Chapter 21: The Lymphatic and Immune System Powerpoint Outline

Question 1

agents capable of producing disease

includes viruses, bacteria, and fungi

Answer 1

Pathogens

Question 2

There are ______ lines of defenses against pathogens

Answer 2

three

Question 3

First line of defense includes:

Answer 3

skin and mucous membranes

Question 4

Second line of defense includes:

Answer 4

several nonspecific defense mechanisms

Question 5

Third line of defense includes:

Answer 5

the adaptive immune system. (defeats a pathogen, and leaves the body with a “memory” of it so it can defeat it faster in the future)

Question 6

• guard equally against a broad range of pathogens
• they lack capacity to remember pathogens
• three kinds (protective cells, protective proteins, & protective processes)

Answer 6

Nonspecific Defenses

Nonspecific Resistance

Question 7

• body must develop separate immunity to each pathogen

- body adapts to a pathogen and wards it off more easily upon future exposure

Answer 7

Specific or Adaptive Immunity

Nonspecific Resistance

Question 8

• toughness or keratin
• too dry and nutrient poor for microbial growth
• produces dermicidin, defensins, and cathelicidins that kill microbes

Answer 8

Skin
(External barrier)
(1st Line of Defense)

Question 9

• mucus physically traps microbes
• lysozyme: enzyme destroys bacterial cell walls
• four systems = reproductive, digestive, respiratory, urinary

Answer 9

Mucous membranes
(External barrier)
(1st Line of Defense)

Question 10

• lower pH inhibits bacterial and fungal growth

- sweat, sebum, vagina, stomach

Answer 10

“Acid mantle”

1st Line of Defense

Question 11

• penetration of microbes slowed by moving them out of susceptible area
• urination, salivation, lacrimation, mucus-ciliary escalator

Answer 11

“Fluid flow”

1st Line of Defense

Question 12

What consists of:

• protective cells = leukocytes, macrophages, and natural killers (NK) cells
• protective proteins = interferons and complement proteins
• protective responses = fever and inflammation

Answer 12

2nd Line of Defense

Question 13

Name this WBC:

• kill bacteria using phagocytosis
• can kill by producing a respiratory burst
• lysosomes degranulate releasing bactericidal chemicals
• creates a killing zone around this WBC

Answer 13

Neutrophils

Question 14

Name this WBC:

• guard against parasites, allergens, (allergy-causing agents), and other pathogens
• kills tapeworms and roundworms by producing superoxide, hydrogen peroxide, and toxic proteins

Answer 14

Eosinphils

Question 15

Name this WBC:

• secrete histamine: promotes inflammation
• secretes heparin: inhibits clot formation
• Mast cells also secrete these substances; similar to this WBC but found in other connective tissue

Answer 15

Basophils

Question 16

Name this WBC:

-leaves blood and transform into macrophages

Answer 16

Monocytes

Question 17

• wandering macrophages actively seek pathogens
• Fixed macrophages phagocytize only pathogens that come to them
  What system is this?

Answer 17

Macrophage System

Question 18

• type of lymphocyte that is not a B-cell or T-cell
• continually patrol body looking for pathogens and diseased host cells
• attack and destroy bacteria, transplanted cells, cells infected with viruses, and cancer cells

Answer 18

Natural Killer (NK) Cells

Question 19

• proteins that inhibit microbial reproduction and provide short-term, nonspecific resistance to pathogenic bacteria and viruses

Answer 19

Protective Proteins

2nd Line of Defense

Question 20

List the two families of antimicrobial proteins

Answer 20

• interferons

- complement system

Question 21

• secreted by certain cells infected by viruses
• of no benefit to the cell that secretes them
• alerts neighboring cells and protects them

Answer 21

Interferons

Question 22

What happens to the original cell that secreted the interferon?

Answer 22

It dies; it tried to protect everyone around it

Question 23

• group of 30 or more proteins

* four methods of pathogen destruction when activated

Answer 23

Complement System

Question 24

Inflammation, Immune Clearance, Phagocytosis, and Cytolysis are mechanisms of _________ _________

Answer 24

Complement System

Question 25

Stimulates mast cells and basophils to secrete histamine

Answer 25

Inflammation

Question 26

• binds with antigen-antibody (Ag-Ab) complexes to RBCs
• when these RBCs circulate through liver and spleen, macrophages strip off and destroy the Ag-Ab complexes leaving RBCs unharmed
• principal means of clearing foreign antigens from the bloodstream

Answer 26

Immune Clearance

Question 27

*assists phagocytes by opsonization (coating microbial cells)

