Hunter: Inflammation

Question 1

(blank) is a component of the innate immune response to pathogenic microorganisms.

Answer 1

inflammation

Question 2

In addition to the anti-microbial response, inflammation plays a key role in dealing with the consequences of cell and tissue (blank) caused by microbes and other physical and chemical insults

Answer 2

injury

Question 3

What would happen without inflammation?

Answer 3

pathogenic microbes would overwhelm us

injured tissues would never heal

Question 4

T/F: Inflammation is sometimes inappropriately triggered or poorly controlled, and is sometimes the CAUSE of tissue injury in many disorders.

Answer 4

True

Question 5

Give an example of inflammation having a protective response. Give an example of inflammation having a harmful response.

Answer 5

protective: Streptococcus pyogenes (impetigo)
harmful: rheumatoid arthritis

Question 6

Inflammation was recognized long ago. What were the four cardinal signs of inflammation noted? What is a 5th?

Answer 6

rubor (redness)
tumor (swelling)
calor (heat)
dolor (pain)

Question 7

T/F: Inflammation is not a disease, but a nonspecific response that can be both protective and harmful to the host.

Answer 7

True

Question 8

Pluripotent hematopoietic stem cells can give rise to two lines of cells. Which lineage produces dendritic cells, granulocytes (neutrophils, eosinophils, basophils), platelets, mast cells, and erythrocytes?

Answer 8

myeloid lineage

Question 9

What two cells are the primary sensors of acute inflammation?

Answer 9

mast cells

macrophages

Question 10

What’s this: source of mediators, such as histamine

Answer 10

mast cell

Question 11

What’s this: cell involved in elimination of microbes and dead tissue. A source of mediators. Has a role in immune response. Also, Dr. H’s favorite cell.

Answer 11

macrophage

Question 12

Describe the inflammatory process in a simple way. What four components are involved?

Answer 12

Inducers –> sensors –> mediators –> target tissues

Question 13

INDUCERS of inflammation can be exogenous signals or endogenous signals that report on tissue stress, injury, or malfunction. What do these respond to?

Answer 13

danger signals!!

Question 14

SENSOR CELLS, such as tissue-resident macrophages and mast cells, detect inducers with specific mediators and respond by producing what?

Answer 14

inflammatory mediators

Question 15

Inflammatory mediators act on TARGET TISSUES to alter their functional states, promote elimination of inducers, adaptation to the noxious state, and restore (blank)

Answer 15

tissue homeostasis

Question 16

Although leukocytes are the primary effector cells of inflammation, what other cells play a critical role?

Answer 16

endothelial cells

Question 17

Give an example of a mediator that modifies endothelium adjacent to various mediators and attracts leukocytes to allow them to pass into the tissues

Answer 17

TNF-alpha

Question 18

The endothelium also becomes permeable to (blank), thus allowing molecules like antibodies to gain access to the tissues.

Answer 18

plasma

Question 19

List some stimuli for inflammation.

Answer 19

infections and microbial toxins
tissue necrosis for any cause (ex: trauma, physical/chemical injury, hypoxia)
hypersensitivity reactions (normally protective immune system damages cells and tissues)

Question 20

List a few examples of hypersensitivity reactions or immunopathology

Answer 20

autoimmune diseases

allergies

Question 21

Inflammation can be triggered by (blank) from pathogens. Phagocytic cells have (blank) on their surface and bind to highly conserved molecular motifs on pathogens called (blank).

Answer 21

danger signals; pattern recognition receptors; pathogen-associated molecular patterns

Question 22

What does recognition of PAMPs trigger?

Answer 22

production of inflammatory mediators –> INFLAMMATION –>

destruction of the pathogen

Question 23

These are expressed on phagocytic cells and recognize highly conserved PAMPs found on viruses, bacteria, etc. List a couple PRRs.

Answer 23

Toll-like receptors (can be extracellular or intracellular)
Other PRRs (ex: Dectin-1)

Question 24

In addition to pathogens, what else can induce inflammation?

Answer 24

tissue injury (necrosis)

Question 25

Does necrosis trigger inflammation? Does apoptosis trigger inflammation?

Answer 25

YES; no

Question 26

Cell injury or necrotic death causes the release of damage-associated molecular patterns (DAMPs). What are these also referred to as?

Answer 26

alarmins

Question 27

Phagocytic cells recognize DAMPs and activate intracellular signaling pathway and the production of inflammatory mediators. What does this lead to?

