Ch.12: The Lymphatic System and Body Defenses

Question 1

The lymphatic system consists of what two semi-independent parts?

Answer 1

1. Lymphatic vessels

2. Lymphoid tissues and organs

Question 2

What are the functions of the lymphatic system?

Answer 2

• Transports escaped fluids from the cardiovascular system back to the blood
• Plays essential roles in body defense and resistance to disease

Question 3

Concept Link 1

Answer 3

Recall that the hydrostatic and osmotic pressures operating at capillary beds force fluid out of the blood at the arterial ends of the beds (“upstream”) and cause most of the expelled fluid to be reabsorbed at the venous ends (“downstream”) (Chapter 11, p. 388).

Question 4

Lymph consists of _____ and _____ carried by lymphatic vessels.

Answer 4

• Excess tissue fluid

* Plasma proteins

Question 5

If fluids are not picked up, _____ occurs as fluid accumulates in tissues.

Answer 5

Edema

Question 6

_____ pick up excess fluid (lymph) and return it to the blood.

Answer 6

Lymphatic vessels (lymphatics)

Question 7

What are lymphatic vessels (lymphatics)?

Answer 7

• Form a one-way system

* Lymph flows only toward the heart

Question 8

What are lymph capillaries?

Answer 8

• Weave between tissue cells and blood capillaries
• Walls overlap to form flaplike minivalves
• Fluid leaks into lymph capillaries
• Capillaries are anchored to connective tissue by filaments
• Higher pressure on the inside closes minivalves
• Fluid is forced along the vessel

Question 9

Concept Link 2

Answer 9

This is very similar to the way that valves in veins work to ensure blood returns to the heart, despite being under low pressure (Chapter 11, p. 372).

Question 10

What is the function of lymphatic collecting vessels?

Answer 10

• Collect lymph from lymph capillaries
• Carry lymph to and away from lymph nodes
• Return fluid to circulatory veins near the heart
*Right lymphatic duct drains the lymph from the right arm and the right side of the head and thorax
*Thoracic duct drains lymph from rest of body

Question 11

How are lymphatic vessels similar to veins of the cardiovascular system?

Answer 11

• Thin-walled
• Larger vessels have valves
• Low-pressure, pumpless system

Question 12

Lymph transport is aided by:

Answer 12

• Milking action of skeletal muscles
• Pressure changes in thorax during breathing
• Smooth muscle in walls of lymphatics

Question 13

Lymph nodes filter _____ before it is returned to the blood.

Answer 13

Lymph

Question 14

Harmful materials that are filtered include:

Answer 14

• Bacteria
• Viruses
• Cancer cells
• Cell debris

Question 15

What are defense cells within lymph nodes?

Answer 15

• Macrophages

* Lymphocytes

Question 16

What is the function of macrophages?

Answer 16

Engulf and destroy bacteria, viruses, and other foreign substances in lymph

Question 17

What is the function of lymphocytes?

Answer 17

Respond to foreign substances in lymph

Question 18

Most lymph nodes are _____-shaped, less than _____ long, and buried in _____.

Answer 18

• Kidney
• 1 inch
• Connective tissue
• Surrounded by a capsule
• Divided into compartments by trabeculae

Question 19

What is the cortex (outer part) of a lymph node?

Answer 19

• Contains follicles—collections of lymphocytes

* Germinal centers enlarge when antibodies are released by plasma cells

Question 20

What is the medulla (inner part) of a lymph node?

Answer 20

Contains phagocytic macrophages

Question 21

What is the flow of lymph through nodes?

Answer 21

• Lymph enters the convex side through afferent lymphatic vessels
• Lymph flows through a number of sinuses inside the node
• Lymph exits through efferent lymphatic vessels
• Because there are fewer efferent than afferent vessels, flow is slowed

Question 22

What are other lymphoid organs contribute to lymphatic function (in addition to the lymph nodes)?

Answer 22

• Spleen
• Thymus
• Tonsils
• Peyer’s patches
• Appendix

Question 23

What is the function of the spleen?

Answer 23

• Located on the left side of the abdomen
• Filters and cleans blood of bacteria, viruses, debris
• Provides a site for lymphocyte proliferation and immune surveillance
• Destroys worn-out blood cells
• Forms blood cells in the fetus
• Acts as a blood reservoir

Question 24

The thymus functions at peak levels only during:

Answer 24

Youth

Question 25

Concept Link 3

Answer 25

Remember that the thymus produces hormones, thymosin and others, that function in the programming of T lymphocytes so they can carry out their protective roles in the body (Chapter 9, p. 320).

Question 26

What are tonsils and what are their function?

