Leukocyte Structure and Function

Question 1

What does leukocyte activation require?

Answer 1

A change in morphology and behavior from extracellular signal

Question 2

cell surface markers expressed on surface of all blood cells (leukocytes)

Answer 2

<p>CD antigens (cluster of differentiation)</p>

Question 3

Primary cells of innate immunity

Answer 3

Myeloid cells

Question 4

There are about 5,000-10,000 total leukocytes (cells/ul) circulating. Which type make up the most? Which make up the least?

Answer 4

Neutrophils- 55-70%

Basophiles-0.5-1%

Question 5

This type of leukocyte has a really round nucleus, almost same size as cytoplasm

Answer 5

Lymphocyte

Question 6

This cell has a segmented nucleus, but it stains dark in H/S stain you probably can’t see it

Answer 6

basophil

Question 7

What is the activated function of neutrophil?

Answer 7

Phagocytosis and activation of bactericidal mechanisms

Question 8

Are neutrophils short lived or long lived?

Answer 8

Short lived; circulate for a few hours, undergo apoptosis/necrosis

Question 9

How many rounds of phagocytosis do neutrophils undergo before cell death?

Answer 9

ONE. A single one.

Question 10

What clears out dead neutrophils?

Answer 10

Tissue macrophages

Question 11

What is the chief cell of acute inflammation?

Answer 11

Neutrophils

Question 12

These molecules are associated with groups of pathogens, recognized by cells of innate immune system

Answer 12

PAMPs “pathogen associated molecular patterns”

DAMPs “danger associated”

Question 13

All neutrophils express this integral membrane protein on their surface to recognize pathogens

Answer 13

Mannose receptor

Question 14

This term describes the rapid release of reactive oxygen species and NADPH-oxidase subunites to destroy internalized bacteria

Answer 14

Respiratory or oxidative burst

Question 15

This is a small vesicle that contains the bacterium inside

Answer 15

phagosome

Question 16

What is a lysosome fuzed with phagosome called?

Answer 16

Phagolysosome

Question 17

What do tertiary neutrophil granules contain?

Answer 17

Gelitinase (MMP-9)

Question 18

What are the characteristics and role of primary / azurophilic neutrophil granules?

Answer 18

Dark staining, antimicrobial proteins, fuse with endosomes and empty contents. Kill ingested bacteria

Question 19

What are the characteristics and role of secondary/specific/definitive neutrophil granules?

Answer 19

Pale, fuse with endosome, trigger respiratory burst. Release contents extracellulary

Question 20

What are 3 important consequences of the Respiratory Burst?

Answer 20

1. Increase oxygen consumption
2. production of superoxide O2-
3. Production of hydrogen peroxide (H2O2) and other bactericidal reactive oxygen species (ROS)

Question 21

What is the primary azurophilic neutrophil granule?

What is another important one?

Answer 21

Myeloperoxide (MO)
Sulfated Proteoglycan (Sulfated PG)

Question 22

NADPH oxidase, sometimes called “phagocytic oxidase,” is in the walls of which neutrophil granule?

Answer 22

Secondary granules

Question 23

How many subunits does NADPH oxidase have? How amny are in cytoplasm? Which ones?

Answer 23

5 subunits, 3 in cytoplasm: p40phox, p45, p67

Question 24

What is the membrane bound component of the NADPH oxidase?

Answer 24

flavocytochrome b (consists of 2 subunits: gp22phox, gp91 phox)

Question 25

Once activated, NADPH oxidase converts oxygen molecules to what?

Answer 25

Superoxide, O2-

Question 26

What enzyme converts superoxide to hydrogen peroxide?

Answer 26

Superoxide dismutase

Question 27

What enzyme breaks down hydrogen peroxide to hypochloric acid? (HOCL-)

Answer 27

Myeloperoxidase (MPO)-

Question 28

This enzyme breaks down hydrogen peroxide to benign components such as water and oxygen

Answer 28

Catalase

Question 29

Mutations in NADPH oxidase underlie what disease?

