Exam 2- Review

Question 1

L-Selectin

Answer 1

present on most circulating leukocytes
a. mucin-like CAMS

Question 2

P-Selectin

Answer 2

inserted on endothelial during inflammation
a. leukocyte adhesion; slow rolling
b. Weibel-Palade bodies
c. emergency response

Question 3

E-Selectin

Answer 3

expressed on endothelial cells during inflammation
a. leukocyte adhesion; slow rolling
b. Slow; long term

Question 4

Slow Roll

Answer 4

a. Specific infection site
b. Specific chemokine
c. Receptor binds to chemokine
d. LFA-1: binds to ICAM
i: stops rolling

Question 5

B-Cells: FDCs

Answer 5

a. FDCs secrete ‘chemokine A’
b. B-cell: ‘chemokine A’ expression
c. B-cells migrate to follicles

Question 6

T-Cells: FRCs

Answer 6

a. FRCs secrete ‘chemokine B’
b. T-cell: ‘chemokine B’ expression
c. T-cells migrate to paracortex

Question 7

Macrophage

Answer 7

Released cytokines communicate:
a. Vasculature
b. Immune cells (Neutrophils)
c. HSCs

Question 8

Dendritic Cells

Answer 8

Antigen-presentation and differn. to T-cells
a. IL12 & IFNg
b. IL4 & IL5
c. IL17 & IL2

Question 9

TH Cells

Answer 9

a. TH1
b. TH2
c. TH17

Question 10

TH1

Answer 10

a. Macrophage and TC cells
b. Cell-meditated
IL12 and IFNg

Question 11

TH2

Answer 11

a. Activates B-Cells
b. Humoral Immune
IL4 and IL5

Question 12

T17

Answer 12

a. Macrophage and Neutrophils
b. Inflammatory/ Innate
IL17 and IL2

Question 13

Paracrine

Answer 13

Cell –> Nearby cell

Question 14

Paracrine Example

Answer 14

Interferon signaling by virally-infected cells

Question 15

Endocrine

Answer 15

Cell –> Circulation –> Distant Cell

Question 16

Endocrine Example

Answer 16

a. Erythropoietin
b. GM-CSF
Goal: HSCs

Question 17

Autocrine

Answer 17

Self signaling

Question 18

Autocrine Example

Answer 18

IL-2 self signaling by TC cells
a. post DC activation

Question 19

Contact Dependent

Answer 19

Cells require close contact
a. gap junctions

Question 20

Contact Dependent Example

Answer 20

Sending cell –> Receiving cell

Question 21

Interleukin-1 family

Answer 21

a. Early Inflammatory Response
b. Decoy receptors

Question 22

Hematopoietic Family

Answer 22

a. Hematopoietic Development
b. B- and T- cell differentiation
c. Receptor subunit expression

Question 23

Receptor Subunit Expression

Answer 23

Used to regulate activity

Question 24

Abg-subunit

Answer 24

Physiologically active

Question 25

Interferon Family

Answer 25

Anti-viral response

Question 26

Tumor Necrosis Family

Answer 26

a. Receptor trimerization
b. Apoptosis

Question 27

Chemokine Family

Answer 27

a. Extravasation
b. Cell Migration

Question 28

Epithelial Mucus Layer

Answer 28

Mucus may symbiotically harbor bacteriophage

Question 29

Epithelial Mucus Layer: Steps

Answer 29

a. Epithelial cells make mucus
b. Phage bind to sugars in mucus
c. Protective layer is established
d. Phage can infect and destroy susceptible bacteria

Question 30

Psorasin

Answer 30

Skin secretion

Question 31

Lysozyme

Answer 31

Cleaves peptidoglycan molecules in bacterial walls

Question 32

E. Coli

Answer 32

a. Gram Neg.
b. Less sensitivity

Question 33

S. aureus

Answer 33

a. Gram Positive
b. More sensitivity

Question 34

Lysozyme: Effects on bacteria

Answer 34

a. Loss of structural support of plasma membrane
b. Osmotic stresses
c. Loss of physical barrier

Question 35

B-Defensin

Answer 35

a. Integrates and disrupts membranes
b. Forms pores in bacterial membranes

Question 36

A-Defensin

Answer 36

a. Defend from pathogens
b. Shape microbial
c. Protect stem cells

Question 37

Toll-Like Receptors

Answer 37

a. Leucine-Rich Domains
b. TIR Domains
c. TLRs can activate NF-kB and AP-1

Question 38

Intracellular TLRs

Answer 38

can induce IFNs

Question 39

C-Type Lectin Receptors

Answer 39

a. Induces phagocytosis
b. Pro-inflammatory signal transductions

Question 40

Retinoic Acid-Inducible I-like Receptor

Answer 40

a. Virus-specific motifs
b. Antimicrobials
c. Chemokines
d. Pro-inflammatory cytokines

