

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Which type of leukocytes provide an immune response for a particular antigen?

lymphocytes

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Which leukocytes are mediators of the inflammatory response?

basophils & mast cells (which reside in tissue and were probably once basophils)

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Which type of leukocytes is responsible for allergies?

eosinophils

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What are the 3 defenses against infection?

1st line - nonspecific barrier; 2nd line - nonspecific response to microbial infection; 3rd line - specific immune response

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What are the 2 types of barriers in the 1st line of defense?

mechanical (skin, mucous membranes, conjunctivae) & chemical barriers (secretions from mucuous membranes: fatty acids-skin, HCl-stomach, bile salts-intestines; also specific antimicrobial secretions such as lysozyme in saliva, IgA from mucous membranes)

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Describe the 2nd line of defense:

fever & inflammation are response to microbial invasion of body; chemical factors such as complement, lysozyme, & other enzymes attack invading microorganisms; phagocytes phagocytize microorganisms

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What is the 3rd line of defense?

specific immune response; antigen/antibody complex; the mobilization of lymphocytes & their antibodies against a specific infectious organism

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What is cell-mediated immunity? Humoral Immunity?

cell-mediated immunity is the direct attack of the infectious organism by T-lymphocytes; humoral immunity is the attack of antigen proteins by antibodies produced by B lymphocytes

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What are non-self proteins (antigens)?

proteins found in particular microorganisms, but not in any cell of the body

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How is the specific immune response initiated?

initiation requires antigens or relatively large size, complex structure, and/or sufficient quantity

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What controls the immune response so that self-antigens are not attacked?

suppressor T cells and antiidiotypic antibodies normally prevent attack of self antigens by the immune system

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What are the sources of natural immunity?

species specific (innate resistance); some resistance is also probably genetics (example HIV)

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What are the 2 ways immunity can be acquired?

passive - mom->baby, injection (vaccination) and active - from exposure to the disease

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How did B lymphocytes get their name?

existence of B cells 1st discovered in chickens; birds have an organ called the Bursae of Fabricious which is where B cells mature in birds

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Where do all blood cells originate?

all lymphocytes & other blood cells arise from a common stem cell in the bone marrow

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Where do B cells mature?

in the bursal equivalent tissue; probably the bone marrow, but possibly the Peyer's patches in the gut

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What is clonal diversity?

different B cells can recognize all potential antigens encountered during a lifetime, but they will only react to a specific one

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What happens after B cells have matured?

they are considered immunocompetent B cells and they move into the secondary lymphoid organs (spleen, lymph nodes, Peyer's patches)

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What happens when immunocompetent B cells are exposed to a non-self antigen?

they demonstrate clonal selection; some B cells are triggered to transform into plasma cells; others are transformed into memory B cells

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What is the role of plasma cells?

they provide the primary immune response (i.e. the 1st exposure) by secreting a specific antibody to the antigen, creating an Ab-Ag complex

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What does the Ab-Ag complex do?

neutralizes the antigen through either agglutination or precipitation; agglutination is clumping of insoluble antigen; precipitation is soluble antigen falling out of solution

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What types of infectious agents are neutralized by antibodies? How?

immunoglobulins directly neutralize bacterial toxins, viruses & bacteria by indirectly triggering the inflammatory response against the non-self antigen

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How long does the primary immune response take? What happens during that time?

Primary immune response takes several days; during this time, the person becomes ill from the infection

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What is the role of memory B cells?

they are responsible for the secondary immune response which occurs during subsequent exposure to the same antigen; memory cells are the reason a person is immune to a disease

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What is the significance of the secondary immune response?

B memory cell transformation is very quick (minutes to hours); the antigen & its infectious agent are destroyed before an infection has time to develop

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How doe B cells neutralize bacterial toxins, viruses, and bacteria?

all 3 type of infectious agents attach to healthy cells on antigenic determinant sites; the antibodies attach to these sites preventing them from attaching to other body cells preventing further infection and reproduction

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What is the process of neutralizing a bacterial cell called?

opsonization

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What is the inflammatory response and how is it triggered?

Ab-Ag complexes trigger the inflammatory response: 1) phagocytes are summoned to the Ab-Ag complex via chemical messengers; 2) plasma proteins called complements are activated; these bore holes in opsonized cell membranes to kill bacteria

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How many classes of antibodies? What are they based on? What are they called?

a specific antibody exists for each and every antigen; 5 classes: IgA, IgD, IgE, IgG, IgM; categorized based primarily on protein structure, also function & tissue from where they are secreted

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Describe IgA:

function: form a chemical/immunological barrier in 1st line of defense; secreted primarily from mucous membranes & glands; found in many body secretions (tears, saliva, milk, mucuous-respiratory, digestive, urogenital tracts)

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Describe IgD:

function:antigen receptor; located on the surface of developing B lymphocytes

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Describe IgE:

function: activates complement to attack parasites; secretd from mast cells located in peripheral tissues & present in secretions of mucous membranes; abnormally over-active mast cells cause allergies (high levels present during allergic reactions)

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How does IgG function?

major initiator of immune response (85% of circulating antibodies); induces agglutination,precipitation and complement activation; provides passive immunity in the fetus & neonates

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Where is IgG found?

secreted from many cells, including macrophages, neutrophils, platelets, certain mast cells; a systemic antibody found in the blood & secretions from mucous membranes & glands

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Describe IgM:

function: primary immune response - it is the 1st immunoglobulin to process non-self antigen; it strongly induces agglutination & complement activation; it is the largest immunoglobin

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Which immunoglobin is initiated in the 1st line of defense? In allergic reactions? Passed to the fetus through placenta?

IgA - 1st line of defense; IgE - allergic reactions; IgG - crosses placenta

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Which immunoglobulin is the largest in size? Which one is the most prevalent?

IgM is the largest; IgG is is the most prevalent (85% of circulating antibody)

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How do T cells mature?

in the thymus gland, under the influence of hormones; major part of maturation is the production of Clusters of Differentiation (CD) which are proteins on the T cell membranes; different CDs allow the T cell to bind & adhere to antigens

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What are the T cells called once mature? Where do they go?

mature T cells are immunocompetent cells; they move to the peripheral lymphoid organs (spleen, lymph nodes, Peyer's patches)

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What is the mechanism of primary & secondary immune response in T cells?

similar to B lymphocytes

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What many subspecies of T cells exist? What are they?

5 subspecies of T cells develop upon exposure to a non-self Ag; Td - lymphokine producing T cell; Tc - cytotoxic T cell; Th - helper T cell; Ts - suppressor T cell; Tm - memory T cell

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Describe the function of the Td cell:

the lymphokine producting T cell causes delayed hypersensitivity leading to inflammation; they secrete chemical substances called lymphokines which activate macrophages -> phagocytize non-self Ag -> inflammation

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Describe the function of the Tc cell:

cytotoxi T-cells directly attack & destroy antigens on infected body cells or antigens coated with antibody (similar to the NK cell)

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Describe the function of the Th cell:

the helper T cell facilates both cell-mediated & humoral immunity by processing antigens; the antigens are presented to other immune cells (ex: Tc & NK) via cytokines, stimulating their function

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What other cell is similar to the Th cell?

APCs (antigen presenting cells) work similarly to Th cells; they work as "middle men" in the immune response; APCs are macrophages in tissue

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Describe the function of the Ts cell:

suppressor T cells inhibit the immune response: 1) to turn other immune cells off after a successful immune response against an antigen; 2) maintains the appropriate degree of self-tolerance toward self-antigens

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Describe the function of Tm cells:

responsible for mounting a secondary immune response during subsequent exposure to the same antigen

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