Answer 29

Chronic Granulomatous Disease (can be autosomal recessive or X-linked if mutation of gp91)

Question 30

How do neutrophils aid in infection control and wound healing?

Answer 30

Release mediators to destroy damaged tissue; disassemble matrix proteins to allow neutrophil-microbe interaction; prevent microbe escape

Question 31

How do matrix metalloproteinases (MMPs) contribute to tissue destruction from chronic inflammation?

Answer 31

Inflammation causes cytokines to attract more leukocytes, MMPS digest ECM&raquo_space; tissue destruction

Question 32

Both of these cells release histamine and have surface receptors for antibody

Answer 32

Mast cells and basophils

Question 33

Basophil or Mast cell? Recruited to tissue

Answer 33

Basophils

Question 34

Basophil or Mast cell? Source of tissue histamine

Answer 34

Mast cell

Question 35

Basophil or Mast cell? Complete maturation in tissues

Answer 35

Mast cell

Question 36

Basophil or Mast cell? Resident in tissues

Answer 36

Mast cell

Question 37

Source of blood histamine

Answer 37

Basophil

Question 38

Basophil or Mast cell? Circulate as mature cells

Answer 38

Basophil

Question 39

Monocyte Inflammatory phase (3)

Answer 39

inflammatory trafficking, phagocytosis, proteolysis

Question 40

Monocyte Reparative phase (2)

Answer 40

Patrol for signs of damage, wound clean up and repair

Question 41

CD14

Answer 41

inflammatory phase monocyte

Question 42

CD16

Answer 42

reparative phase monocyte

Question 43

Once in damaged tissue, monocytes polarize two these two primary types

Answer 43

Macrophages (M1 and M2)

Question 44

4 major functions of Macrophages

Answer 44

Scavengers, Secretory cells, Regulate, Antigen-presenting cells

(R ASS)

Question 45

Inflammatory monocytes become what type of macrophage?

Answer 45

M1

Question 46

Reparative monocytes become what type of macrophage?

Answer 46

M2

Question 47

M1 or M2? Remove dead cells

Answer 47

M1

Question 48

M1 or M2? Suppress inflammation

Answer 48

M2

Question 49

M1 or M2? Pro-inflammatory cytokines

Answer 49

M1

Question 50

M1 or M2? Stimulate inflammation

Answer 50

M1

Question 51

M1 or M2? Anti-inflammatory cytokines

Answer 51

M2

Question 52

M1 or M2? Promote angiogenesis

Answer 52

M2

Question 53

Monocyte/Macrophage or Neutrophil?

Long lived-weeks/months

Answer 53

M/M

Question 54

Monocyte/Macrophage or Neutrophil?

Short lived-hours

Answer 54

Neutrophil

Question 55

Monocyte/Macrophage or Neutrophil?

Self-replicating and adaptable

Answer 55

M/M

Question 56

Monocyte/Macrophage or Neutrophil?

End stage cells with a single function

Answer 56

Neutrophil

Question 57

Monocyte/Macrophage or Neutrophil?

Accumulate slowly, persist longer

Answer 57

M/M

Question 58

Monocyte/Macrophage or Neutrophil?

Accumulate quickly, short lived

Answer 58

Neutrophil

Question 59

Monocyte/Macrophage or Neutrophil?

Modest metabolic burst

Answer 59

M/M

Question 60

Monocyte/Macrophage or Neutrophil?

Stronger metabolic burst

Answer 60

Neutrohil

Question 61

Reticulo-endothelial system

Answer 61

Resident macrophages

Question 62

Site of fluid exchange and inflammatory trafficking (leukocyte migration)

Answer 62

Capillary beds of veins

Question 63

What causes leukocytes to stick and roll along vessel walls?

Answer 63

Selectins expressed by endothelial cells

Question 64

What are the four adhesion molecule CAM families? Which bind with which?