Answer 27

Phagocytosis

Question 28

• forms a membrane attack complex
• forms a hole in the target cell
• electrolytes leak out, water flows in rapidly, cell ruptures

Answer 28

Cytolysis

Question 29

Protective responses:

2nd Line of Defense

Answer 29

• fever
• inflammation
• both slow the spread of infections

Question 30

• Hypothalamus elevates body temperature

- Response to pyrogens (exogenous or endogenous)

Answer 30

Fever

Question 31

Moderate fever is helpful:

Answer 31

• promotes interferon activity
• elevates metabolic rate and accelerates tissue repair
• inhibits reproduction of bacteria and viruses

Question 32

• local response to tissue injury, including trauma and infection
• general purposes of inflammation; limits spread of pathogens then destroys them, removes debris from damaged tissue, initiates tissue repair

Answer 32

Inflammation

Question 33

List the four cardinal signs of inflammation

Answer 33

• redness, swelling, heat, and pain

Question 34

How many steps does inflammation have?

Answer 34

5

Question 35

Release of inflammatory chemicals such as cytokines (ex. histamine)

Which step of inflammation is this?

Answer 35

Step 1

Question 36

Vascular Changes: the chemicals cause vasodilation which increases blood flow to the area - produces redness & warmth; the chemicals will increase permeability of the capillaries, which increases leakage into the interstitial areas - produces swelling (edema) & pain - moves material into lymphatic vessels

Which step of inflammation is this?

Answer 36

Step 2

Question 37

Clotting factors (now in the interstitial area) form clots to wall off the area. Prevents spread of bacteria. Heparin prevents clotting directly at the injury site.

Which step of inflammation is this?

Answer 37

Step 3

Question 38

Attraction of neutrophils, then macrophages to the area (phagocyte mobilization)

Which step of inflammation is this?

Answer 38

Step 4

Question 39

Tissue Repair

Which step of inflammation is this?

Answer 39

Step 5

Question 40

How many steps does phagocyte mobilization?

Answer 40

4

Question 41

Leukocytosis: release of neutrophils from bone marrow in response to leukocytosis-inducing factors from injured cells

Which step of phagocyte mobilization is this?

Answer 41

Step 1

Question 42

Margination: neutrophils cling to walls of capillaries in inflamed area

Which step of phagocyte mobilization is this?

Answer 42

Step 2

Question 43

Diapedesis of neutrophils

Which step of phagocyte mobilization is this?

Answer 43

Step 3

Question 44

Chemotaxis: inflammatory chemicals promote positive chemotaxis of neutrophils

Which step of phagocyte mobilization is this?

Answer 44

Step 4

Question 45

• mobilization of defenses
• neutrophil behavior
• selectins cause leukocytes to adhere to blood vessel walls

Answer 45

Margination

Question 46

• mobilization of defenses
• neutrophil behavior
• leukocytes squeeze between endothelial cells into tissue space

Answer 46

Diapedesis (emigration)

Question 47

Containment/destruction of pathogens

• name the WBC that quickly responds to and kills bacteria
• phagocytosis
• respiratory burst

Answer 47

Neutrophils

Question 48

Containment/destruction of pathogens

• name the cells that stimulate leukopoiesis
• neutrophilia = 5,000 cells/ul to 25,000 cells/ul in bacterial infection
• eosinophilia - allergy or parasitic infection

Answer 48

Macrophages and T-cells

Question 49

• accumulation of dead neutrophils, bacteria, cellular debris, and tissue fluid

Answer 49

Puss

Question 50

Which WBC is the primary agent of tissue cleanup and repair?

• they arrive in 8 to 12 hours and become macrophages
• engulf and destroy bacteria, damaged host cells, and dead and dying neutrophils

Answer 50

Monocytes

Question 51

Edema contributes to:

Answer 51

• tissue cleanup

- forces more fluid into lymphatic system

Question 52

Platelet-derived growth factor stimulates:

Answer 52

fibroblasts

Question 53

Lists the two characteristics of Adaptive (Specific) Immunity

Answer 53

• Specificity

- Memory

Question 54

• immunity directed against a particular region

Which characteristic of adaptive (specific) immunity is this?

Answer 54

Specificity

Question 55

• when reexposed to the same pathogen, the body reacts so quickly that there is no noticeable illness

Which characteristic of adaptive (specific) immunity is this?

Answer 55

Memory

Question 56

The forms of immunity are:

Answer 56

• Cellular (cell-mediated) immunity
• Humoral (antibody-mediated) immunity
• Natural active immunity
• Artificial active immunity
• Natural passive immunity
• Artificial passive immunity

Question 57

• T-cells directly attack and destroy foreign cells or diseased host cells
• Gets rid of intracellular pathogens by killing the cell

Which form of immunity is this?

