Chapter 16-Exam 3

Question 1

able to be productively infected

Answer 1

susceptibility

Question 2

unable to allow a productive infection

Answer 2

resistance

Question 3

an active process that prevents establishment or progression of an infection

Answer 3

immunity

Question 4

defenses against any pathogen, present at birth

Answer 4

innate immunity

Question 5

First line of defense in the immune system

Answer 5

physical and chemical factors & normal microbiota:

• intact skin
• mucous membrane and their secretions
• lacrimal apparatus
• ciliary escalator
• epiglottis
• saliva
• urine
• vaginal secretions
• peristalsis, defecation, vomiting
• normal microbiota

Question 6

Second line of defense in the immune system

Answer 6

non-specific physiologic processes:

• phagocytes such as neutrophils, eosinophils, dendritic cells, and macrophages
• inflammation
• fever
• antimicrobial substances

Question 7

Third line of defense in the immune system

Answer 7

adaptive immunity:

• specialized B and T cells (lymphocytes)
• antibodies

Question 8

specific resistance to a specific pathogen, develops overtime

Answer 8

adaptive immunity

Question 9

physical factors of innate immunity that: block

Answer 9

skin, mucous membrane, epiglottis

Question 10

physical factors of innate immunity that: trap

Answer 10

mucus, hairs

Question 11

physical factors of innate immunity that: wash

Answer 11

tears, saliva, urine, vaginal secretions

Question 12

physical factors of innate immunity that: move

Answer 12

cilia, peristalsis, defecation, vomiting

Question 13

cutaneous membrane

Answer 13

skin: covers the body surface and provides a physical barrier to the entrance of microbes

Question 14

mucous membranes

Answer 14

line the body cavities and are open to the exterior of the body

Question 15

Epidermis

Answer 15

consists of tightly packed cells with a thick layer of keratin- containing dead cells

Question 16

_________ inhibits microbes (Epidermis)

Answer 16

dryness

Question 17

_________ blocks microbes (Epidermis)

Answer 17

water-tightness

Question 18

_________ removes microbes (Epidermis)

Answer 18

shedding

Question 19

inner layer of skin that is made of connective tissue

Answer 19

dermis

Question 20

______ ________ are in the dermis

Answer 20

blood vessels

Question 21

Why can microbes get into the blood stream if they are found in the dermis?

Answer 21

Endothelial cells of vessels are not densely packed, and can allow microbes to pass by them

Question 22

What is the purpose of the keratinized layer in the epithelium?

Answer 22

to provide an air-tight barrier

Question 23

How do mucous membranes differ from cutaneous membranes?

Answer 23

They do not have a water- tight keratinized layer above the living cells and instead of having squamous epithelium, they have goblet cells that produce mucous that protects the epidermis.

Question 24

What systems do the mucus membranes line?

Answer 24

mucus membranes are an epithelial layer lining the respiratory, gastrointestinal, urogenital, visual, and auditory
systems.

Question 25

traps microbes in respiratory and GI tracts

Answer 25

mucus

Question 26

What components make up mucus?

Answer 26

a mix of glycoproteins and water

contains many anti-microbial substances

Question 27

surface projections on cells of the respiratory
tract that move mucus and trapped microbes out of the
upper respiratory tract.

Answer 27

cilia

Question 28

Which is more effective: mucus membranes or the skin?

Answer 28

skin

Question 29

What is the ciliary escalator, and how far does it move the ciliary blanket? What can speed it up?

Answer 29

The ciliary escalator is also known as ciliary clearance and it is the self-clearing mechanism of the bronchi.
ciliary escalator moves the mucus blanket 1-3 cm/hr
coughing speeds up the movement

Question 30

What pathway does tear flow take?

Answer 30

Tears flow from lacrimal glands under eyelid to

lacrimal canal

Question 31

_________ and _________ by tears keeps microbes from settling on eye surface

Answer 31

washing; dilution

Question 32

chemical factors that are part of the first line of defense

Answer 32

• sebum
• lysozyme
• saliva
• gastric juice
• urine
• vaginal secretions

Question 33

What is sebum? What is it made out of?

Answer 33

Sebum is the oily secretion of the
sebaceous glands that are embedded in the skin. Sebum is a complex mixture of lipids (many fatty
acids and triglycerides) that have anti-microbial
activity.

Question 34

______ and ______ also contain many nutrients that bacteria and fungi may use to grow

Answer 34

sweat and sebum

Question 35

what pH inhibits bacteria and fungi?

Answer 35

pH of 6 or lower

Question 36

pH 1.2–3.0

Answer 36

gastric juice (hydrochloric acid)

Question 37

pH (3–5)

Answer 37

vaginal secretions and skin

Question 38

a substance made by saliva or urine that acts as a bacteriostatic or bactericidal for many species

Answer 38

urea

Question 39

What is a lysozyme? Who discovered it?

Answer 39

Lysozyme is a small enzyme that attacks the peptidoglycan chains in the cell walls of bacteria, causing the cells to burst. Alexander Flemming (who discovered
penicillin) discovered lysozyme as an antibiotic.

Question 40

What are Hematopoeitic cells and what do they function as in the second line of defense?