Answer 64

SelectinsMucin-like CAMs

Integrins Ig-superfamily CAMs

Question 65

Soluble cytokines

Answer 65

Chemokines

Question 66

Inflammation is controlled by what interaction?

Answer 66

Cell surface adhesion molecules (CAMs) and chemokines and their receptors on endothelial cells and leukocytes regulate migration in and out of tissue

Question 67

Proteins are classified as chemokines due to shared small shape. What is important in forming their 3-D shape?

Answer 67

Presence of 4 cysteine residues

Question 68

Inflammation exacerbates disease. List 8 (A CAN PACT)

Answer 68

Alzheimers, Cancer, Arthritis, Neurological diseases, Pulmonary diseases, Autoimmune diseases, cardiovascular diseases, Type II diabetes

Question 69

These G-protein coupled receptor’s main function is to attract leukocytes and activate adhesion

Answer 69

Chemokine

Question 70

a tetrasaccharide carbohydrate that is attached to O-glycans on the surface of endothelial cells or ECM molecules, involved in capture/tethering and rolling part of trafficking

Answer 70

Sialyl Lewis X (s-Lex)

Question 71

This protein functions as a CAM on the surfaces of activated endothelial cells (or ECM), and expressed very early in rolling stage

Answer 71

P selectin (along with E-selectin and s-Lex)

Question 72

True or false: in the multi step model for leukocyte trafficking, the steps are overlapping and combinatorial

Answer 72

TRUE.

Question 73

True or false: in the mutli step model for leukocyte trafficking, the components play only one role in a single step

Answer 73

FALSE. They can play more than one role in multiple steps

Question 74

What accounts for the specificity and diversity in migration in the multi-step model?

Answer 74

It is due to the differential expression and modification of the components

Question 75

What are the 7 steps of mult-step model of Leukocyte trafficking?

Answer 75

Capture, Rolling, Activation, Adhesion, Diapedesis, Traversing Basal Lamina, Migration through ECM

Question 76

What are the interactions in rolling? What is the strength and why

Answer 76

Selectins (E and P) interact with leukocyte sialyl-lewis-x, it is a weak interaction to allow rolling

Question 77

What adhesion molecules (ligands) of the endothelium will interact with leukocyte’s integrin LFA-1 during adhesion?

Answer 77

ICAM-1 and ICAM-2

Question 78

In capturing phase, what part of leukocyte binds with what part of endothelial cell?

Answer 78

L-selectin binds with s-Lex

Question 79

Strong interactions are achieved by what two types of signaling?

Answer 79

Outside-in signaling, and inside-out

Question 80

What makes up outside-in signaling?

Answer 80

Chemokines from endothelium signal through G-protein coupled receptors

Question 81

What make up inside-out signaling?

Answer 81

Integrins are activated and allow for tight interaction with ICAMs on endothelium

Question 82

Takes 90 seconds and requires disassembly/reassembly of both leukocytes and endothelial cytoskeleton

Answer 82

Diapedesis

Question 83

Describe the adhesion molecule zipper

Answer 83

Endothelial tight junctions open up like a zipper, form new junctions between leukocyte and endothelium without any leak

Question 84

During intercellular diapedesis, the “transmigratory cup” forms. What are the three important molecules involved?

Answer 84

Integrin, ICAM-1, VCAM-1

Question 85

During transcellular diapedesis, what are the three important molecules involved?

Answer 85

VE-cadherin (vascular endothelial, CD144)
ICAM-1
LFA-1 (lymphocyte function-associated antigen 1)

Question 86

In lymph nodes, what do T-cells require to be activated and go into the specific T-cell area?

Answer 86

Chemokines

Question 87

When macrophages attack the pathogen/bacteria that has entered at the site of injury/inflammation, it releases this important cytokine

Answer 87

TNFa (tumor-necrosis factor alpha) (along with IL-6, IL-1, and IL-8)

Question 88

Why is TNF-a considered a pro-inflammatory cytokine?

Answer 88

It activates receptors on the blood vessel endothelium