Inflammation and The Acute Phase Response

Question 1

Inflammation can be induced by many types of injuries, including:

Answer 1

infections, allergies, tumors, necrosis, bone fractures, cuts, burns, ischemia

Question 2

What are the five classic local signs of inflammation? hint: PRISH

Answer 2

pain, redness, immobility, swelling, heat

Question 3

What are the systemic signs of inflammation?

Answer 3

fever, the release of pro-inflammatory cytokines from leukocytes, the release of acute phase proteins from the liver

Question 4

True or false? Acute inflammation most often leads to complete elimination of a pathogen followed by resolution of the damage, disappearance of leukocytes from the tissue, and full regeneration of tissue function in a short period of time.

Answer 4

true

Question 5

What are the three principal tissue changes seen during acute inflammation?

Answer 5

increased blood supply, increased capillary permeability to serum proteins, and increased leukocyte migration into the tissue

Question 6

Within the first ____-____ min of acute inflammation, the major leukocytes entering the area are neutrophils, which may eliminate the intruder almost immediately and halt any further response

Answer 6

30-60

Question 7

If the cause of inflammation persists beyond the influx of neutrophils, then ____ and ____ enter the area within 4-6 hours

Answer 7

macrophages; lymphocytes

Question 8

The macrophages destroy the intruders by phagocytosis and process and present antigens to T cells. The T cells induce what?

Answer 8

B cells to make antibodies specific for the intruder

Question 9

How long does it take for antibodies secreted by B cells to be detectable in the serum?

Answer 9

5-7 days

Question 10

Chronic inflammation results when the body tries to contain an infection or other insult that it cannot completely eliminate. What are some of the immune cells that help with chronic inflammation?

Answer 10

granulomas with macrophages, epithelia giant cells, and lymphocytes

Question 11

Bacteria produce ____ molecules that will attract local macrophages. The macrophage will physically bind to the surface of the bacterium through many types of ____-____ interactions

Answer 11

cemotactic; receptor-ligand

Question 12

The receptor-ligand interactions that occur between macrophages and microbial pathogens are called PRR-PAMP interactions. PRRs are pattern recognition receptors on leukocytes. PAMPS are pathogen associated molecular patterns, which are molecules shared by groups of related microbes essential for microbe survival. What are some important PAMPS?

Answer 12

formylated amino acids, inlcuding fMet-Leu-Phe, produced by bacteria (chemotactic for macrophages and neutrophils)

LPS, endotoxin from the outer cell membrane of Gram-negative cells

Lipoteichoic acids from Gram-positive bacterial cell wall

The sugar mannose made by many bacteria and fungi

Microbial nucleic acids including dsRNA

bacterial flaggelin

gluons from fungal cell walls

Question 13

The PRRs that recognize these PAMPS include Toll-like Receptors (TLRs). TLR-4 binds to what? TLR-2 binds to what?

Answer 13

TLR-4: LPS in Gram-negative bacteria

TLR-2: lipoteichoic acid in Gram-positive bacteria

Question 14

Both TLR-2 and TLR-4 use CD14 as a ____, and the MyD88 adaptor protein to mediate ____ ____

Answer 14

co-receptor; signal transduction

Question 15

Additional PRRs include carbohydrate receptors for ___ and ___

Answer 15

mannose and glucan

Question 16

NOD-like receptors, located in the leukocyte cytosol recognize the ____ ____ and toxins produced by intracellular bacteria, ____ produced by intracellular pathogens

Answer 16

structural components (peptidoglycan); RNA

Question 17

Some NLRs can assemble into a multi-protein complex called the inflammasome, which in turn activates the enzyme _____

Answer 17

caspase-1

Question 18

What does capsize-1 activate?

Answer 18

IL-1beta, a major contributor to inflammation, stimulating fever and movement of leukocytes out of the blood vessels and into the tissues

Question 19

PRR-PAMP interactions stimulate the macrophage to perform two major functions simultaneously. These functions are?

Answer 19

1. phagocytosis of the pathogen

2. synthesis of pro-inflammatory cytokines, especially IL-1, IL-6 and TNF alpha

Question 20

What do the pro-inflammatory cytokines (IL-1, IL-6, and TNF alpha) induce?

Answer 20

septic shock, fever, acute phase protein release from liver, ROS production by phagocytes, migration of leukocytes out of blood and into tissue

Question 21

Which pro-inflammatory cytokine is the most potent in inducing septic shock?