Answer 26

• Small masses of lymphoid tissue deep to the mucosa surrounding the pharynx (throat)
• Trap and remove bacteria and other foreign pathogens
• Tonsillitis results when the tonsils become congested with bacteria

Question 27

What are Peyer’s patches?

Answer 27

• Found in the wall of the small intestine
• Similar lymphoid follicles are found in the appendix
• Macrophages capture and destroy bacteria in the intestine

Question 28

What is mucosa-associated lymphoid tissue (MALT) and what is its function?

Answer 28

Includes:
• Peyer’s patches
• Tonsils
• Appendix
• Acts as a sentinel to protect respiratory and digestive tracts

Question 29

What are two mechanisms that make up the immune system and defend us from foreign materials?

Answer 29

• Innate (nonspecific) defense system

* Adaptive (specific) defense system

Question 30

What is immunity?

Answer 30

Specific resistance to disease

Question 31

The immune system is a _____ system rather than an _____ system in an anatomical sense.

Answer 31

• Functional

* Organ

Question 32

What is the first line of defense?

Answer 32

• Skin
• Mucous membranes
• Secretions of skin and mucous membranes

Question 33

What is the second line of defense?

Answer 33

• Phagocytic cells
• Natural killer cells
• Antimicrobial proteins
• The inflammatory response
• Fever

Question 34

What is the third line of defense?

Answer 34

• Lymphocytes
• Antibodies
• Macrophages and other antigen-presenting cells

Question 35

What is the function of the innate (nonspecific) defense system?

Answer 35

• Mechanisms protect against a variety of invaders

* Responds immediately to protect body from foreign materials

Question 36

What is the function of the adaptive (specific) defense system?

Answer 36

• Fights invaders that get past the innate system
• Specific defense is required for each type of invader
• The highly specific resistance to disease is immunity

Question 37

Innate body defenses are mechanical barriers to pathogens (harmful or disease-causing microorganisms) and include:

Answer 37

• Body surface coverings
*Intact skin
*Mucous membranes
• Specialized human cells
• Chemicals produced by the body

Question 38

Surface membrane barriers, such as the skin and mucous membranes, provide the _____ against the invasion of microorganisms.

Answer 38

• First line of defense
• Protective secretions produced by these membranes
*Acidic skin secretions inhibit bacterial growth
*Sebum is toxic to bacteria
*Mucus traps microorganisms
*Gastric juices are acidic and kill pathogens
*Saliva and tears contain lysozyme (enzyme that destroys bacteria)

Question 39

Cells and chemicals provide a second line of defense, such as:

Answer 39

• Natural killer cells and phagocytes
• Inflammatory response
• Chemicals that kill pathogens
• Fever

Question 40

What is the function of natural killer (NK) cells?

Answer 40

• Lyse (burst) and kill cancer cells, virus-infected cells

* Release chemicals called perforin and granzymes to degrade target cell contents

Question 41

Inflammatory response is triggered when:

Answer 41

Body tissues are injured

Question 42

What are the four most common indicators (cardinal signs) of acute inflammation?

Answer 42

1. Redness
2. Heat
3. Pain
4. Swelling (edema)

Question 43

Damaged cells release inflammatory chemicals, such as:

Answer 43

• Histamine

* Kinin

Question 44

Inflammatory chemicals cause:

Answer 44

• Blood vessels to dilate
• Capillaries to become leaky
• Phagocytes and white blood cells to move into the area (called positive chemotaxis)

Question 45

What are the functions of the inflammatory response?

Answer 45

• Prevents spread of damaging agents
• Disposes of cell debris and pathogens through phagocytosis
• Sets the stage for repair

Question 46

What is the process of the inflammatory response?

Answer 46

1. Neutrophils migrate to the area of inflammation by rolling along the vessel wall (following the scent of chemicals from inflammation)
2. Neutrophils squeeze through the capillary walls by diapedesis to sites of inflammation
3. Neutrophils gather in the precise site of tissue injury (positive chemotaxis) and consume any foreign material present

Question 47

What is the function of phagocytes?

Answer 47

• Cells such as neutrophils and macrophages engulf foreign material by phagocytosis
• The phagocytic vesicle is fused with a lysosome, and enzymes digest the cell’s contents

Question 48

Antimicrobial proteins enhance innate defenses by:

Answer 48

• Attacking microorganisms directly

* Hindering reproduction of microorganisms

Question 49

What are the most important types of antimicrobial proteins?

Answer 49

• Complement proteins

* Interferon

Question 50

What are complement proteins?