Answer 27

inflammation and tissue regeneration or repair

Question 28

Inflammation can cause (blank) to normal tissues. When it is inappropriately directed against self tissues it can becomes the CAUSE of injury/disease. List some common chronic diseases in which this is the case.

Answer 28

collateral damage; rheumatoid arthritis, atherosclerosis

Question 29

Is inflammation critical to tissue repair? When does tissue repair begin? When does it end?

Answer 29

Yes; repair begins during inflammation, ends after the injurious agent has been neutralized

Question 30

Through what two processes is injured tissue replaced?

Answer 30

regeneration of native parenchymal cells
filling of defect with fibrous tissue
OR…both!

Question 31

T/F: Inflammation can be acute OR chronic, and this depends on the nature of the stimulus and how effective the initial reaction is in eliminating the stimulus and damaged tissues.

Answer 31

True

Question 32

What happens after an offending agent is eliminated to prevent excessive damage to the host?

Answer 32

mediators rapidly broken down
neutrophils are short-lived
anti-inflammatory mechanisms

Question 33

Is a sunburn an acute or chronic inflammation? What about psoriasis?

Answer 33

acute; chronic

Question 34

Rapid host response that delivers leukocytes and plasma proteins to site of infection

Answer 34

acute inflammation

Question 35

During acute inflammation, what happens to blood supply and flow? What happens to vascular permeability? What does this lead to? What happens to leukocytes?

Answer 35

VASODILATION increases blood supply (hyperemia), but actually decreases flow rate (stasis). Increased vascular permeability, which leads to edema. Recruitment, adhesion, transmigration of leukocytes across blood vessels.

Question 36

What is it called when leukocytes flock to the site of infection or tissue injury? What is the process called in which pathogens are engulfed, destroyed, and eliminated.

Answer 36

chemotaxis; phagocytosis

Question 37

What is the first manifestation of inflammation? What is this often preceded by? What is it caused by? What is it the result of?

Answer 37

vasodilation; preceded by vasoconstriction; caused by specific mediators released from tissue phagocytic cells; it is the result of relaxation in smooth muscle surrounding blood vessels

Question 38

What mediators cause vasodilation? Dilation results in greater blood volume but slower flow. What is this called? What does dilation cause tissue to show?

Answer 38

histamine and NO; stasis; vascular congestion

Question 39

Two ways in which vascular permeability can be increased.

Answer 39

Retraction of endothelial cells, induced by histamine or NO - rapid or short lived.
Endothelial injury, ex: burns - may be long-lived.
Leukocyte mediated vascular injury - associated with late stage of inflammation.

Question 40

In leukocyte-mediated vascular injury, what cells adhere to the endothelium and injure the endothelial cells, amplifying the reaction?

Answer 40

neutrophils

Question 41

A fluid with low protein content, with little or no cellular material. Essentially an ultrafiltrate of the blood plasma, as the result of osmotic or hydrostatic imbalance across the vessel wall WITHOUT an increase in vascular permeability.

Answer 41

transudate

Question 42

An extravascular fluid with high protein concentration that contains cellular debris and cells. Its presence implies increased permeability of small blood vessels in injured area and an INFLAMMATORY response.

Answer 42

exudate

Question 43

Lymphatic vessels may also become secondarily inflamed. What is this process called? What is it called when draining lymph nodes become inflamed?

Answer 43

lymphangitis; lymphadenitis

Question 44

What causes lymph nodes to become enlarged?

Answer 44

hyperplasia of lymphoid follicles

increased lymphocytes and macrophages

Question 45

What do macrophages produce to mediate leukocyte recruitment to the site of injury?

Answer 45

chemokines, like CXCL8

Question 46

What is the movement of leukocytes from the vessel lumen to the interstitial tissue called?

Answer 46

extravasation

Question 47

The extravasation process involves margination, rolling, and then adhesion to endothelium
In inflammation the endothelium is activated and can bind leukocytes via (blank) interactions
Migration across the endothelium and vessel wall is called (blank).
Migration in the tissues toward the inflammatory stimulus (blank)

Answer 47

adhesion molecule; diapedesis; chemotaxis

Question 48

What enhances the expression of adhesion molecules?

Answer 48

secreted proteins called cytokines (TNF-alpha)

Question 49

What are these:
selectins
vascular addressins
integrins
immunoglobulin superfamily proteins

Answer 49

groups of adhesion molecules

Question 50

Explain leukocyte adhesion to the endothelium.