Answer 21

TNF alpha

Question 22

Shaking chills, hyperthermia, hypothermia, weakness, tachypnea, tachycardia, and a drop in bp are all signs/symptoms of what?

Answer 22

septic shock

Question 23

Which pro-inflammatory cytokine is the most potent in inducing fever?

Answer 23

IL-1

Question 24

Pyrogens act on the ____ center within the ____, resulting in sympathetic nerve stimulation, vasoconstriction of skin vessels, and decreased heat dissipation.

Answer 24

vasomotor; hypothalamus

Question 25

LPS and lipoteichoic acid, both of which induce IL-1 are potent ____ ____

Answer 25

exogenous pyrogens

Question 26

Which pro-inflammatory cytokine is the most potent in inducing acute phase protein release from the liver?

Answer 26

IL-6

Question 27

Acute phase proteins (APPs) aid as host defense by acting as ____, and participate in tissue repair. ____ APPs increase in serum concentration, while ____ APPs decrease in serum concentration during inflammatory events

Answer 27

opsonins; positive; negative

Question 28

bacterial cell lysis, opsonization of bacteria for phagocytosis, chemotactic for neutrophils, and induction of mast cell degranulation are all caused by what system?

Answer 28

complement

Question 29

In regards to complement, ___-____ protein binds to strep pneumoniae and other microbes, opsonizes bacteria for phagocytosis, induces the classical complement pathway, and is a clinically useful marker for inflammation/infection

Answer 29

c-reactive

Question 30

Involved in tissue repair, remodels extracellular matrix, prevents oxidative tissue damage by neutrophils, and inhibits platelet activation

Answer 30

Serum amyloid A

Question 31

This is the inactive precursor of the serine protease plasmin and functions to dissolve clots

Answer 31

plasminogen

Question 32

This is the precursor of the serine protease thrombin

Answer 32

prothrombin

Question 33

What does thrombin do?

Answer 33

converts soluble fibrinogen into insoluble fibrin strands

Question 34

Fibrin strands are cross-linked by factor ___ form a ___ ___

Answer 34

XIII; blood clot

Question 35

This is a serum protease inhibitor of serpin family. It protects tissues from enzymes of inflammatory cells (breaks down neutrophil elastase)

Answer 35

Alpa-1-antitrypsin

Question 36

Alpha-1-antitrypsin deficiency leads to what?

Answer 36

COPD when lung elastin is broken down unabated

Question 37

Migration of leukocytes out of bloodstream and into the tissues is called _____

Answer 37

extravasation (or diapedesis)

Question 38

Extravasation is controlled by expression of complementary adhesion molecules on the ___ and _____ _____ cells

Answer 38

leukocytes; vascular endothelial

Question 39

Adhesion molecule expression is up-regulated primarily by what two cytokines

Answer 39

IL-1 and TNF alpha

Question 40

What is margination?

Answer 40

when leukocytes move to the endothelial lining of small blood vessels

Question 41

In regards to margination, IL-1 and TNF alpha up-regulate expression of the adhesion molecules ___-____ and ___

Answer 41

E-selectin; ICAM-1

Question 42

The leukocytes become tethered to the endothelial cells when ___ ____ ___ on the neutrophil binds to _-___ on the endothelial cell. The cells then roll along the endothelial surface

Answer 42

sialyl Lewis X; E-selectin

Question 43

The chemokine ___ up-regulates expression of the adhesion molecule LFA-1 on the neutrophil surface. Rolling ceases when LFA-1 binds tightly to ____ on the endothelial cell. The neutrophil crawls to a junction between two endothelial cells

Answer 43

IL-8; ICAM-1

Question 44

Transendothelial migration is penetration of the what?

Answer 44

basement membrane

Question 45

In regards to chemotaxis, leukocytes migrate toward the site of infection by following the concentration gradient of what chemotactic molecules

Answer 45

f-met-leu-phe, IL-8, complement component C5a, or other chemotactic molecules

Question 46

Once a neutrophil arrives at the site of infection, it will recognize the pathogen using many of the same PRR-PAMP interactions used by macrophages. The pathogen will be ____ and killed by degradative enzymes in the ____, or by the respiratory burst

Answer 46

phagocytosed, phagolysosome

Question 47

Additional cellular changes that occur in blood vessels during inflammation include: adhesion of platelets to collagen exposed on damaged endothelium. This leads to ___ deposition and eventually a blood clot forms

Answer 47

fibrin

Question 48

Additional cellular changes that occur in blood vessels during inflammation include: roleaux formation of red blood cells due to fibrinogen deposition on their surfaces. This increases the ____ _____ rate

Answer 48

erythrocyte sedimentation

Question 49

In persons with leukocyte adhesion deficiency (LAD), certain adhesion molecules are missing, leading to an inability of leukocytes to extravasate from the vasculature and into the tissues. This results in what?