Answer 40

perform a variety of functions
- red blood cells carry O2 and CO2
- white blood cells function in immunity and injury
travel throughout the body via the circulation
move in and out of the interstitial space (fluid
surrounding all cells of the body) by squeezing
through the endothelial cells of the blood vessels
all develop from a common stem cell

Question 41

three types of granulocytes

Answer 41

• neutrophils
• basophils
• eosinophils

Question 42

three types of agraunulocytes

Answer 42

• monocytes (macrophages)

- dendritic cells

Question 43

another term for WBCs

Answer 43

leukocytes

Question 44

key features of neutrophils

Answer 44

phagocytosis

Question 45

key features of basophils

Answer 45

histamine

Question 46

key features of eosinophils

Answer 46

kill parasites

Question 47

key features of monocytes

Answer 47

phagocytosis (APC)

Question 48

key features of dendritic cells

Answer 48

phagocytosis (APC)

Question 49

three types of lymphocytes

Answer 49

• T cells
• B cells
• NK cells

Question 50

key features of T cells

Answer 50

cell-mediated immunity

Question 51

key features of B cells

Answer 51

produce antibodies

Question 52

key features of NK cells

Answer 52

destroy target cells (infected or cancerous)

Question 53

non WBCs that are involved in blood clotting

Answer 53

platelets

Question 54

Differential White Cell Count (what are the percentages of each?)

Answer 54

Neutrophils 60–70%
Basophils 0.5–1%
Eosinophils 2–4%
Monocytes 3–8%
Lymphocytes 20–25%

Question 55

what is the difference between leukocytosis and leukopenia?

Answer 55

increase in white cell count = leukocytosis

decrease in white cell count = leukopenia

Question 56

describe the pathway of lymph flow throughout the lymphatic system?

Answer 56

blood plasma —> interstitial fluid —> lymph —> blood plasma

Question 57

what type of phagocytic cells live only a short time

and predominate early in infections?

Answer 57

neutrophils

Question 58

what type of phagocytic cells last up to several months

and predominate later in infections?

Answer 58

macrophages and other wandering phagocytes

Question 59

Describe the seven phases of phagocytosis:

Answer 59

1. chemotaxis and adherence of pseudopod
2. ingestion of target
3. formation of phagocytic vesicle or phagosome
4. fusion with a lysosome, forming phagolysosome
5. digestion of target by digestive enzymes
6. formation of residual body
7. discharge of indigestible material

Question 60

Define Toll-like receptors

Answer 60

TLRs are protein molecules on cell surfaces
throughout the body
TLRs are how macrophage pseudopods adhere to
bacteria
TLRs are “pattern recognition receptors,” that is,
they recognize pathogen-associated molecular
patterns, specific signatures in molecules in the
extracellular space.
TLRs that recognize bacterially-produced molecules
(such as LPS, peptidoglycan, flagellin, dsRNA), and
signal the immune system via cytokines (like TNFalpha)
that bacteria are present.

Question 61

microbes that inhibit adherance

Answer 61

Streptococcus pyogenes, S. pneumoniae (by using M proteins and capsules)

Question 62

microbes that kill phagocytes

Answer 62

Staphylococcus aureus (leukocidins)

Question 63

microbes that lyse phagocytes

Answer 63

Listeria monocytogenes (membrane attack complex)

Question 64

microbes that escape the phagosome

Answer 64

Shigella, Rickettsia

Question 65

microbes that prevent the formation of phagosome-lysosome fusion

Answer 65

HIV, Mycobacterium tuberculosis

Question 66

microbes that survive in the phagolysosome

Answer 66

Coxiella burnettii

Question 67

What is the purpose of inflammation in the second line of defense? What are some signs/ symptoms?

Answer 67

Purpose: to destroy and remove the injurious agent
limit the agent’s effects by walling it off to repair the damage
Signs and symptoms: 
Redness
Swelling (edema)
Pain
Heat
(Loss of function)

Question 68

describe the process of inflammation

Answer 68

cells damaged by infection release histamine,
prostoglandins, and other signaling molecules
blood clot and abscess form
vasodilation, increased vessel permeability
phagocytes (monocytes, neutrophils) migrate
margination
diapedesis
phagocytosis
tissue repair, epidermis and dermis regenerate

Question 69

what is margination?

Answer 69

phagocytes stick to endothelium, the blood vessel cells

Question 70

what is diapedesis?

Answer 70

phagocytes squeeze between endothelial cells

Question 71

What are the four types of signaling molecules released due to cell damage?

Answer 71

1. histamine
2. kinins
3. prostaglandins
4. leukotrienes

Question 72

Vasodilation triggered by signaling molecules
results in the _______ and _____ we association with
inflammation

Answer 72

redness and heat

Question 73

The increased permeability of blood vessels results

in _______ or ________.

Answer 73

edema or swelling

Question 74

acute inflammation vs. chronic inflammation

Answer 74

Acute inflammation, lasts relatively short time
Chronic inflammation, lasts years due to the accumulation of activated macrophages induces
fibroblasts, which synthesize collagen fibers,
resulting in fibrosis or scarring. Chronic inflammation is also a contributing factor in some cancers

Question 75

what body temperature does the hypothalamus regulate the body at?

