Innate Immunity - Hunter

Question 1

Describe colonization vs. infection:

Answer 1

Colonization is like having bacteria in your nose but not causing any problems; infection is when bacteria have broken your immune defenses and cause symptoms

Question 2

Describe infection vs. disease:

Answer 2

Infection is when bacteria have made it into your body, while disease in when your cells have been damaged AS A RESULT of the infection.

Question 3

What are opportunistic pathogens?

Answer 3

Pathogens that are on your body but only cause disease when you are immunosuppresed

Question 4

What are the intrinsic epithelial barriers to infection?

Answer 4

Mechanical, chemical, and microbiological

Question 5

Describe the mechanical intrinsic defenses of the skin?

Answer 5

epi cells joined by tight junctions

longitudinal flow of air or fluid

Question 6

Describe the chemical defenses of the skin?

Answer 6

1. fatty acids
2. B-defensins (anti-microbial peptide)
3. Lamellar bodies (seals the skin)
4. cathelicidin (anti-microbial in lysosomes)

Question 7

Describe the mechanical barriers of the gut?

Answer 7

1. epi cells joined by tight junctions

2. longitudinal flow of liquid

Question 8

Describe the chemical barriers of the gut?

Answer 8

1. low pH
2. enzymes (pepsin)
3. alpha-defensins (cryptdins)
4. RegIII (lecticidins)
5. Cathelicidin

Question 9

Describe the mechanical defenses of the lungs?

Answer 9

1. epi tight junctions

2. Movement of mucus by cilia

Question 10

Describe the chemical defenses of the lung?

Answer 10

1. Pulmonary surfactant
2. Alpha-defensins
3. cathelicidin

Question 11

Describe the mechanical defenses of the ENT cavities?

Answer 11

1. epi tight junctions
2. tears (physically wash away shit)
3. nasal cilia

Question 12

Describe the chemical defenses of the ENT cavities?

Answer 12

1. enzymes in tears and saliva (lysozyme)
2. Histatins (antimicrobial/antifungal)
3. B-defensins

Question 13

What are the three mechanisms of direct tissue damage by pathogens?

Answer 13

1. Exotoxin
2. Endotoxin
3. direct cytopathic effects

Question 14

Microbial pathogenesis involves (direct/indirect) damage of tissues

Answer 14

direct

Question 15

Immunopathology involves (direct/indirect) damage to tissues

Answer 15

indirect

Question 16

What are the three methods of tissue damage via immunopathology?

Answer 16

1. Immune complexes
2. Anti-host anitbody
3. Cell-mediated immunity

Question 17

What are the three antimicrobial ENZYMES?

Answer 17

1. Lysozyme (tears)
2. Pepsin (gut)
3. Secretory phospholipase A2

Question 18

How do defensins function?

Answer 18

Embeds itself in the bacterial membrane, dimerizes, and opens a pore

Question 19

Defensins, cathelicidins, and histatins can all function because they have what kind of charge?

Answer 19

amphipathic

Question 20

t/F: anti-microbial peptides are normally produced as pro-peptides

Answer 20

T

Question 21

What cell type initiates inflammation once pathogens breach the epithelium?

Answer 21

macrophages

Question 22

what two classes of chemicals do macrophages release to initiate the inflammation cascade?

Answer 22

chemokines and cytokines

Question 23

(blanks) like TNF-a, cause vasodilation, increased vascular permeability, and upregulate expression of adhesion molecules to epithelium

Answer 23

cytokines

Question 24

Chemokines attract what types of cells?

Answer 24

neutrophils (via CXCL8) and monocytes

Question 25

Phagocytic cells, plasma cells, and the complement system engage and eliminate pathogens (before/during) the adaptive response is generated

Answer 25

BEFORE

Question 26

Activation of what two systems during inflammation causes pain and blood clotting?

Answer 26

Kinin and coagulation

Question 27

If the innate system works, is there a need for inflammation?

Answer 27

Nope

Question 28

Macrophages recognize pathogens by (blank) encoded receptors

Answer 28

genome

Question 29

What are the first two lines of defense if bacteria overrun tissue?

Answer 29

macrophages and complement system

Question 30

T/F: neutrophils are more phagocytic than macrophages

Answer 30

true

Question 31

What is on top of the PM in gram positive bacteria?

Answer 31

PDG layer with lipteichoic anchors and surface proteins

Question 32

what is on top of the Pm in gram negative bacteria?

Answer 32

small PDG layer, then lipoprotein layer, then LPS layer

Question 33

Do we want macrophages to recognize specific pathogens or patterns?

Answer 33

patterns

Question 34

What are the four PAMPs for bacteria?

Answer 34

1. f-Met-Leu-Phe receptor
2. Mannose receptor
3. Scavenger receptor
4. LPS binding protein, TLR-4, and CD14

Question 35

what are the two PAMPs for fungi?