Question 41

Nod-like Receptors

Answer 41

a. Activated by intracellular PAMPs
b. Bacterial DAMPs
c. Cytosolic

Question 42

Inflammasomes

Answer 42

a. Heptamer
b. Ligand bonding
c. Nod receptors + Bound Pathogens

Question 43

Inflammasomes: Steps

Answer 43

Activation:
a. Pro-caspase
b. IL-1b
c. IL-18
d. Gasdermin

Question 44

Apoptosis

Answer 44

a. Caspase activation
b. bax/bak
c. Nuclear Condensation

Question 45

Pyroptosis

Answer 45

a. Caspase activation
b. GSDMD
c. Nuclear Condensation
i. Cell Swelling
ii. Membrane rupture
d. Inflammatory Nature

Question 46

Necroptosis

Answer 46

a. Mlkl
b. Cell Swelling
c. Membrane Rupture
d. Inflammatory Nature

Question 47

Classical Pathway

Answer 47

Antigen-Antibody Complex

Question 48

Classical Pathway: Steps

Answer 48

a. C1=C1q +C1r + C1s
b. C1q; binds Fc
i. IgM > IgG; hinge region
c. C1s cleaves C4 and C4b
d. C1s cleaves C2 and C4bC2a
i. C3 Convertase
e. C3b
i. C4bC2a + C3b = C5 Convertase

Question 49

Lectin Pathway

Answer 49

a. MBL binds to MASP
b. MBL grabs target
i. MASP clips C3
ii. Forms C3b

Question 50

Alternative Pathway

Answer 50

a. Spontaneous hydrolysis of C3
b. Factor B + C3b
c. Factor D + Factor B
d. C3bBb acts as C3 Convertase
e. C3bBb + C3 = C5 Convertase
C5b + C6 + C7 + C8 + C9 = MAC

Question 51

All Pathways

Answer 51

a. Produce C3 Convertase
b. Generation of C5 Convertase

Question 52

Classical Pathway Components

Answer 52

a. C1
b. C4
c. C2

Question 53

Lectin Pathway Components

Answer 53

a. MBL
b. Ficolin 1
c. Ficolin 2
d. Ficolin 3

Question 54

Activation Pathway Components

Answer 54

a. C3b
b. Factor B
c. Factor D
d. Factor H
e. Factor I

Question 55

Membrane Co-factor Protein (MCP/CD46)

Answer 55

Accelerates clipping of C3b

Question 56

Factor H

Answer 56

Prevent excessive alternate pathway activation

Question 57

Factor I

Answer 57

Prevent excessive alternate pathway activation

Question 58

Decay Accelerating Factor (DAF)

Answer 58

Accelerates destruction of C3 convertase
a. C3bBb

Question 59

Cell Surface Protein (Protectin) CD59

Answer 59

Prevents incoroporation of C9 into new MACs
a. Inhibits formation of MAC

Question 60

C1INH

Answer 60

Inhibits further activation of C4 and C2
a. Locks C3b production

Question 61

Antigen binding sites

Answer 61

loops between beta strands with VL and VH domains

Question 62

IgA

Answer 62

a. Class switching
b. Hinge region
c. Mucosal antibody

Question 63

IgD

Answer 63

a. Alternative mRNA splicing
b. Hinge region

Question 64

IgE

Answer 64

a. Class switching
b. Least abundant
c. Primary responder parasites

Question 65

IgG

Answer 65

a. Most abundant
b. Class switching
c. Crosses placenta
d. Hinge region

Question 66

IgM

Answer 66

a. First made to ‘go’
b. NO hinge region
c. 10 potential binding sites

Question 67

Iga/Igb

Answer 67

Signal Transduction
a. B-Cell receptor
b. Antigen binding

Question 68

Alternative mRNA splicing

Answer 68

conversion from a membrane-bound BCR to a soluble antibody

Question 69

Susumu Tonegawa demonstrated that

Answer 69

a. Antibodies have more than one protein
b. Germ-line; Different
c. Plasma Cell; Same
d.&raquo_space; Diversity; V-J

Question 70

Recombination Signal Sequence

Answer 70

a. Conserved DNA sequence motifs
i. enzymes; target sites; DNA recombination
b. Well conserved heptamer and nonamer
c. Less well-conserved spacer
d. 12 or 23 bp

Question 71

RAG1/RAG2

Answer 71

a. Initiates recombination - nicks DNA
b. RAG1: complex with RSS
c. RAG2: stabilizes RSS

Question 72

VH vs. VL

Answer 72

a. Recombination among various V regions
i. Diverse antibody combining
b. VH: same direction
i. Same as constant region