Answer 50

• Complement refers to a group of at least 20 plasma proteins that circulate in the plasma
• Complement is activated when these plasma proteins encounter and attach to cells (known as complement fixation)

Question 51

Membrane attack complexes (MACs), one result of complement fixation, produce _____ or _____ in cells.

Answer 51

• Holes
• Pores
• Pores allow water to rush into the cell
• Cell bursts (lyses)
• Activated complement enhances the inflammatory response

Question 52

What are interferons and what are their function?

Answer 52

• Interferons are small proteins secreted by virus-infected cells
• Interferons bind to membrane receptors on healthy cell surfaces to interfere with the ability of viruses to multiply

Question 53

What is a fever?

Answer 53

• Abnormally high body temperature is a systemic response to invasion by microorganisms
• Hypothalamus regulates body temperature at 37°Celsius (98.6°Fahrenheit)
• The hypothalamus thermostat can be reset higher by pyrogens (secreted by white blood cells)
• High temperatures inhibit the release of iron and zinc (needed by bacteria) from the liver and spleen
• Fever also increases the speed of repair processes

Question 54

_____ are the body’s specific defense system, or the third line of defense.

Answer 54

• Adaptive body defenses
• Immune response is the immune system’s response to a threat
• Antigens are targeted and destroyed by antibodies

Question 55

What are the three aspects of adaptive defense?

Answer 55

• Antigen specific—the adaptive defense system recognizes and acts against particular foreign substances
• Systemic—immunity is not restricted to the initial infection site
• Memory—the adaptive defense system recognizes and mounts a stronger attack on previously encountered pathogens

Question 56

What are the two arms of the adaptive defense system?

Answer 56

• Humoral immunity

* Cellular immunity

Question 57

What is humoral immunity?

Answer 57

• Antibody-mediated immunity

* Provided by antibodies present in body fluids

Question 58

What is cellular immunity?

Answer 58

• Cell-mediated immunity

* Targets virus-infected cells, cancer cells, and cells of foreign grafts

Question 59

What are antigens?

Answer 59

Any substance capable of exciting the immune system and provoking an immune response

Question 60

What are examples of common non-self antigens?

Answer 60

• Foreign proteins provoke the strongest response
• Nucleic acids
• Large carbohydrates
• Some lipids
• Pollen grains
• Microorganisms (bacteria, fungi, viruses)

Question 61

What are self-antigens?

Answer 61

• Human cells have many protein and carbohydrate molecules
• Self-antigens do not trigger an immune response in us
• The presence of our cells in another person’s body can trigger an immune response because they are foreign
*Restricts donors for transplants

Question 62

Concept Link 4

Answer 62

Likewise, this explains why only people of compatible blood types can donate blood to one another. Recall our discussion of blood antigens (Chapter 10, p.352). Depending on your individual blood type, one or more blood antigen types may be self to your body, and one or more may be non-self. For example, if you are blood type A, type A antigen is self, but type B antigen is non-self. However, in a person with type A B blood, both A and B antigens are self-antigens.

Question 63

Haptens, or incomplete antigens, are not _____ by themselves.

Answer 63

• Antigenic
• When they link up with our own proteins, the immune system may recognize the combination as foreign and respond with an attack
• Found in poison ivy, animal dander, detergents, hair dyes, cosmetics

Question 64

Lymphocytes respond to:

Answer 64

Specific antigens

Question 65

_____ produce antibodies and oversee humoral immunity

Answer 65

B lymphocytes (B cells)

Question 66

_____ constitute the cell-mediated arm of the adaptive defenses; do not make antibodies

Answer 66

T lymphocytes (T cells)

Question 67

What are antigen-presenting cells (APC)?

Answer 67

Help the lymphocytes but do not respond to specific antigens

Question 68

Lymphocytes arise from _____ of bone marrow.

Answer 68

Hemocytoblasts

Question 69

Whether a lymphocyte matures into a B cell or T cell depends on where it becomes:

Answer 69

Immunocompetent

Question 70

What is immunocompetence?

Answer 70

The capability to respond to a specific antigen by binding to it with antigen-specific receptors that appear on the lymphocyte’s surface

Question 71

T cells develop immunocompetence in the _____ and oversee _____.

Answer 71

• Thymus
• Cell-mediated immunity
• Identify foreign antigens
• Those that bind self-antigens are destroyed
• Self-tolerance is important part of lymphocyte “education”

Question 72

B cells develop immunocompetence in _____ and provide _____.

Answer 72

• Bone marrow

* Humoral immunity

Question 73

Immunocompetent T and B lymphocytes migrate to the _____ and _____, where encounters with _____ occur.

Answer 73

• Lymph nodes
• Spleen
• Antigens

Question 74

Differentiation from _____ into mature lymphocytes is complete when they bind with recognized _____.