Answer 35

Mannose recetpros and Dectin-1-glucan receptor. (if you leave sugary stuff out you will get mold)

Question 36

What is the PAMP for viruses

Answer 36

Mannose

Question 37

What is the scavenger receptor?

Answer 37

acetylated lipoproteins

Question 38

LPS binding protein, TLR-4 and CD14 receptors are for gram (blank) bacteria

Answer 38

negative

Question 39

How many human TLR genes are there?

Answer 39

10

Question 40

TLR proteins are (blank) receptors

Answer 40

PAMP

Question 41

T/F: TLR can be on the cell surface or endosomal

Answer 41

True

Question 42

TLR activation engages transcription factor (blank) and induces production of inflammatory mediators

Answer 42

NF-Kb

Question 43

Nucleoside Oligomerization Domain (NOD)-like proteins are similar to (blank) proteins

Answer 43

TLR

Question 44

What do NODs do?

Answer 44

detect cytoplasmic bacteria and signal inflammation

Question 45

What do retinoic acid inducible Gene (RIG) like proteins do?

Answer 45

detect viral RNA in the cytoplasm and signal inflammation

Question 46

Are TLRs highly conserved?

Answer 46

yes

Question 47

What is another name for LPS?

Answer 47

endotoxin

Question 48

If pathogens invade the cytoplasm, (blanks) kick in and take over the job of TLRs

Answer 48

NODs

Question 49

Where are RIGs located?

Answer 49

in the cytoplasm

Question 50

What is the general cascade of PAMP producing danger signals?

Answer 50

1. PAMP recognition
2. TLR dimerization
3. Intracellular signaling
4. Gene expression

Question 51

What protein is recruited by dimerized TLRs?

Answer 51

IRAK4 and IRAK1

Question 52

How is NF-Kb produced?

Answer 52

IRAK4 mediated scaffolding releases TAK1 which leads to degradation of IkB and release of NF-Kb

Question 53

IRAK-1 deficiency is a rare autosomal (blank) disease

Answer 53

recessive

Question 54

How do you diagnose IRAK1 deficiency?

Answer 54

clinical suspicion and demonstation of poor response of monocytes to TLR agonists

Question 55

What happens if you have no IRAK4?

Answer 55

No immune response via no inflammatory response via no cytokine release

Question 56

A functioning inflammatory resposne is critical in host defense against (blank) bacterial infections, as evidenced in IRAK1 deficiency

Answer 56

pyogenic

Question 57

What are the two major categories of defects in neutrophil function?

Answer 57

Defects in intracellular killing and adhesion defects

Question 58

CGD, Chediak Higashi, and Type I integrin deficiency are all (blank)

Answer 58

defects in neutrophil function

Question 59

CGD and G6PD deficiency are types of (blank)

Answer 59

abnormal respiratory burst

Question 60

MPO deficiency, specific granule deficiency, and Chediak-Higashi are types of (blank)

Answer 60

granule abnormalities

Question 61

Type I integrin deficiency and type 2 E-selectin ligand deficiency are types of (blank)

Answer 61

leukocyte adhesion deficiency

Question 62

What is the most important means of defense against extracellular bacteria, fungi, and protozoan parasites?

Answer 62

Phagocytosis and intracellular killing

Question 63

What are the two methods in which particulate microbes are engulfed?

Answer 63

endocytosis and micropinocytosis

Question 64

What are the most important phagocytic cells?

Answer 64

macrophages and neutrophils

Question 65

Invagination of the cell membrane creates the (blank)

Answer 65

phagosome

Question 66

Lysosomes filled with antimicrobial substance fuse with the phagosome to form the (blank)

Answer 66

phagolysosome

Question 67

T/F: most micbrobes are killed and digested in the phagolysosome

Answer 67

True

Question 68

what type of G-protein receptor is needed to form NADPH oxidase

Answer 68

GPCR C5a receptor

Question 69

where is NADPH in the phagolysosome?

Answer 69

membrane bound

Question 70

what does NADPH oxidase make that kills bacteria? What is this process called?

Answer 70

superoxide and hydrogen peroxide; the RESPIRATORY BURST–needs lots of oxygen to synth these molecules

Question 71

pH of the lysosome is lowered to…

Answer 71

activate hydrolases and antimicrobial peptides that kill the microbes

Question 72

What allows protons to be pumped into the phagolysosome to lower the pH?

Answer 72

NADPH oxidase

Question 73

what X-linked protein can cause NADPH oxidase defects if its is not present?

Answer 73

gp91

Question 74

What are the mechanisms of phagolysosome hostility?

Answer 74

1. Acidification
2. toxic oxygen species
3. toxic nitrogen oxides
4. antimicrobial peptides
5. enzymes
6. competitors

Question 75

What are the ROS?