Answer 75

37 degrees

Question 76

How is fever a second line of defense?

Answer 76

intensifies the effects of IFNs, inhibits growth of some microbes, and speeds up body reactions that aid repair

Question 77

Describe the process of fever formation at the cellular level

Answer 77

Gram-negative endotoxin cause phagocytes to
release interleukin–1 (IL–1)
Hypothalamus releases prostaglandins that reset
the hypothalamus to a high temperature
Body increases rate of metabolism and shivering
which raise temperature
Vasodilation and sweating: Body temperature falls
(crisis)

Question 78

What are some advantages and disadvantages to having a fever?

Answer 78

Advantages
- Increases transferrins
- Increases IL–1 activity
- Produces Interferon
Disadvantages
- Rapid heart beat (tachycardia)
- Acidosis (low blood pH)
- Dehydration 44–46°C (111°F) is fatal!

Question 79

What are the antimicrobial substances that are part of the second line of defense?

Answer 79

1. complement system
2. IFNs
3. Iron-binding proteins
4. antimicrobial peptides

Question 80

What is the complement system? Is it part of the innate or adaptive immune systems?

Answer 80

The complement system is an enzyme
cascade that damages bacterial plasma
membranes, increases the ability of antibodies and
phagocytic cells to clear microbes and debris, and
promotes inflammation.
It is part of the innate immune system, but works
with the adaptive immune system (that which
involves antibodies and T cells).

Question 81

Describe the Classical Pathway of Complement

Activation

Answer 81

C1 is activated by microbe-antibody complexes
C1 causes C2 to split into C2a + C2b
C1 causes C4 to split into C4a + C4b
C2a* combines with C4b, and together they split
C3
C3a and C3b initiate the complement cascade

Question 82

Once the complement pathway has been activated, what happens during the complement cascade?

Answer 82

C3b
binds to microbe and enhances phagocytosis, a
process called opsonization (enhances
phagocytosis)
splits C5
C5b, C6, C7, C8 and multiple C9 fragments form a
membrane attack complex, which punches a hole
in the microbe, causing lysis
C3a and C5a bind to mast cells which release
histamine and other signaling molecules
C5a is a chemotactic factor, which attracts
phagocytes to the infection site

Question 83

What are the key effects of the complement pathway?

Answer 83

Opsonization or immune adherence, which
enhances phagocytosis
Formation of membrane attack complex which leads
to cytolysis (cell lysis)
Attraction of phagocytes to the infected area
inflammation stimulated by complement

Question 84

causes opsonization (complement)

Answer 84

C3b

Question 85

cause cell lysis (complement)

Answer 85

C5b + C6 + C7 + C8 + C9

Question 86

cause inflammation (complement)

Answer 86

C3a + C5a

Question 87

Describe the Alternative Pathway of Complement

Activation

Answer 87

1. C3 combines with factors B, D, and P (which are host proteins attracted to the bacterial cell surface) on the surface of the microbe
2. This causes C3 to split into C3a and C3b

Question 88

Describe the Lectin Pathway of Complement

Activation

Answer 88

1. Lectin binds to an invading cell
2. Bound lectin splits C2 and C4
3. C2a and C4b combine to activate splitting of C3

Question 89

What are some of the methods by which bacteria can evade complement?

Answer 89

• Capsules prevent complement activation
• Some surface lipid-carbohydrates prevent
  membrane attack complex (MAC) formation
• Some bacterial enzymes digest C5a
  (C5a peptidase), which inhibits the infiltration of
  neutrophils and macrophages to the infection site

Question 90

What is the role of iron in innate immunity?

Answer 90

• bacteria need lots of iron
• iron is hard to get in the environment
• siderophores are secreted bacterial proteins that
  sequester iron from their environment and allow the
  microbes to more easily take it up
• animal hosts have iron binding proteins, such as
  transferrins, that transport and store iron

Question 91

What are some characteristics of antimicrobial peptides?

Answer 91

• extremely small proteins: 12-15 amino acids long
• very diverse; more than 600 known
• broad spectrum
• not specific
• lyse bacterial cells
• inhibit cell wall synthesis
• destroy RNA and DNA

Question 92

What are interferons?

Answer 92

Interferons are cytokines, signaling molecules

between cells during an immune response

Question 93

interferons that cause cells to produce

antiviral proteins that inhibit viral replication

Answer 93

IFN-alpha and IFN-beta

Question 94

interferons that causes neutrophils and macrophages

to phagocytize bacteria

Answer 94

IFN-gamma

Question 95

What is the mechanism by which interferons work?

Answer 95

Production of interferons occurs mainly in response to microbes, such as viruses and bacteria, and their products. Binding of molecules uniquely found in microbes by pattern recognition receptors, such as membrane bound Toll like receptors, can trigger release of IFNs.

IFNs released by the virus-infected host cell bind to plasma membrane or nuclear membrane receptors on uninfected neighboring host cells, inducing them to synthesize antiviral proteins (AVPs).

AVPs degrade viral mRNA and inhibit protein synthesis and thus interfere with viral replication