Answer 74

• Naïve cells

* Antigens

Question 75

Mature lymphocytes (especially T cells) _____ throughout the body.

Answer 75

Circulate continuously

Question 76

Antigen-presenting cells (APCs) engulf _____ and then present fragments of them on their own surfaces, where they can be recognized by _____.

Answer 76

• Antigens

* T cells

Question 77

What are the major types of cells behaving as APCs?

Answer 77

• Dendritic cells
• Macrophages
• B lymphocytes

Question 78

When antigen-presenting cells present antigens, _____ and _____ activate T cells, which release chemicals.

Answer 78

• Dendritic cells

* Macrophages

Question 79

B lymphocytes with specific _____ bind to a specific _____.

Answer 79

• Receptors
• Antigen
• The binding event sensitizes, or activates, the lymphocyte to undergo clonal selection
• A large number of clones is produced (primary humoral response)

Question 80

Most of the B cell clone members (descendants) become:

Answer 80

• Plasma cells
• Produce antibodies to destroy antigens
• Activity lasts for 4 or 5 days
• Plasma cells begin to die

Question 81

Some B cells become _____ capable of mounting a rapid attack against the same antigen in subsequent meetings (secondary humoral response)

Answer 81

• Long-lived memory cells

* These cells provide immunological memory

Question 82

What is active immunity?

Answer 82

Occurs when B cells encounter antigens and produce antibodies

Question 83

Active immunity can be:

Answer 83

• Naturally acquired during bacterial and viral infections

* Artificially acquired from vaccines

Question 84

What is passive immunity?

Answer 84

• Occurs when antibodies are obtained from someone else
*Naturally acquired from a mother to her fetus or in the breast milk
*Artificially acquired from immune serum or gamma globulin (donated antibodies)
• Immunological memory does not occur
• Protection is short-lived (2–3 weeks)

Question 85

What are monoclonal antibodies?

Answer 85

• Antibodies prepared for clinical testing for diagnostic services
• Produced from descendants of a single cell line
• Exhibit specificity for only one antigen

Question 86

Examples of uses for monoclonal antibodies include:

Answer 86

• Cancer treatment
• Diagnosis of pregnancy
• Treatment after exposure to hepatitis and rabies

Question 87

Antibodies (immunoglobulins, I g s) constitute the _____ part of blood proteins.

Answer 87

• Gamma globulin
• Soluble proteins secreted by activated B cells (plasma cells)
• Formed in response to a huge number of antigens

Question 88

What is the structure of an antibody?

Answer 88

• Four polypeptide chains, two heavy and two light, linked by disulfide bonds to form a T- or Y-shaped molecule
• Each polypeptide chain has a variable (V) region and a constant (C) region
*Variable regions form antigen-binding sites, one on each arm of the T or Y
*Constant regions determine the type of antibody formed (antibody class)

Question 89

What are the five major immunoglobulin classes (MADGE)?

Answer 89

Antibodies of each class have slightly different roles and differ structurally and functionally

1. IgM—can fix complement
2. IgA—found mainly in secretions, such as mucus or tears
3. IgD—important in activation of B cell
4. IgG—can cross the placental barrier and fix complement; most abundant antibody in plasma
5. IgE—involved in allergies

Question 90

Antibodies inactivate antigens in a number of ways, such as:

Answer 90

• Complement fixation: chief antibody ammunition used against cellular antigens
• Neutralization: antibodies bind to specific sites on bacterial exotoxins or on viruses that can cause cell injury
• Agglutination: antibody-antigen reaction that causes clumping of cells
• Precipitation: cross-linking reaction in which antigen-antibody complex settles out of solution

Question 91

What is the main difference between the two arms of the adaptive response?

Answer 91

• B cells secrete antibodies

* T cells fight antigens directly

Question 92

Like B cells, _____ are activated to form a _____ by binding with a recognized antigen.

Answer 92

• Immunocompetent T cells

* Clone

Question 93

Unlike B cells, T cells are unable to bind to:

Answer 93

• Free antigens
• Antigens must be presented by a macrophage, and double recognition must occur
• APC engulfs and presents the processed antigen in combination with a protein from the APC

Question 94

What are the different classes of effector T cells?

Answer 94

• Helper T cells

* Cytotoxic T cells

Question 95

T cells must recognize _____ and _____ through the process of antigen presentation.

Answer 95

• Non-self—the antigen fragment presented by APC

* Self—coupling with a specific glycoprotein on the APC’s surface at the same time

Question 96

What are cytotoxic (killer) T cells?