Answer 49

leukocytosis, inability to form pus, and impaired wound healing

Question 50

Patients with LAD present with what?

Answer 50

soft tissue bacterial infections, especially of the mouth and GI tract

Question 51

In LAD1, there is a deficiency in the CD __ molecule comprising part of LFA-1. In LAD2, defective fucose metabolism prevents expression of ___-___ __

Answer 51

18; sialyl-Lewis X

Question 52

In addition to enzymatic degradation by lysosomal enzymes, microbes can be killed through the _____ ___ of the phagocyte

Answer 52

respiratory burst

Question 53

The respiratory burst is stimulated by many cytokines, including?

Answer 53

TNF alpha, IFN gamma, and GM-CSF

Question 54

The enzyme ___ oxidase initiates the respiratory burst. Ig generates superoxide anions from oxygen.

Answer 54

NADPH

Question 55

In regards to the respiratory burst, superoxide dismutase (SOD) catalyzes the formation of ____ ____

Answer 55

hydrogen peroxide

Question 56

In regards to the respiratory burst, _______ generates hypochlorite from hydrogen peroxide

Answer 56

myeloxperoxidase

Question 57

In regards to the respiratory burst, ____ splits hydrogen peroxide to water and oxygen, which protects the host cell from the damaging effects of hydrogen peroxide

Answer 57

catalase

Question 58

Deficiency of NADPH oxidase enzyme leads to the immunodeficiency disease ____ ____ disease

Answer 58

chronic granulomatous (CGD)

Question 59

CGD is marked by repeated infections by catalase-producing bacteria and fungi, especially ___ ___ and ____

Answer 59

staph aureus; aspergillus

Question 60

CGD is marked by ____ that form due to intracellular survival of certain microorganisms

Answer 60

granulomas

Question 61

CGD is marked by pneumonia, lymphadenitis, and accesses in the ____, ___, and ____ organs

Answer 61

skin, liver, visceral

Question 62

The short-lived respiratory burst is followed by sustained production of ___ ____ by the enzyme iNOS. NO and its metabolites are especially important in killing certain ____ bacteria such as listeria monocytogenes

Answer 62

nitric oxide (NO); intracellular

Question 63

Complement is a series of serum proteins that work in a cascade to mediate what?

Answer 63

bacterial lysis, opsonization, and leukocyte chemotaxis, activation, and degranulation

Question 64

The classical pathway is induced by what?

Answer 64

CRP, IgG, or IgM bound to the surface of target cell

Question 65

The alternative pathway is induced when?

Answer 65

C3b binds to endotoxin/LPS on gram-negative bacteria or zymosan on yeast

Question 66

The lectin pathway is induced by ___ residues on bacteria and other microbes

Answer 66

mannose

Question 67

Although each pathway is initiated differently, all three pathways end with the formation of what?

Answer 67

membrane attack complex (MAC)

Question 68

The MAC can directly lyse Gram-____ bacteria. Gram-____ bacteria have cell walls that are too thick to be lysed by complement but can still be opsonized for phagocytosis

Answer 68

negative; positve

Question 69

For each of the split products of the complement cascade, give its activity:

C3b > C4b
C5a >> C3a > C4a
C5a
C3a
C5b6789n

Answer 69

C3b > C4b: opsonization

C5a&raquo_space; C3a > C4a: anaphylatoxins

C5a: activator and chemotaxis for all myeloid cells, induces PMN degranulation, induces IL-1 and IL-6 production in monocytes

C3a: chemotactic for eosinophils

C5b6789n: MAC

Question 70

C3b > C4b is recognized by which complement receptors?

Answer 70

CR1, CR2, CR3, and CR4 on macrophages

Question 71

C5a&raquo_space; C3a > C4a cuase degranulation of mast cells, basophils and eosinophils. ____ release by mast cells and basophils induces smooth muscle contraction and increases capillary permeability leading to local edema

Answer 71

histamine

Question 72

What is the most potent anaphylatoxin

Answer 72

C5a

Question 73

The classical pathway is initiated when globular domains of ___ bind to the Fc fragment of IgG, IgM, or CRP coating the microbial surface.