Answer 57

Cellular (cell-mediated) immunity

Question 58

• B-cells —> plasma cell —> antibodies
• Antibodies do not directly destroy a pathogen but tag it for destruction
• Primarily works on extracellular infections

Which form of immunity is this?

Answer 58

Humoral (antibody-mediated) immunity

Question 59

*Production of one’s own antibodies or T cells as a result of infection or natural exposure to antigen

Which form of immunity is this?

Answer 59

Natural active immunity

Question 60

*Production of one’s own antibodies or T cells as a result of vaccination against disease

Which form of immunity is this?

Answer 60

Artificial active immunity

Question 61

• consists of dead or attenuated (weakened) pathogens that stimulate the immune response without causing the disease

Answer 61

Vaccine

Question 62

• periodic immunizations to stimulate immune memory to maintain a high level of protection

Answer 62

Booster Shots

Question 63

• Temporary immunity that results from the injection of immune serum (antibodies) from another person or animal
• Treatment for snakebite, botulism, rabies, tetanus, and other diseases

Which form of immunity is this?

Answer 63

Artificial passive immunity

Question 64

• Temporary immunity that results from antibodies produced by another person
• Fetus acquires antibodies from mother through placenta, breastmilk

Which form of immunity is this?

Answer 64

Natural passive immunity

Question 65

• any molecule that triggers an immune response
• usually large complex molecules
• regions of an antigen that stimulate immune response: epitopes

Answer 65

Antigens

Question 66

• too small to be antigenic by themselves
• but if combined with a host macromolecule, can trigger an immune response
• cosmetics, detergents, industrial chemicals, poison ivy, animal dander, penicillin

Answer 66

Haptens

Question 67

List the major cells of the immune system:

Answer 67

• lymphocytes
• macrophages
• dendritic cells

Question 68

The three classes of lymphocytes:

Answer 68

• T lymphocyte (T cells)
• B lymphocyte (B cells)
• Natural Killer (NK cells) - 2nd line of defense

Question 69

Three stages in life of T Cell:

Answer 69

• born in bone marrow
• educated in thymus
• deployed to carry out immune function

Question 70

Within the thymus, T Cells:

Answer 70

• develop surface antigen receptors
• with receptors, the T cells are now immunocompetent: capable of recognizing antigens presented to them
• T cells tested: need to be able to recognize self-antigens, not react to the self antigen, only 2% of T cells pass the test

Question 71

immunocompetent T cells that have not yet encountered foreign antigens

Answer 71

naive lymphocyte pool

Question 72

naive T cells leave thymus and colonize lymphatic tissues and organs everywhere in the body

Answer 72

deployment

Question 73

Three stages in life of B cell:

Answer 73

• born in bone marrow
• educated in bone marrow
• deployed to carry out immune function

Question 74

Immunocompetent B and T cells

Answer 74

• Each B cell and T cell displays a unique type of receptor that responds to a specific antigen
• It is genes, not antigens, that determine which foreign substances our immune system will recognize and resist

Question 75

T cells cannot recognize antigens on their own, so this type of cell is required.
- dendritic cells, macrophages, reticular cells, and B cells function as this type of cell

Answer 75

Antigen-presenting cells (APCs)

Question 76

Function of APCs depends on this protein.

• act as cell “identification tags” that label every cell of your body as belonging to you
• structurally unique for each individual, except for identical twins

Answer 76

Major histocompatibility (MHC) complex proteins

Question 77

Two classes of MHC proteins:

Answer 77

• MHC-1

* MHC-II

Question 78

The class of MHC proteins that:

• are produced by all nucleated cells
• will display either normal self-antigens (ignored) or abnormal viral/cancer antigens (attached)
• only Cytoxic T cells respond to this protein

Answer 78

MHC-1

Question 79

The class of MHC proteins that:

• occur only in APCs
• display only foreign antigens
• only helper T cells respond to this protein

Answer 79

MHC-II

Question 80

1. APC encounters antigen
2. Internalizes it by endocytosis
3. Digests it into molecular fragments
4. Displays fragments (epitopes) in the grooves of the MHC protein

Answer 80

Antigen-Presenting Cells / Antigen Processing

Question 81

• wandering T cells inspect APCs for displayed antigens
• if APC only displays a self antigen, the T cell disregards it
• if APC displays a nonself antigen that the T cell is programmed to recognize, the T cell initiates an immune attack

Answer 81

Antigen-Presenting Cells / Antigen Presenting

Question 82

List the 4 classes of T-cells

identified by protein markers {CD receptors}

Answer 82

• Cytotoxic T cells
• Helper T cells
• Regulatory T cells
• Memory T cells

Question 83

• killer T cells have CD8 receptors
• “effectors” of cellular immunity; carry out attack on enemy cells

which class of T-cells is this?

