Lecture 16

Question 1

Innate Proteins

Answer 1

1. 50 serum proteins
2. Mainly hepatocyte synthesization
3. Catalytic Casades

Question 2

Catalytic Cascades

Answer 2

Amplify the response

Question 3

Complement System

Answer 3

1. Directly eliminates some pathogens
2. Opsonize bacteria
   Eliminate apoptotic cells

Question 4

Jules Bordet

Answer 4

1. Sheep antiserum to Vibrio cholera LYSED the bacterium
2. Fresh Ab-free antiserum to heat-treated antiserum restored the LYSIS capability

Question 5

Bacteriolysis requirements

Answer 5

1. Heat-stable antibodies
2. Heat-labile lytic agent

Question 6

Identifying the Lytic agent

Answer 6

1. Developed Av-s vs RBCs
2. Purified serum fractions
3. Assay fractions for RBC lysis

Question 7

Paul Ehrlich

Answer 7

The activity of blood serum that completes the action of antibodies

Question 8

Complement System Categories

Answer 8

1. Initiators
2. Convertase Activators
3. Opsonin s
4. Anaphylatoxins
5. Membrane Attack Complex
6. Complement Receptors
7. Regulatory Proteins

Question 9

Initiator Pathways

Answer 9

1. Classical Pathway
2. Lectin Pathway
3. Alternative Pathway

Question 10

Classical Pathway

Answer 10

1. C1q recognition of Antigen-Antibody complexes
2. Crossover with ADAPTIVE system

Question 11

Lectin Pathway

Answer 11

1. Lectin recognition of PAMPs
2. INNATE Immunity

Question 12

Alternative Pathway

Answer 12

1. Spontaneous hydrolysis
2. Pathogenic surfaces
3. INNATE Immunity

Question 13

Convertases

Answer 13

Complexes of proteolytic proteins

Question 14

Zymogen

Answer 14

Protein whose activity is turned on by proteolytic cleavage

Question 15

Whole Protein

Answer 15

1. C2
2. C3
3. C4
4. C5

Question 16

Small Fragment

Answer 16

1. C2b#
2. C3a
3. C4a
4. C5a

Question 17

Large Fragment

Answer 17

1. C2a
2. C3b
3. C4b
4. C5b

Question 18

C4b2a

Answer 18

Dimer of large subunit of C4 and a large subunit C2

Question 19

C1 Macromolecular Complex

Answer 19

1. One C1a complex
2. Two C1r
3. Two C1s

Question 20

Classical Pathway: Step 1

Answer 20

1. C1qr2s2 recognizes antigen-bound antibodies
2. Binding activates r1 serine protease activity
   r1 cleaves and activates r2, s1, and s2

Question 21

Classical Pathway: Step 2

Answer 21

1. C1s cleaves C4 into C4a and C4b
2. C4b binds to the adjacent surface
   – C4b binds C2
   – C1s1 cleaves C2 into C2b and C2a
3. C4b2a = C3 convertase

Question 22

C2b

Answer 22

NO known activity

Question 23

Classical Pathway: Step 3

Answer 23

1. (C4b2a) C3 convertase catalyzes the proteolysis of many C3
2. C3a: anaphylatoxin
   - C3b binds to the pathogen surface
3. C3b binds to C4b2a to form C5 Convertase
4. C3b diffuses into extracellular space

Question 24

Classical Pathway: Step 4

Answer 24

1. C5 convertase cleaves C5
   - C5a (anaphylatoxin, chemoattractant)
2. C5b initiates MAC formation
   - Membrane Attack Complex

Question 25

Lectin Pathway

Answer 25

1. C3 Convertase
2. Does NOT rely on antibodies
3. utilizes lectins to bind specific carbohydrate residues on microbial surfaces