Answer 50

Rolling adhesion of leukocyte via E-selectin –> tight binding via LFA-1 and ICAM-1 –> diapedesis –> migration

Question 51

In what vessels does diapedesis of leukocytes primarily occur?

Answer 51

post-capillary venules

Question 52

What stimulates leukocytes to migrate through interendothelial spaces?

Answer 52

chemokines (ex: CXCL8)

Question 53

How do leukocytes enter the extravascular tissue?

Answer 53

collagenases break down the basement membrane

Question 54

Once in the extravascular tissue, what do leukocytes do?

Answer 54

They migrate up the chemokine gradient via chemotaxis and accumulate at site of injury.

Question 55

Both endogenous and exogenous substances can act as chemoattractants. List some endogenous chemoattractants. List some exogenous agents.

Answer 55

chemokines (CXCL8)
complement system
leukotrienes;
bacterial products (peptides with N-formylmethionine terminal amino acid)

Question 56

Once leukocytes have reaches the site of inflammation, what is the process by which they remove the offending agents?

Answer 56

phagocytosis

Question 57

List the three steps of phagocytosis.

Answer 57

1. recognition and attachment of the particle to be ingested by the leukocyte
2. enfulfment of the particle and formation of a phagosome
3. fusion of the phagosome with lysosomes to form phagolysosomes

Question 58

What assembles at the phagolysosome membrane to generate a hostile microenvironment that kills off the ingested materials

Answer 58

NADPH oxidase

Question 59

In regards to histopathology, what would you notice during an acute inflammatory response?

Answer 59

LARGE NUMBER OF LEUKOCYTES

Question 60

Acute inflammation can have 1 of 3 outcomes. List them.

Answer 60

1. resolution (acute inflammation is enough to return to normal function)
2. healing by fibrosis (significant tissue injury & loss of some function)
3. progression to chronic inflammation (continued tissue injury)

Question 61

Acute inflammation can become chronic. However, does acute inflammation always precede chronic inflammation?

Answer 61

NO

Question 62

Acute inflammation causes (blank) infiltration, while chronic inflammation involves (blank) infiltration.

Answer 62

neutrophilic; monocytic

Question 63

In which process, acute or chronic, is tissue destruction common, followed by angiogenesis (new blood vessel proliferation) and fibrosis?

Answer 63

chronic inflammation

Question 64

Do the stimuli of chronic inflammatory responses differ from stimuli of acute responses? What are the typical stimuli of chronic inflammation?

Answer 64

yes; pathogens like mycobacteria, certain viruses, fungi, parasites

Question 65

Stimuli of chronic inflammation often evoke what type of response? What is a clinical example of this?

Answer 65

delayed-type hypersensitivity; TB skin test

Question 66

(blank) are important causes of chronic inflammation - inappropriately triggered against harmless antigens

Answer 66

immune-related diseases

ex: autoimmune diseases, allergic diseases

Question 67

How do monocytes emigrate into extravascular tissues? What happens when monocytes reach the tissues?

Answer 67

blood monocytes emigrate in a similar manner to neutrophils (adhesion molecules/chemotactic factors); monocytes undergo transformation into a larger tissue macrophage

Question 68

Macrophages are often the predominant cell type by hour (blank)
Macrophages may be activated by a variety of stimuli, including microbial products and cytokines (e.g., IFN-g) secreted by sensitized T lymphocytes and other cells

Answer 68

48;

Question 69

These are responsible for much of the tissue injury in chronic inflammation, but can also be stimulated to effect tissue repair

Answer 69

macrophages

Question 70

In contrast to acute inflammation with NEUTROPHILIC infiltrate, what does chronic infection with TB result in? What other cells are present?

Answer 70

mononuclear infiltrate; multi-nucleated giant cells and epitheloid cells

Question 71

What produces active mediators of inflammation? What is the stimuli?

Answer 71

cells and plasma proteins produce the active mediators of inflammation; the stimuli include microbial products and substances released from necrotic cells

Question 72

Why is it important that it requires microbes or dead tissue to initiate/stimulate inflammation?

Answer 72

this ensures that inflammation is only triggered when and where it is neded

Question 73

T/F: Once activated and released, most inflammatory mediators are short-lived, providing a system of checks and balances that regulates mediator actions.

Answer 73

true

Question 74

What are two ways in which mediators are derived?