Answer 96

• Specialize in killing infected cells
• Insert a toxic chemical (perforin or granzyme)
• The perforin enters the foreign cell’s plasma membrane
• Pores now appear in the target cell’s membrane
• Granzymes (protein-digesting enzymes) enter and kill the foreign cell
• Cytotoxic T cell detaches and seeks other targets

Question 97

What are helper T cells?

Answer 97

• Recruit other cells to fight invaders
• Interact directly with B cells bound to an antigen, prodding the B cells into clone production
• Release cytokines, chemicals that act directly to rid the body of antigens

Question 98

What are regulatory T cells?

Answer 98

• Release chemicals to suppress the activity of T and B cells
• Stop the immune response to prevent uncontrolled activity
• A few members of each clone are memory cells

Question 99

What are major types of transplants, or grafts?

Answer 99

• Autografts
• Isografts
• Allografts
• Xenografts

Question 100

What are autografts?

Answer 100

Tissue transplanted from one site to another on the same person

Question 101

What are isografts?

Answer 101

Tissue grafts from a genetically identical person (identical twin)

Question 102

What are allografts?

Answer 102

Tissue taken from a person other than an identical twin (most common type of graft)

Question 103

What are xenografts?

Answer 103

Tissue taken from a different animal species (never successful)

Question 104

Blood group and tissue matching is done to ensure the best match possible, but a __% match is needed to attempt a graft

Answer 104

75

Question 105

Organ transplant is followed by _____ to prevent rejection.

Answer 105

Immunosuppressive therapy

Question 106

What are the most important disorders of the immune system?

Answer 106

• Allergies
• Autoimmune diseases
• Immunodeficiencies

Question 107

What are allergies?

Answer 107

• Allergies, or hypersensitives, are abnormal, vigorous immune responses
• The immune system overreacts to an otherwise harmless antigen, and tissue damage occurs

Question 108

What are types of allergies?

Answer 108

• Immediate (acute) hypersensitivity

* Delayed hypersensitivity

Question 109

What is immediate (acute) hypersensitivity?

Answer 109

• Seen in hives and anaphylaxis
• Due to IgE antibodies and histamine
• Anaphylactic shock is systemic, acute allergic response and is rare

Question 110

What is delayed hypersensitivity?

Answer 110

• Reflects activity of T cells, macrophages, and cytokines
• Symptoms usually appear 1–3 days after contact with antigen
• Allergic contact dermatitis (poison ivy, cosmetics)

Question 111

What are autoimmune diseases?

Answer 111

• Occurs when the body’s self-tolerance breaks down
• The body produces auto-antibodies and sensitized T lymphocytes that attack its own tissues
• Most forms of autoimmune disease result from the appearance of formerly hidden self-antigens or changes in the structure of self-antigens, and antibodies formed against foreign antigens that resemble self-antigens

Question 112

What are examples of autoimmune diseases?

Answer 112

• Rheumatoid arthritis—destroys joints
• Myasthenia gravis—impairs communication between nerves and skeletal muscles
• Multiple sclerosis—white matter of brain and spinal cord is destroyed
• Graves’ disease—thyroid gland produces excess thyroxine

Question 113

What are examples of autoimmune diseases?

Answer 113

• Type I diabetes mellitus—destroys pancreatic beta cells, resulting in deficient insulin production
• Systemic lupus erythematosus (SLE)—affects kidney, heart, lung, and skin
• Glomerulonephritis—severe impairment of kidney function due to acute inflammation

Question 114

What are immunodeficiencies?

Answer 114

• May be congenital or acquired
*Severe combined immunodeficiency disease (SCID) is a congenital disease
*AIDS (acquired immune deficiency syndrome) is caused by a virus that attacks and cripples the helper T cells
• Result from abnormalities in any immune element
• Production or function of immune cells or complement is abnormal

Question 115

Lymphatic vessels form by budding off from:

Answer 115

Veins

Question 116

Lymph nodes present by the _____ week of development.

Answer 116

Fifth

Question 117

The _____ and the _____ are the first lymphoid organs to appear in the embryo.

Answer 117

• Thymus
• Spleen
• Other lymphoid organs are poorly developed before birth

Question 118

The immune response develops around the time of:

Answer 118

Birth

Question 119

The ability of immunocompetent cells to recognize foreign antigens is _____ determined.

Answer 119

Genetically

Question 120

_____ appears to interfere with normal immune response.

Answer 120

Stress

Question 121

Efficiency of immune response wanes in _____, and _____, _____, _____, and _____ diseases become more prevalent.

Answer 121

• Old age
• Infections
• Cancer
• Immunodeficiencies
• Autoimmune