Answer 73

C1q

Question 74

In regards to the classical pathway, two C1r molecules bind to C1q and become enzymatically active. The C1r molecules then activate two molecules of ___, which act as a serine protease to cleave C4 into C4a and C4b

Answer 74

C1s

Question 75

In regards to the classical pathway, C4b binds to the ____ surface, while C4a is released into the serum or tissue to act as a weak _____

Answer 75

microbial; anaphylatoxin

Question 76

In regards to the classical pathway, C1s next cleaves C2 into C2a and C2b. C2a binds to C4b, creating the classical pathway ___ convertase (C4b2a) on the microbial surface

Answer 76

C3

Question 77

In regards to the classical pathway, the C3 convertase initiates an amplification loop, in which it cleaves hundreds of molecules of C3 into C3a and C3b. C3a is released into the tissue space to act as an ____. C3b binds independently to the microbial surface to initiate the ____ pathway or act as a ____

Answer 77

anaphylatoxin; alternative; opsonin

Question 78

In regards to the classical pathway, some C3b molecules bind back to the C3 convertase to generate the classical pathway C5 convertase (C4b2a3b). The C5 convertase cleaves C5 into C5a and C5b. C5a is released into tissue to act as a _____, while C5b binds to the microbial surface to initiate the ___ pathway

Answer 78

anaphylatoxin; lytic

Question 79

In regards to the classical pathway, the lytic pathway proceeds with C6, C7, and C8 binding to C5b. Multiple molecules of C9 then polymerize in the microbial ___ ____, effectively creating a pore that causes osmotic disruption of the bacterial cell

Answer 79

cell membrane

Question 80

The lectin pathway is similar to the classical pathway except that it is initiated when mannan-binding lectin (MBL, an acute phase protein in the serum) binds to terminal mannose residues on the microorganism. Once MBL is bound, two mannose-associated serine proteases (MASP 1 and 2) join MBL. The MASP proteins cleave ___ into ___ and ____, and from that point onward, the lectin pathway is identical to the classical

Answer 80

C4; C4a; C4b

Question 81

The alternative pathway is triggered when C3b binds to endotoxin/LPS on the Gram-negative bacterial cell membrane. The C3b molecule can be generated from the classical or lectin pathway, or by spontaneous hydrolysis of C3 in the serum or tissue fluids. Surface-bound C3b binds to Factor __ to yield C3bB, which becomes a substrate for Factor ___

Answer 81

B; D

Question 82

In regards to the alternative pathway, Factor D is a serine esterase that please the Ba fragment, leaving _____ bound to the surface of the target cell.

Answer 82

C3bBb

Question 83

In regards to the alternative pathway, C3bBb is stabilized by ____

Answer 83

properdin (P)

note: forms the complex C3bBb(P) which acts as the alternative pathway C3 convertase

Question 84

C1 esterase inhibitor (C1INH) deficiency leads to hereditary ____

Answer 84

angioedema

note: C1INH disrupts the C1qrs complex, the MASP complex, and C3bBb

Question 85

Decay-accelerating factor (DAF) is a GPI-anchored protein; a deficiency in DAF leads to what?

Answer 85

paroxysmal nocturnal hemoglobinuria (PNH) with red cell lysis

note: DAF binds to C4b, disrupts C4b2a

Question 86

Factor H protects human cells from what?

Answer 86

Factor B

Question 87

Factor I inactivates ___ and ___

Answer 87

C4b; C3b

Question 88

Membrane protein CD59 interferes with the MAC. Its deficiency leads to what?

Answer 88

PNH

Question 89

C3 deficiency results in profound susceptibility to infections by ___ ___

Answer 89

encapsulated bacteria

ex: strep pneumoniae, H flu, and neisseria

Question 90

Deficiences in MAC (C5-C9) components increase susceptibility to ___

Answer 90

Neisseria

Question 91

Deficeincy in MBL increases susceptibility to many infections (viruses, bacteria, fungi, protozoa). The deficiency is especially problematic in which individuals?

Answer 91

infants after passively acquired maternal antibody has dissipated, and in cystic fibrosis patients

Question 92

Common symptoms of PNH include?

Answer 92

weakness, dyspnea, pallor, splenomegaly, iron deficiency, thromocytopenia leading to bleeding disorders, acute or chronic renal failure, sever headaches, eye pain, and chronic infections