Answer 74

1. sequestered in intracellular granules and can be rapidly secreted by granule exocytosis
2. synthesized de novo and secreted in response to a stimulus

Question 75

List the major cell types that produce mediators of acute inflammation

Answer 75

platelets 
neutrophils
monocytes
macrophages
mast cells

Question 76

(blank) and most epithelia can also be induced to elaborate some of the mediators. Some are derived from (blank) that are components of complex pathways

Answer 76

mesenchymal cells; plasma proteins

Question 77

A system of over 30 preformed proteins that can recognize particular pathogens

Answer 77

complement system

Question 78

3 systems that work in conjunction with the complement cascade to induce a reaction

Answer 78

coagulation, fibrinolytic, and kinin systems

Question 79

Two vasoactive amines. Where are they stored as preformed molecules? When are they released?

Answer 79

histamine and serotonin; both stored in cellular granules; among the first mediators to be released during inflammation (within minutes)

Question 80

(blank) is abundant in mast cells found in CT adjacent to blood vessels. It is also found in blood basophils and platelets.

Answer 80

histamine

Question 81

How is histamine released? What is it released in response to?

Answer 81

mast cell degranulation; in response to stimuli like physical injury, antibodies bound to mast cells, complement, anaphylatoxins, and cytokines

Question 82

Considered to be the principle mediator of the immediate transient phase of increased vascular permeability

Answer 82

histamine

Question 83

What’s this: mechanical/chemical/physical stimuli release arachidonic acid from membrane phospholipids thru the action of cellular phospholipases.

Answer 83

arachidonic acid pathway

Question 84

Eicosinoids are synthesized by two major classes of enzymes. What are they?

Answer 84

cyclooxygenases (which produce prostaglandins and thromboxanes) and lipooxygenases (which produce leukotrienes and lipoxins)

Question 85

(blank) bind to GPCRs on many cell types and can mediate virtually every step of inflammation.

Answer 85

eicosanoids

Question 86

Induces vasodilation and increased vascular permeability at extremely low concentrations with a potency 100 to 10,000 times greater than that of histamine

Increases leukocyte adhesion to endothelium, chemotaxis, degranulation, and the oxidative burst, and boosts the synthesis of other mediators, particularly eicosanoids

Can elicit most of the vascular and cellular reactions of inflammation

Answer 86

platelet activating factor

Question 87

Phospholipid-derived mediator initially shown to induce platelet aggregation, but now known to have multiple inflammatory effects
Produced by a variety of cells including platelets themselves, basophils, mast cells, neutrophils, macrophages, and endothelial cells

Answer 87

platelet activating factor

Question 88

Oxygen-derived free radicals such as superoxide anion (O2-), hydrogen peroxide (H2O2), and hydroxyl radical (•OH) released extracellularly from leukocytes after exposure to microbes, chemokines, and immune complexes, or following a phagocytic challenge

Answer 88

reactive oxygen species (ROS)

Question 89

Their production is dependent on the activation of the multi-component NADPH oxidase system
Extracellular release of low levels of these potent mediators can increase the expression of other inflammatory mediators

Answer 89

ROS

Question 90

T/F: Although the physiologic function of ROS in leukocytes is to destroy phagocytized microbes, release of these potent mediators can be damaging to the host

Answer 90

True

Question 91

Soluble gas produced by endothelial cells, macrophages, and some neurons in the brain.
Half-life is only seconds, acts on nearby cells.
Is a mediator of host defense against infection.

Answer 91

NO

Question 92

NO has dual actions in inflammation. It promotes (blank), but also reduces (blank) aggregation and adhesion, so it inhibits several features of mast cell-induced inflammation and inhibits leukocyte recruitment.

Answer 92

vasodilation; platelet

Question 93

Three major cytokines that mediate inflammation. Produced mainly by activated macrophages.

Answer 93

TNF-alpha
interleukin 1
interleukin 6

Question 94

The most important local effects of proinflammatory cytokines are on endothelium, leukocytes, and fibroblasts. They also trigger systemic (blank)

Answer 94

acute-phase reactions

Question 95

Cytokines mediate (blank), which includes: expression of endothelial adhesion molecules; synthesis of chemical mediators (including other cytokines, chemokines, growth factors, eicosanoids, and NO); production of enzymes associated with matrix remodeling; and increases in the surface thrombogenicity of the endothelium (platelet aggregation)

Answer 95

endothelial activation

Question 96

TNF, produced by activation of macrophages, has local effects on what three things? It also produces systemic effects of inflammation. List a few.

Answer 96

1. vascular endothelium
2. leukocytes
3. fibroblasts
   systemic: fever, leukocytosis, decreased appetite, increased sleep