Answer 75

superoxide, hydrogen peroxide, singlet oxygen, hydroxyl radicla, and hyphohalite OCl-

Question 76

What are the macrophage antimicrobial peptides?

Answer 76

1. cathelicidin

2. elastase-derived peptide

Question 77

What are the neutrophil antimicrobial peptides?

Answer 77

1. a-defensins (HNP1-4)
2. b-defensins HBD4
3. cathelicidin
4. azurocidin
5. bacterial permeability inducing protein (BPI)
6. lactoferrin

Question 78

lysozyme digests the cell wall of some gram (blank) bacteria

Answer 78

positive

Question 79

What are the phagolysosome competitors and what makes them?

Answer 79

neutrophils; make lactoferrin and B12 binding protein

Question 80

CGD is caused by the failure of (blank) in the phagolysosome

Answer 80

NADPH oxidase

Question 81

What causes the x-linked variant of CGD?

Answer 81

gp91

Question 82

What are the two modes of inheritance of CGD?

Answer 82

X-linked recessive and autosomal recessive

Question 83

Pyogenic bacteria and fungi cause (blank) on the skin and various organs in CGD

Answer 83

granulomatous lesions

Question 84

Flow cytometry using (blank) reveals a defect in the respiratory burst

Answer 84

dihydrorhodamine

Question 85

What is the treatment of CGD?

Answer 85

long term antibacterial and antifungal prophylaxis

Question 86

Is there a cure for CGD?

Answer 86

Tx with IFNg or bone marrow transplant

Question 87

What is the mode of inheritance of Chediak-Higashi?

Answer 87

autosomal recessive

Question 88

What is the molecular defect in Chediak-Higashi?

Answer 88

defect in microtubule polymerization; decreases phagolysosome formation

Question 89

When does C-H present and what how does it present?

Answer 89

Early childhood with recurrent pyogenic infections (staph and strep), especially GINGIVAL INFECTIONS

Question 90

Partial albinism is a sign of (blank)

Answer 90

Chediak-Higashi

Question 91

What is abnormal with neutrophils and eosinophils in C-H?

Answer 91

large lysosomal vesicles

Question 92

What is the Tx for C-H?

Answer 92

prophylactic antibiotics and bone marrow transplant

Question 93

Pt’s with (blank) also present with pyoderma

Answer 93

C-H

Question 94

what is the golden test for diagnosis of Chediak-Higashi?

Answer 94

peripheral blood smear, looking for humungous granules in neutrophils and eosinophils

Question 95

What is the most common defect in granulocyte-mediated defenses?

Answer 95

Neutropenia

Question 96

What are the causes of acquired neutropenia?

Answer 96

drug induced (especially chemo) and autoimmune (anit-neutrophil Abs)

Question 97

What are the three hereditary causes of neutropenia?

Answer 97

1. Familial (benign, ethnic)
2. Infantile genetic agranulocytosis (severe congenital neutropenia)
3. Cyclic neutropenia

Question 98

Neutropenia leads to recurrent (blank) infections

Answer 98

pyogenic

Question 99

How do you measure neutropenia?

Answer 99

decreased absolute neutrophil count

Question 100

What is the lower limit for ANC?

Answer 100

1500-2000cells/mm3 blood

Question 101

Stapah, gram (blank) bacteria, fungi, and (blank) bacteria are common in neutropenia

Answer 101

gram negative and encapsulated

Question 102

Pyogenic bacteria and fungi can lead to life threatening neutropenic (blank)

Answer 102

sepsis

Question 103

What is a common source of infection while in the hospital in pts with neutropenia?

Answer 103

in-dwelling catheter

Question 104

How do you treat neutropenic infections?

Answer 104

Broad spectrum antibiotics followed by targeted antibiotics once the bacteria is ID’d

Question 105

Pt’s with neutropenia are treated with (blank) before subsequent rounds of chemotherapy

Answer 105

human recombinant granulocyte colony stimulating factor (hrG-CSF)

Question 106

Severe Congenital Neutropenia (aka SCN or Kostmann Disease) presents at what age?

Answer 106

in infants

Question 107

How does SCN present?

Answer 107

recurrent infections of the skin, soft tissues, lungs, deep organs, and sepsis.

Question 108

What is the ANC level in SCN?

Answer 108

below 200

Question 109

SCN is caused by impaired (blank)

Answer 109

myelopoiesis

Question 110

Dx of SCN is supported by blockage of neutrophil differentiation at the (blank or blank) stage

Answer 110

promyelocyte or myelocyte stage

Question 111

rhG-CSF is used to treat patients with (blank), but risks myelodysplasia and acute myeloid leukemia

Answer 111

SCN

Question 112

Bone marrow transplants to treat SCN are only used when?