Answer 83

Cytotoxic T cells

Question 84

• have CD4 receptors
• help promote Tc cell and B cell action and nonspecific resistance

which class of T-cells is this?

Answer 84

Helper T cells

Question 85

• inhibit multiplication and cytokine secretion by other T cells; limit immune response
• have CD4 receptors

which class of T-cells is this?

Answer 85

Regulatory T cells

Question 86

• responsible for memory in cellular immunity

which class of T-cells is this?

Answer 86

Memory T cells

Question 87

Both cellular and humoral immunity occur in three stages:

Answer 87

• recognition (recognize)
• attack (react)
• memory (remember)

Question 88

• a defensive gamma globulin

- found in blood plasma, tissue fluids, body secretions, and some leukocyte membranes

Answer 88

Immunoglobulin (Ig)

Question 89

Five categories of Immunoglobulins:

Answer 89

IgG, IgA, IgM, IgD, IgE

Question 90

(Immunoglobulin)

• 80% of total
• most abundant and diverse; able to cross the placenta; protects against a wide diversity of bacteria, viruses, and toxins

Answer 90

IgG

Question 91

(Immunoglobulin)

• 10-15% of total
• prevents attachment of pathogens to mucosa; found in saliva, tears, breast milk (too large to cross placenta)

Answer 91

IgA

Question 92

(Immunoglobulin)

• 5-10% of total
• found primarily in blood; first to be formed in primary response {indicates a current infection}; responsible for ABO incompatibility response

Answer 92

IgM

Question 93

(Immunoglobulin)

• 0.2% of total
• important in B cell activation

Answer 93

IgD

Question 94

(Immunoglobulin)

• 0.002% of total
• binds to mast cells and basophils, causing histamine release when activated

Answer 94

IgE

Question 95

Antibodies have four mechanisms of attack against antigens:

Answer 95

• neutralization
• complement fixation
• agglutination
• precipitation

Question 96

• antibodies mask pathogenic region of antigen

Answer 96

neutralization

Question 97

• leads to inflammation, phagocytosis, immune clearance, or cytolysis

Answer 97

complement fixation

Question 98

• antibody has 2 to 10 binding sites; binds to multiple enemy cells, immobilizing them from spreading

Answer 98

agglutination

Question 99

• antibody binds antigen molecules (not cells); creates antigen-antibody complex that precipitates, allowing them to be removed by immune clearance or phagocytized by eosinophils

Answer 99

precipitation

Question 100

Classes of Antibodies:

Answer 100

• B cells can switch antibody but retain antigen specificity
• IgM at first; then IgG
• secondary responses are mostly IgG

Question 101

(Immunological Memory)

• have a lag period during the first exposure to a specific antigen {3 to 6 days}
• peak levels of the antibody in about 10 days

Answer 101

Primary immune response

Question 102

(Immunological Memory)

• reexposure to the same antigen
• memory cells respond within hours, not days
• antibody (mostly IgG) levels peak in 2 to 3 days at much higher levels than in the primary response

Answer 102

Secondary (anamnestic) immune response

Question 103

Cellular Immunity:

• Best for:
• Effector cells:
• Memory:

Answer 103

• intracellular pathogens, cancer cells, transplanted tissues
• cytotoxic T cells (helped by Helper T cells)
• T cell recall response

Question 104

Humoral Immunity:

• Best for:
• Effector cells:
• Memory:

Answer 104

• extracellular pathogens, toxins, venoms, allergens, mismatched RBCs
• plasma cells (develop from B cells and helped by Helper T cells)
• secondary (anamnestic) response

Question 105

Immune response may be:

Answer 105

• too vigorous
• too weak
• misdirected against wrong targets

Question 106

an excessive immune reaction against antigens that most people tolerate

Answer 106

hypersensitivity

Question 107

four types of hypersensitivity disorders:

Answer 107

• Type I
• Type II
• Type III
• Type IV

Question 108

• acute (immediate) hypersensitivity
• very rapid response
• based on antibodies

Answer 108

Type I

Question 109

• subacute hypersensitivity
• slower onset (1 to 3 hours after exposure)
• last longer (10 to 15 hours)
• based on antibodies

Answer 109

Type II and Type III

Question 110

• delayed cell mediated response
• signs appear 12 to 72 hours after exposure
• cosmetics, poison ivy, graft rejection, TB skin test

Answer 110

Type IV