Question 26

High-Affinity Binding: Bacteria

Answer 26

1. Salmonella
2. Listeria
3. Neisseria

Question 27

High-Affinity Binding: Fungi

Answer 27

1. Cryptococcus neoformans
2. Candida Albicans

Question 28

High-Affinity Binding: Viruses

Answer 28

1. HIV
2. Respiratory Syncitial Virus

Question 29

Mannose-binding Lectin: MBL

Answer 29

1. Soluble PRR
2. Collectin family
3. Resembles C1q
4. Lectin Pathway initiatiors

Question 30

Lectin Pathway Initiators

Answer 30

1. L-Ficolin
2. H-Ficolin
3. M-Ficolin

Question 31

MASP2

Answer 31

1. Structurally: C1s serine protease
2. Cleaves C4
   
   • Cleaves C2
   • C4b2a: C3 Convertase
3. NO antibody-antigen recognition

Question 32

Alternative Pathway

Answer 32

1. Does not utilize antibodies
2. C3bBb C3 Convertase
   - C3bBb3b C5 Convertase

Question 33

Alternative Pathways

Answer 33

1. Tickover Pathway
2. Properdin-Activated Pathway
3. Protease-Activated Pathway

Question 34

Tickover: Fluid Phase

Answer 34

1. Spontaneous hydrolysis
   
   • C3(H2O)
2. C3(H2O) binds factor B
3. Factor B is cleaved by factor D

Question 35

Tickover Result

Answer 35

Leaves catalytically-active C3(H2O)Bb

Question 36

Membrane-Bound C3 Convertase

Answer 36

1. Fluid phase C3 convertase (C3(H2O)Bb) proteolyzes C3 to C3a + C3b
2. C3b binds to the pathogen surface
3. Bound C3b binds factor B
4. Factor B is cleaved by Factor D

Question 37

NO Infection; NO Pathogen Surface

Answer 37

1. Fluid phase C3 convertase spontaneously generates C3b
2. Fluid phase C3 degrades rapidly

Question 38

YES Infection; YES Pathogen Surface

Answer 38

1. Fluid phase C3 convertase spontaneously generates C2b
2. Capable of thioester bonding to the pathogen surface
3. Surface-bound C3 anchors the formation of membrane-bound C3 convertase

Question 39

Stabilization of C3 Convertase

Answer 39

1. Factor P binding stabilizes C3bBb
   - creates C3bPBb3b; C5 Convertase

Question 40

Properdin-Activated

Answer 40

1. Properdin binds specific microbial surfaces
   - acts as a PRR
   - Bound properdin can bind and stabilize C3b and factor B
2. Factor D cleaves Factor B

Question 41

Properdin-Activated

Answer 41

1. Innate Source of C2b
2. Specificity vs. PAMPS

Question 42

Protease-Activated

Answer 42

1. Coagulation Cascade proteases can cleave both C3 and C5
2. C3a and C5a increase inflammatory response

Question 43

C5 Convertase:

Answer 43

C4b2a3b or C3bBb3b
1. C5a
2. C5b

Question 44

C5a

Answer 44

1. Anaphalotoxin
2. Potent chemoattractant

Question 45

C5b

Answer 45

1. Initiates MAC formation

Question 46

Membrane Attack Complex

Answer 46

1. 10-19 C9 residues form the pore
2. Pore diameter: 7 to 10 nm
3. Pore permits free exchange of water and ions
4. Generally results in irreversible cell death

Question 47

Initiation

Answer 47

C1qr2s2 complex binds antigen-Ab complexes

Question 48

Convertase Activation

Answer 48

C4b2a=C3 Convertase
C4b2a3b=C5 Convertase

Question 49

Opsonins

Answer 49

Bound C1qr2s2 complex; bound C3b

Question 50

Anaphylatoxin

Answer 50

C4a
C3a
C5a

Question 51

Three Key Functions of C3b

Answer 51

1. Binds covalently to pathogen surfaces
2. Binds to membrane-bound C4b2a to C5 convertase
3. C3b attaches to the Fc portion of Soluble Ab-Antigen complexes