Answer 112

in infants refractory to rhG-CSF treatment

Question 113

neutrophils are called to sites of inflammation by tissue (blanks)

Answer 113

macrophages

Question 114

What are the four types of adhesion molecules?

Answer 114

VISI

1. vascular addressin CD34
2. Integrin (LFA-1)
3. Selectin (L-selectin)
4. ICAM-1

Question 115

CD18 is a component of which adhesion molecule?

Answer 115

ICAM1

Question 116

What are the four general steps of neutrophil migration?

Answer 116

1. rolling adhesion
2. tight binding
3. diapedesis
4. migration

Question 117

Is CD18 attached to the endothelium or to the neutrophil?

Answer 117

endothelium

Question 118

What molecule is used during rolling adhesion of neutrophils?

Answer 118

E-selectin

Question 119

What adhesion molecule is used during tight binding?

Answer 119

ICAM1

Question 120

Leukocyte Adhesion Def. type I presents with?

Answer 120

recurrent bacterial infections

Question 121

Adhesion molecule defects in LAD 1 result in (blank) ((3)

Answer 121

bad neutrophil chemotaxis, phagocytosis, and neutrophilia (increased Neuts)

Question 122

Omphalitis, pneumonia, gingivitis, and peritonitis are characteristic of (blank)

Answer 122

LAD type 1

Question 123

what is the inherited molecular defect in LAD type 1

Answer 123

deficiency of the B-2 integrin subunit of CD18

Question 124

How do you diagnose LAD type 1?

Answer 124

CD18 flow cytometry

Question 125

What is LAD type 1 Tx?

Answer 125

bone marrow transplant

Question 126

High levels of CRP indicate what?

Answer 126

an inflammatory process is active

Question 127

The acute phase response is mediated by (blank)

Answer 127

acute phase proteins, duh!

Question 128

CRP is a (blank)

Answer 128

opsonin

Question 129

What binds and sequesters iron to stop bacterial growth?

Answer 129

ferritin

Question 130

Fibrinogen is a (blank) factor

Answer 130

coagulation factor

Question 131

Fibrinogen levels correlate with (blank), an inflammation indicator

Answer 131

erythrocyte sedimentation rate (ESR)

Question 132

T/F: Albumin production is normal during acute phase

Answer 132

FALSE; albumin production is LOW

Question 133

Bacteria induce macrophages to produce IL6 which acts on (blank)

Answer 133

hepatocytes

Question 134

What are the acute phase proteins?

Answer 134

1. serum amyloid protein
2. CRP
3. fibrinogen
4. Mannose binding lectin
5. SPA and SPD

Question 135

CRP binds (blank) on bacterial surfaces

Answer 135

phosphocholine

Question 136

CRP as as a (blank) activating complement when it binds to bacteria

Answer 136

opsonin

Question 137

Mannose binding lectin binds to mannose on bacterial surfaces, acting as a (blank), activating complement

Answer 137

opsonin

Question 138

Viral RNA induces interferon(blank) gene expression

Answer 138

alpha/beta

Question 139

Where does viral mRNA bind to signal for IFN expression?

Answer 139

endosomal TLR-3

MDA-5/RIG1/CARDIF in the cytosol

Question 140

What are the effects of IFNa and IFNb?

Answer 140

1. induce resistance to viral replication in all cells
2. increase expression of ligands for receptors on NK cells
3. Activate NK cells to kill virus infected cells

Question 141

in an IFNa/b primed cell, viral dsRNA activates (blank), which degrades viral/host mRNA causing apoptosis

Answer 141

RNase L

Question 142

IFNa/b increases the expression of (blank) on nucleated cells

Answer 142

MHC I

Question 143

NK cells are derived from (blank)

Answer 143

lymphoid progenitor cells

Question 144

What activates NK cells?

Answer 144

Type I IFNs and cytokines (TNF-a and IL12)

Question 145

what cytokine do NK cells produce in large quantities?

Answer 145

IFNg

Question 146

What two molecules do NK cells use to kill virus infected cells, cells with intracellular pathogens, and tumors?

Answer 146

perforins and granzymes

Question 147

Can NK cells recognize normal self MHC I?

Answer 147

yes

Question 148

T/F: NK cells will kill cells that express stress molecules

Answer 148

YES

Question 149

(blank) cell deficiencies will lead to severe/recurrent infections of herpes viruses (VZV, HSV, EBV, and CMV)

Answer 149

NK cells

Question 150

What is the name of the process by which NK cells bind and kill antibody-coated pathogens?

Answer 150

antibody dependent cell mediated cytotoxicity

Question 151

Describe the timeline of innate immunity cytokine release and cell response?

Answer 151

1. IFNa/b, TNF-a, and IL12 produced from 0-4 days
2. NK mediated killing of cells from 0-6 days
3. T-cell mediated killing of cells from 2 days onward
4. Virus titer peaks around four days and lowers as T cell response grows